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Message-ID: <7fa19996-5830-af3d-ab24-08c76e1d5604@suse.de>
Date: Wed, 20 Apr 2022 12:26:41 +0200
From: Thomas Zimmermann <tzimmermann@...e.de>
To: Cai Huoqing <cai.huoqing@...ux.dev>
Cc: Maarten Lankhorst <maarten.lankhorst@...ux.intel.com>,
Maxime Ripard <mripard@...nel.org>,
David Airlie <airlied@...ux.ie>,
Daniel Vetter <daniel@...ll.ch>,
Sumit Semwal <sumit.semwal@...aro.org>,
Christian König <christian.koenig@....com>,
linux-kernel@...r.kernel.org, dri-devel@...ts.freedesktop.org,
linux-media@...r.kernel.org, linaro-mm-sig@...ts.linaro.org
Subject: Re: [PATCH 2/2] drm/nvdla: Add driver support for NVDLA
Hi,
thanks for your submission. Some general comments:
* some functions are prefixed with dla_, others use nvdla_. It seems
arbitrary to me. Please use nvdla_ consistently throughout the source code.
* For reporting errors, please use drm_err(), drm_warn(), etc. I
suggest to rearrange the error messages to not be located in the
innermost functions.
Please find more review comments below. It's not a full review, but at
least something to start with.
Best regards
Thomas
Am 19.04.22 um 15:59 schrieb Cai Huoqing:
> The NVIDIA Deep Learning Accelerator (NVDLA) is an open source IP
> which is integrated into NVIDIA Jetson AGX Xavier,
> so add driver support for this accelerator.
>
> Signed-off-by: Cai Huoqing <cai.huoqing@...ux.dev>
> ---
> drivers/gpu/drm/Kconfig | 2 +
> drivers/gpu/drm/Makefile | 1 +
> drivers/gpu/drm/nvdla/Kconfig | 8 +
> drivers/gpu/drm/nvdla/Makefile | 19 +
> drivers/gpu/drm/nvdla/nvdla_bdma.c | 200 +
> drivers/gpu/drm/nvdla/nvdla_cache.c | 215 +
> drivers/gpu/drm/nvdla/nvdla_cdp.c | 300 ++
> drivers/gpu/drm/nvdla/nvdla_common.c | 295 ++
> drivers/gpu/drm/nvdla/nvdla_common.h | 835 +++
> drivers/gpu/drm/nvdla/nvdla_conv.c | 683 +++
> drivers/gpu/drm/nvdla/nvdla_drm.c | 695 +++
> drivers/gpu/drm/nvdla/nvdla_drm.h | 127 +
> drivers/gpu/drm/nvdla/nvdla_engine.c | 233 +
> drivers/gpu/drm/nvdla/nvdla_engine.h | 272 +
> drivers/gpu/drm/nvdla/nvdla_gem.c | 393 ++
> drivers/gpu/drm/nvdla/nvdla_ioctl.h | 99 +
> drivers/gpu/drm/nvdla/nvdla_pdp.c | 446 ++
> drivers/gpu/drm/nvdla/nvdla_reg.h | 6411 +++++++++++++++++++++++
> drivers/gpu/drm/nvdla/nvdla_rubik.c | 217 +
> drivers/gpu/drm/nvdla/nvdla_sched.h | 52 +
> drivers/gpu/drm/nvdla/nvdla_scheduler.c | 1005 ++++
> drivers/gpu/drm/nvdla/nvdla_sdp.c | 728 +++
> 22 files changed, 13236 insertions(+)
> create mode 100644 drivers/gpu/drm/nvdla/Kconfig
> create mode 100644 drivers/gpu/drm/nvdla/Makefile
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_bdma.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_cache.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_cdp.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_common.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_common.h
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_conv.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_drm.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_drm.h
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_engine.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_engine.h
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_gem.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_ioctl.h
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_pdp.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_reg.h
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_rubik.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_sched.h
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_scheduler.c
> create mode 100644 drivers/gpu/drm/nvdla/nvdla_sdp.c
>
> diff --git a/drivers/gpu/drm/Kconfig b/drivers/gpu/drm/Kconfig
> index 5133c3f028ab..a55cff374abd 100644
> --- a/drivers/gpu/drm/Kconfig
> +++ b/drivers/gpu/drm/Kconfig
> @@ -409,6 +409,8 @@ source "drivers/gpu/drm/solomon/Kconfig"
>
> source "drivers/gpu/drm/sprd/Kconfig"
>
> +source "drivers/gpu/drm/nvdla/Kconfig"
> +
> config DRM_HYPERV
> tristate "DRM Support for Hyper-V synthetic video device"
> depends on DRM && PCI && MMU && HYPERV
> diff --git a/drivers/gpu/drm/Makefile b/drivers/gpu/drm/Makefile
> index c2ef5f9fce54..8fa3537f308a 100644
> --- a/drivers/gpu/drm/Makefile
> +++ b/drivers/gpu/drm/Makefile
> @@ -134,3 +134,4 @@ obj-y += gud/
> obj-$(CONFIG_DRM_HYPERV) += hyperv/
> obj-y += solomon/
> obj-$(CONFIG_DRM_SPRD) += sprd/
> +obj-$(CONFIG_DRM_NVDLA) += nvdla/
> diff --git a/drivers/gpu/drm/nvdla/Kconfig b/drivers/gpu/drm/nvdla/Kconfig
> new file mode 100644
> index 000000000000..11c04f5da877
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/Kconfig
> @@ -0,0 +1,8 @@
> +# SPDX-License-Identifier: GPL-2.0-only
> +config DRM_NVDLA
> + tristate "NVDLA DRM"
> + depends on DRM
> + select DRM_GEM_CMA_HELPER
> + help
> + Choose this option for open-source NVIDIA DLA support.
> + If M is selected the module will be called nvdla-drm.
> diff --git a/drivers/gpu/drm/nvdla/Makefile b/drivers/gpu/drm/nvdla/Makefile
> new file mode 100644
> index 000000000000..74f37d258f8d
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/Makefile
> @@ -0,0 +1,19 @@
> +
> +# SPDX-License-Identifier: GPL-2.0
> +nvdla-drm-y := \
> + nvdla_drm.o \
> + nvdla_gem.o \
> + nvdla_scheduler.o \
> + nvdla_engine.o \
> + nvdla_bdma.o \
> + nvdla_conv.o \
> + nvdla_sdp.o \
> + nvdla_cdp.o \
> + nvdla_pdp.o \
> + nvdla_rubik.o \
> + nvdla_cache.o \
> + nvdla_common.o \
> + nvdla_engine_data.o \
> + nvdla_engine_debug.o \
File names should be sorted alphabetically here.
> +
> +obj-$(CONFIG_DRM_NVDLA) += nvdla-drm.o
> diff --git a/drivers/gpu/drm/nvdla/nvdla_bdma.c b/drivers/gpu/drm/nvdla/nvdla_bdma.c
> new file mode 100644
> index 000000000000..225613f27acf
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_bdma.c
> @@ -0,0 +1,200 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_engine.h"
> +
> +static const uint8_t map_mem[] = {
> + FIELD_ENUM(BDMA_CFG_CMD_0, SRC_RAM_TYPE, MC),
> + FIELD_ENUM(BDMA_CFG_CMD_0, SRC_RAM_TYPE, CVSRAM),
> +};
> +
> +void
> +dla_bdma_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id)
> +{
> + /**
> + * There is no producer bit for BDMA operation,
> + * interrupt pointer decides which outstanding request
> + * to use for this BDMA operation
> + */
> +}
> +
> +int
> +dla_bdma_enable(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + if (group->surface_desc->bdma_surface.num_transfers == (uint16_t)0) {
> + group->events |= ((uint8_t)1 << DLA_EVENT_OP_COMPLETED);
> + goto exit;
> + }
> +
> + /**
> + * Launch BDMA transfer
> + */
> + if (group->id == 0)
> + bdma_reg_write(engine, CFG_LAUNCH0, FIELD_ENUM(BDMA_CFG_LAUNCH0_0,
> + GRP0_LAUNCH, YES));
> + else
> + bdma_reg_write(engine, CFG_LAUNCH1, FIELD_ENUM(BDMA_CFG_LAUNCH1_0,
> + GRP1_LAUNCH, YES));
> +
> +exit:
> + return 0;
> +}
> +
> +void
> +dla_bdma_rdma_check(struct dla_processor_group *group)
> +{
> + group->is_rdma_needed = 0;
> +}
> +
> +/**
> + * Program BDMA slot for transfer
> + */
> +static int32_t
> +processor_bdma_program_slot(struct dla_engine *engine,
> + struct dla_bdma_surface_desc *bdma_surface,
> + struct dla_bdma_transfer_desc *transfer)
> +{
> + int32_t ret = 0;
> + uint64_t source_addr = 0;
> + uint64_t destination_addr = 0;
> + uint32_t high, low, reg;
> + uint8_t bdma_free_slots = 0;
> +
> + /* make sure there're enough free slots */
> + if (bdma_free_slots <= 0) {
> + do {
> + reg = bdma_reg_read(engine, STATUS);
> + reg = (reg & MASK(BDMA_STATUS_0, FREE_SLOT)) >>
> + SHIFT(BDMA_STATUS_0, FREE_SLOT);
> + } while (reg == 0);
> + bdma_free_slots = (uint8_t)reg;
> + }
> +
> + dla_get_dma_address(engine->driver_context, engine->task->task_data,
> + transfer->source_address,
> + (void *)&source_addr,
> + DESTINATION_DMA);
> + dla_get_dma_address(engine->driver_context, engine->task->task_data,
> + transfer->destination_address,
> + (void *)&destination_addr,
> + DESTINATION_DMA);
> +
> + ASSERT_GOTO((transfer->line_repeat <= 8192),
> + ret, -EINVAL, exit);
> + ASSERT_GOTO((transfer->surface_repeat <= 8192),
> + ret, -EINVAL, exit);
> + ASSERT_GOTO((transfer->line_size % 32) == 0,
> + ret, -EINVAL, exit);
> + ASSERT_GOTO(transfer->source_line >= transfer->line_size,
> + ret, -EINVAL, exit);
> + ASSERT_GOTO(transfer->destination_line >= transfer->line_size,
> + ret, -EINVAL, exit);
> + ASSERT_GOTO(transfer->source_surface >=
> + (transfer->source_line * transfer->line_repeat),
> + ret, -EINVAL, exit);
> + ASSERT_GOTO(transfer->destination_surface >=
> + (transfer->destination_line * transfer->line_repeat),
> + ret, -EINVAL, exit);
> +
> + /* config registers */
> + high = upper_32_bits(source_addr);
> + low = lower_32_bits(source_addr);
> + bdma_reg_write(engine, CFG_SRC_ADDR_LOW, low);
> + bdma_reg_write(engine, CFG_SRC_ADDR_HIGH, high);
> + high = upper_32_bits(destination_addr);
> + low = lower_32_bits(destination_addr);
> + bdma_reg_write(engine, CFG_DST_ADDR_LOW, low);
> + bdma_reg_write(engine, CFG_DST_ADDR_HIGH, high);
> + bdma_reg_write(engine, CFG_LINE, (transfer->line_size >> 5) - 1);
> + reg = (map_mem[bdma_surface->source_type] <<
> + SHIFT(BDMA_CFG_CMD_0, SRC_RAM_TYPE)) |
> + (map_mem[bdma_surface->destination_type] <<
> + SHIFT(BDMA_CFG_CMD_0, DST_RAM_TYPE));
> + bdma_reg_write(engine, CFG_CMD, reg);
> + bdma_reg_write(engine, CFG_LINE_REPEAT, transfer->line_repeat - 1);
> + bdma_reg_write(engine, CFG_SRC_LINE, transfer->source_line);
> + bdma_reg_write(engine, CFG_DST_LINE, transfer->destination_line);
> + bdma_reg_write(engine, CFG_SURF_REPEAT, transfer->surface_repeat - 1);
> + bdma_reg_write(engine, CFG_SRC_SURF, transfer->source_surface);
> + bdma_reg_write(engine, CFG_DST_SURF, transfer->destination_surface);
> + bdma_reg_write(engine, CFG_OP, FIELD_ENUM(BDMA_CFG_OP_0, EN, ENABLE));
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_bdma_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + struct dla_processor_group *next_group;
> +
> + next_group = &processor->groups[!group->id];
> +
> + /**
> + * If another group is already programmed but not active then
> + * do not program this operation as BDMA does not really
> + * have shadow copies for groups. It will end programming
> + * same group. Wait for another group to get enabled.
> + */
> + if ((processor->group_status & (1 << next_group->id)) &&
> + !next_group->active)
> + return 0;
> +
> + return 1;
> +}
> +
> +void
> +dla_bdma_dump_config(struct dla_processor_group *group)
> +{
> + struct dla_bdma_op_desc *bdma_op;
> + struct dla_bdma_surface_desc *bdma_surface;
> +
> + bdma_surface = &group->surface_desc->bdma_surface;
> + bdma_op = &group->operation_desc->bdma_op;
> +}
> +
> +int
> +dla_bdma_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t i;
> + int32_t ret = 0;
> + struct dla_bdma_surface_desc *bdma_surface;
> +
> + if (!engine->config_data->bdma_enable) {
> + pr_err("BDMA is not supported for this configuration\n");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + bdma_surface = &group->surface_desc->bdma_surface;
> +
> + pr_debug("Num of transfers %u\n", bdma_surface->num_transfers);
> + if (bdma_surface->num_transfers == (uint16_t)0)
> + goto exit;
> +
> + if (bdma_surface->num_transfers > NUM_MAX_BDMA_OPS) {
> + pr_err("Invalid number of transfers\n");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + for (i = 0; i < bdma_surface->num_transfers; i++) {
> + ret = processor_bdma_program_slot(engine, bdma_surface,
> + &bdma_surface->transfers[i]);
> + if (ret)
> + goto exit;
> + }
> +
> + dla_enable_intr(engine, MASK(GLB_S_INTR_MASK_0, BDMA_DONE_MASK1) |
> + MASK(GLB_S_INTR_MASK_0, BDMA_DONE_MASK0));
> +
> +exit:
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_cache.c b/drivers/gpu/drm/nvdla/nvdla_cache.c
> new file mode 100644
> index 000000000000..f8bd7b514aab
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_cache.c
> @@ -0,0 +1,215 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_engine.h"
> +
> +#define DLA_OP_CACHE_SIZE (DLA_NUM_GROUPS * ((DLA_OP_NUM + 2) * 2))
> +
> +static struct dla_common_op_desc desc_cache[DLA_OP_NUM][DLA_OP_CACHE_SIZE];
> +static int32_t desc_refcount[DLA_OP_NUM][DLA_OP_CACHE_SIZE];
> +
> +void
> +dla_get_refcount(struct dla_common_op_desc *op_desc)
> +{
> + int32_t i;
> + struct dla_common_op_desc *desc = NULL;
> +
> + if (op_desc == NULL)
> + return;
> +
> + if (op_desc->index == -1)
> + return;
> +
> + desc = &desc_cache[op_desc->op_type][0];
> +
> + for (i = 0; i < DLA_OP_CACHE_SIZE; i++, desc++) {
> + if (desc->index == op_desc->index &&
> + desc->roi_index == op_desc->roi_index) {
> + desc_refcount[op_desc->op_type][i]++;
> + return;
> + }
> + }
> +}
> +
> +struct dla_common_op_desc *
> +dla_get_op_desc(struct dla_engine *engine,
> + struct dla_task *task, int16_t index,
> + uint8_t op_type, uint8_t roi_index)
> +{
> + int32_t i;
> + int32_t ret;
> + uint64_t op_base;
> + uint64_t dep_graph_addr;
> + struct dla_common_op_desc *desc = NULL;
> +
> + if (index == -1) {
> + pr_debug("no desc get due to index==-1\n");
> + goto exit;
> + }
> +
> + dep_graph_addr = (sizeof(struct dla_common_op_desc) *
> + engine->network->num_operations * roi_index);
> +
> + desc = &desc_cache[op_type][0];
> +
> + for (i = 0; i < DLA_OP_CACHE_SIZE; i++, desc++) {
> + if (desc->index == index && desc->roi_index == roi_index) {
> + if (desc->op_type != op_type) {
> + pr_err("op_cache[op=%u] contains incorrect entry of op[%u]\n",
> + op_type, desc->op_type);
> + continue;
> + }
> + desc_refcount[op_type][i]++;
> + goto exit;
> + }
> + }
> +
> + desc = &desc_cache[op_type][0];
> +
> + for (i = 0; i < DLA_OP_CACHE_SIZE; i++, desc++) {
> + if (desc->index == -1) {
> + op_base = dep_graph_addr +
> + (sizeof(struct dla_common_op_desc) *
> + (uint64_t)index);
> + ret = dla_data_read(engine->driver_context,
> + task->task_data,
> + task->dependency_graph_addr,
> + (void *)(desc),
> + sizeof(struct dla_common_op_desc),
> + op_base);
> + if (ret) {
> + desc = NULL;
> + goto exit;
> + }
> +
> + if (op_type != desc->op_type) {
> + /*
> + * op_type of entry read from DRAM should not
> + * mismatch with given op_type. If they
> + * mismatches, then wrong entry is fetched, so
> + * report this issue by throwing error.
> + */
> + pr_err("Fetched [op_type=%u] from DRAM doesn't match with op_type[%u]\n",
> + desc->op_type, op_type);
> + desc->op_type = op_type;
> + desc->index = -1;
> + desc->roi_index = -1;
> + desc = NULL;
> + goto exit;
> + }
> +
> + desc->index = index;
> + desc->roi_index = roi_index;
> +
> + desc_refcount[op_type][i]++;
> + goto exit;
> + }
> + }
> +
> +exit:
> + return desc;
> +}
> +
> +static void
> +dla_free_op_desc(struct dla_engine *engine, struct dla_common_op_desc *op_desc)
> +{
> + uint64_t op_base;
> + uint64_t dep_graph_addr;
> + struct dla_task *task;
> +
> + pr_debug("Enter: %s op desc index %u ROI %d\n", __func__,
> + op_desc->index, op_desc->roi_index);
> +
> + task = engine->task;
> + dep_graph_addr = (sizeof(struct dla_common_op_desc) *
> + engine->network->num_operations *
> + op_desc->roi_index);
> +
> + if (op_desc->index == -1)
> + goto exit;
> +
> + if (op_desc == NULL)
> + goto exit;
> +
> + /**
> + * TODO: keeping the depth value hardcoded as 0 for now,
> + * need to replace it once corresponding implementation is done.
> + */
> + op_base = (dep_graph_addr +
> + (sizeof(struct dla_common_op_desc) *
> + (uint64_t)op_desc->index));
> +
> + /**
> + * Flush descriptor to DRAM
> + */
> + dla_data_write(engine->driver_context,
> + task->task_data,
> + (void *)op_desc,
> + task->dependency_graph_addr,
> + sizeof(struct dla_common_op_desc),
> + op_base);
> +
> + /**
> + * Release it
> + */
> + op_desc->index = -1;
> + op_desc->roi_index = -1;
> +exit:
> + return;
> +}
> +
> +void
> +dla_put_op_desc(struct dla_engine *engine, struct dla_common_op_desc *op_desc)
> +{
> + int32_t i;
> + struct dla_common_op_desc *desc;
> +
> + if (op_desc == NULL)
> + return;
> +
> + if (op_desc->index == -1)
> + return;
> +
> + desc = &desc_cache[op_desc->op_type][0];
> +
> + for (i = 0; i < DLA_OP_CACHE_SIZE; i++, desc++) {
> + if (desc->index == op_desc->index &&
> + desc->roi_index == op_desc->roi_index) {
> +
> + desc_refcount[op_desc->op_type][i]--;
> +
> + /**
> + * Free desc if refcount is 0
> + */
> + if (desc_refcount[op_desc->op_type][i] == 0)
> + dla_free_op_desc(engine, op_desc);
> +
> + return;
> + }
> + }
> +}
> +
> +void
> +dla_init_op_cache(struct dla_engine *engine)
> +{
> + int32_t i, j;
> + struct dla_common_op_desc *desc = &desc_cache[0][0];
> +
> + memset((uint8_t *)&desc_cache[0][0], 0, sizeof(desc_cache));
> + memset((uint8_t *)&desc_refcount[0][0], 0, sizeof(desc_refcount));
> +
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + for (j = 0; j < DLA_OP_CACHE_SIZE; j++) {
> + desc->index = -1;
> + desc->roi_index = -1;
> + desc->op_type = (uint8_t)i;
> + desc++;
> + }
> + }
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_cdp.c b/drivers/gpu/drm/nvdla/nvdla_cdp.c
> new file mode 100644
> index 000000000000..793161e50b1c
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_cdp.c
> @@ -0,0 +1,300 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_engine.h"
> +
> +static const uint8_t map_ram[] = {
> + FIELD_ENUM(CDP_RDMA_D_SRC_DMA_CFG_0, SRC_RAM_TYPE, MC),
> + FIELD_ENUM(CDP_RDMA_D_SRC_DMA_CFG_0, SRC_RAM_TYPE, CV),
> +};
> +
> +static const uint8_t map_precision[] = {
> + FIELD_ENUM(CDP_RDMA_D_DATA_FORMAT_0, INPUT_DATA, INT8),
> + FIELD_ENUM(CDP_RDMA_D_DATA_FORMAT_0, INPUT_DATA, INT16),
> + FIELD_ENUM(CDP_RDMA_D_DATA_FORMAT_0, INPUT_DATA, FP16),
> +};
> +
> +static const uint8_t map_perf_dma[] = {
> + FIELD_ENUM(CDP_D_PERF_ENABLE_0, DMA_EN, DISABLE),
> + FIELD_ENUM(CDP_D_PERF_ENABLE_0, DMA_EN, ENABLE),
> +};
> +
> +static const uint8_t map_perf_lut[] = {
> + FIELD_ENUM(CDP_D_PERF_ENABLE_0, LUT_EN, DISABLE),
> + FIELD_ENUM(CDP_D_PERF_ENABLE_0, LUT_EN, ENABLE),
> +};
> +
> +
> +static uint32_t
> +map_local_size(uint8_t local_size)
> +{
> + return ((local_size-1)/2)-1;
> +}
> +
> +void
> +dla_cdp_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id)
> +{
> + uint32_t reg;
> +
> + /**
> + * set producer pointer for all sub-modules
> + */
> + reg = group_id << SHIFT(CDP_S_POINTER_0, PRODUCER);
> + cdp_reg_write(engine, S_POINTER, reg);
> + reg = group_id << SHIFT(CDP_RDMA_S_POINTER_0, PRODUCER);
> + cdp_rdma_reg_write(engine, S_POINTER, reg);
> +}
> +
> +int
> +dla_cdp_enable(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + uint32_t reg;
> +
> + /**
> + * enable all sub-modules
> + */
> + reg = FIELD_ENUM(CDP_RDMA_D_OP_ENABLE_0, OP_EN, ENABLE);
> + cdp_rdma_reg_write(engine, D_OP_ENABLE, reg);
> + reg = FIELD_ENUM(CDP_D_OP_ENABLE_0, OP_EN, ENABLE);
> + cdp_reg_write(engine, D_OP_ENABLE, reg);
> +
> + return 0;
> +}
> +
> +void
> +dla_cdp_rdma_check(struct dla_processor_group *group)
> +{
> + group->is_rdma_needed = 1;
> +}
> +
> +static int32_t
> +processor_cdp_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + uint32_t reg, high, low;
> + uint64_t input_address = 0;
> + uint64_t output_address = 0;
> + struct dla_lut_param lut;
> + struct dla_cdp_op_desc *cdp_op;
> + struct dla_cdp_surface_desc *cdp_surface;
> +
> + cdp_op = &group->operation_desc->cdp_op;
> + cdp_surface = &group->surface_desc->cdp_surface;
> +
> + /* Argument check */
> + if (cdp_surface->src_data.type == DLA_MEM_HW) {
> + pr_err("Invalid source memory type\n");
> + ret = -EINVAL;
> + goto exit;
> + }
> + if (cdp_surface->dst_data.type == DLA_MEM_HW) {
> + pr_err("Invalid destination memory type\n");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if (cdp_op->in_precision != cdp_op->out_precision) {
> + pr_err("CDP does not support precision conversion\n");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + /* get the addresses from task descriptor */
> + ret = dla_read_input_address(engine, &cdp_surface->src_data,
> + &input_address,
> + group->op_desc->index,
> + group->roi_index, 1);
> + if (ret)
> + goto exit;
> +
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + cdp_surface->dst_data.address,
> + cdp_surface->dst_data.offset,
> + (void *)&output_address,
> + DESTINATION_DMA);
> + if (cdp_op->lut_index >= 0) {
> + group->lut_index = cdp_op->lut_index;
> + dla_read_lut(engine, cdp_op->lut_index, (void *)&lut);
> + }
> +
> + /* config CDP RDMA registers */
> + reg = ((cdp_surface->src_data.width - 1)
> + << SHIFT(CDP_RDMA_D_DATA_CUBE_WIDTH_0, WIDTH));
> + cdp_rdma_reg_write(engine, D_DATA_CUBE_WIDTH, reg);
> +
> + reg = ((cdp_surface->src_data.height - 1)
> + << SHIFT(CDP_RDMA_D_DATA_CUBE_HEIGHT_0, HEIGHT));
> + cdp_rdma_reg_write(engine, D_DATA_CUBE_HEIGHT, reg);
> +
> + reg = ((cdp_surface->src_data.channel - 1)
> + << SHIFT(CDP_RDMA_D_DATA_CUBE_CHANNEL_0, CHANNEL));
> + cdp_rdma_reg_write(engine, D_DATA_CUBE_CHANNEL, reg);
> +
> + high = upper_32_bits(input_address);
> + low = lower_32_bits(input_address);
> + cdp_rdma_reg_write(engine, D_SRC_BASE_ADDR_LOW, low);
> + cdp_rdma_reg_write(engine, D_SRC_BASE_ADDR_HIGH, high);
> +
> + cdp_rdma_reg_write(engine, D_SRC_LINE_STRIDE,
> + cdp_surface->src_data.line_stride);
> + cdp_rdma_reg_write(engine, D_SRC_SURFACE_STRIDE,
> + cdp_surface->src_data.surf_stride);
> +
> + reg = (map_ram[cdp_surface->src_data.type]
> + << SHIFT(CDP_RDMA_D_SRC_DMA_CFG_0, SRC_RAM_TYPE));
> + cdp_rdma_reg_write(engine, D_SRC_DMA_CFG, reg);
> +
> + reg = (map_precision[cdp_op->in_precision]
> + << SHIFT(CDP_RDMA_D_DATA_FORMAT_0, INPUT_DATA));
> + cdp_rdma_reg_write(engine, D_DATA_FORMAT, reg);
> +
> + /* config CDP */
> + if (cdp_op->lut_index >= 0)
> + update_lut(engine, CDP_S_LUT_ACCESS_CFG_0, &lut, cdp_op->in_precision);
> +
> + high = upper_32_bits(output_address);
> + low = lower_32_bits(output_address);
> + cdp_reg_write(engine, D_DST_BASE_ADDR_LOW, low);
> + cdp_reg_write(engine, D_DST_BASE_ADDR_HIGH, high);
> +
> + cdp_reg_write(engine, D_DST_LINE_STRIDE, cdp_surface->dst_data.line_stride);
> + cdp_reg_write(engine, D_DST_SURFACE_STRIDE, cdp_surface->dst_data.surf_stride);
> +
> + reg = (map_ram[cdp_surface->dst_data.type]
> + << SHIFT(CDP_D_DST_DMA_CFG_0, DST_RAM_TYPE));
> + cdp_reg_write(engine, D_DST_DMA_CFG, reg);
> +
> + reg = (map_precision[cdp_op->in_precision]
> + << SHIFT(CDP_D_DATA_FORMAT_0, INPUT_DATA_TYPE));
> + cdp_reg_write(engine, D_DATA_FORMAT, reg);
> +
> + reg = (map_local_size(cdp_op->local_size)
> + << SHIFT(CDP_D_LRN_CFG_0, NORMALZ_LEN));
> + cdp_reg_write(engine, D_LRN_CFG, reg);
> +
> + reg = (cdp_op->in_cvt.offset
> + << SHIFT(CDP_D_DATIN_OFFSET_0, DATIN_OFFSET));
> + cdp_reg_write(engine, D_DATIN_OFFSET, reg);
> +
> + reg = (cdp_op->in_cvt.scale
> + << SHIFT(CDP_D_DATIN_SCALE_0, DATIN_SCALE));
> + cdp_reg_write(engine, D_DATIN_SCALE, reg);
> +
> + reg = (cdp_op->in_cvt.truncate
> + << SHIFT(CDP_D_DATIN_SHIFTER_0, DATIN_SHIFTER));
> + cdp_reg_write(engine, D_DATIN_SHIFTER, reg);
> +
> + reg = (cdp_op->out_cvt.offset
> + << SHIFT(CDP_D_DATOUT_OFFSET_0, DATOUT_OFFSET));
> + cdp_reg_write(engine, D_DATOUT_OFFSET, reg);
> +
> + reg = (cdp_op->out_cvt.scale
> + << SHIFT(CDP_D_DATOUT_SCALE_0, DATOUT_SCALE));
> + cdp_reg_write(engine, D_DATOUT_SCALE, reg);
> +
> + reg = (cdp_op->out_cvt.truncate
> + << SHIFT(CDP_D_DATOUT_SHIFTER_0, DATOUT_SHIFTER));
> + cdp_reg_write(engine, D_DATOUT_SHIFTER, reg);
> +
> + reg = ((cdp_op->bypass_sqsum ?
> + FIELD_ENUM(CDP_D_FUNC_BYPASS_0, SQSUM_BYPASS, ENABLE) :
> + FIELD_ENUM(CDP_D_FUNC_BYPASS_0, SQSUM_BYPASS, DISABLE)) <<
> + SHIFT(CDP_D_FUNC_BYPASS_0, SQSUM_BYPASS)) |
> + ((cdp_op->bypass_out_mul ?
> + FIELD_ENUM(CDP_D_FUNC_BYPASS_0, MUL_BYPASS, ENABLE) :
> + FIELD_ENUM(CDP_D_FUNC_BYPASS_0, MUL_BYPASS, DISABLE)) <<
> + SHIFT(CDP_D_FUNC_BYPASS_0, MUL_BYPASS));
> + cdp_reg_write(engine, D_FUNC_BYPASS, reg);
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_cdp_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + struct dla_processor_group *next_group;
> + struct dla_cdp_op_desc *cdp_op;
> +
> + cdp_op = &group->operation_desc->cdp_op;
> + next_group = &processor->groups[!group->id];
> +
> + /**
> + * Single LUT is shared between two CDP groups, need to make
> + * sure that usage does not conflict. Also, LUT write
> + * access is locked when CDP sub-engine is active, so delay
> + * writing LUT when another group is active.
> + */
> +
> + /**
> + * if no LUT required for current group then it can be programmed
> + * without further checks
> + */
> + if (cdp_op->lut_index == -1)
> + return 1;
> +
> + /**
> + * if same LUT is used for both groups then it can be programmed
> + * without more checks. Even if another group is active and LUT
> + * is locked, it would have been programmed by another group.
> + */
> + if (next_group->lut_index == cdp_op->lut_index)
> + return 1;
> +
> + /**
> + * if LUT index of another group is not -1 means some LUT is programmed,
> + * then do not program current LUT as we already know current LUT is not
> + * -1 and neither same as another group.
> + */
> + if (next_group->lut_index != -1)
> + return 0;
> +
> + /**
> + * if current group needs LUT different than another group and that
> + * group is not active then program it.
> + */
> + if (!next_group->active)
> + return 1;
> +
> + /**
> + * if control is here it means current group is using LUT different than
> + * another group and that group is active. Wait for another group to
> + * become idle.
> + */
> +
> + return 0;
> +}
> +
> +void
> +dla_cdp_dump_config(struct dla_processor_group *group)
> +{
> + struct dla_cdp_op_desc *cdp_op;
> + struct dla_cdp_surface_desc *cdp_surface;
> +
> + cdp_surface = &group->surface_desc->cdp_surface;
> + cdp_op = &group->operation_desc->cdp_op;
> +}
> +
> +int
> +dla_cdp_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret;
> +
> + dla_enable_intr(engine, MASK(GLB_S_INTR_MASK_0, CDP_DONE_MASK1) |
> + MASK(GLB_S_INTR_MASK_0, CDP_DONE_MASK0));
> +
> + ret = processor_cdp_program(engine, group);
> + if (ret)
> + goto exit;
> +
> +exit:
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_common.c b/drivers/gpu/drm/nvdla/nvdla_common.c
> new file mode 100644
> index 000000000000..3abc863d9fce
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_common.c
> @@ -0,0 +1,295 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_reg.h"
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_engine.h"
> +
> +static const uint8_t map_lut_method[] = {
> + FIELD_ENUM(CDP_S_LUT_CFG_0, LUT_LE_FUNCTION, EXPONENT),
> + FIELD_ENUM(CDP_S_LUT_CFG_0, LUT_LE_FUNCTION, LINEAR)
> +};
> +static const uint8_t map_lut_out[] = {
> + FIELD_ENUM(CDP_S_LUT_CFG_0, LUT_UFLOW_PRIORITY, LE),
> + FIELD_ENUM(CDP_S_LUT_CFG_0, LUT_UFLOW_PRIORITY, LO)
> +};
> +
> +static const uint16_t access_data_offset[] = {
> + CDP_S_LUT_ACCESS_DATA_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_ACCESS_DATA_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t lut_cfg_offset[] = {
> + CDP_S_LUT_CFG_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_CFG_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t lut_info_offset[] = {
> + CDP_S_LUT_INFO_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_INFO_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t le_start_offset[] = {
> + CDP_S_LUT_LE_START_LOW_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LE_START_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t le_end_offset[] = {
> + CDP_S_LUT_LE_END_LOW_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LE_END_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t lo_start_offset[] = {
> + CDP_S_LUT_LO_START_LOW_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LO_START_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t lo_end_offset[] = {
> + CDP_S_LUT_LO_END_LOW_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LO_END_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t le_slope_scale_offset[] = {
> + CDP_S_LUT_LE_SLOPE_SCALE_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LE_SLOPE_SCALE_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t le_slope_shift_offset[] = {
> + CDP_S_LUT_LE_SLOPE_SHIFT_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LE_SLOPE_SHIFT_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t lo_slope_scale_offset[] = {
> + CDP_S_LUT_LO_SLOPE_SCALE_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LO_SLOPE_SCALE_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +static const uint16_t lo_slope_shift_offset[] = {
> + CDP_S_LUT_LO_SLOPE_SHIFT_0 - CDP_S_LUT_ACCESS_CFG_0,
> + SDP_S_LUT_LO_SLOPE_SHIFT_0 - SDP_S_LUT_ACCESS_CFG_0,
> +};
> +
> +void update_lut(struct dla_engine *engine, uint32_t reg_base,
> + struct dla_lut_param *lut, uint8_t precision)
> +{
> + int32_t i;
> + uint32_t reg;
> + uint32_t high, low;
> + int32_t is_sdp = reg_base == SDP_S_LUT_ACCESS_CFG_0;
> +
> + /* program raw table */
> + reg = (FIELD_ENUM(CDP_S_LUT_ACCESS_CFG_0, LUT_TABLE_ID, LE)
> + << SHIFT(CDP_S_LUT_ACCESS_CFG_0, LUT_TABLE_ID)) |
> + (FIELD_ENUM(CDP_S_LUT_ACCESS_CFG_0, LUT_ACCESS_TYPE, WRITE)
> + << SHIFT(CDP_S_LUT_ACCESS_CFG_0, LUT_ACCESS_TYPE));
> + reg_write(engine, reg_base, reg);
> +
> + for (i = 0; i < (1<<LUT_LINEAR_EXP_TABLE_ENTRY_LOG2)+1; i++) {
> + dla_reg_write(engine->driver_context,
> + reg_base + access_data_offset[is_sdp],
> + lut->linear_exp_table[i]);
> + }
> +
> + /* program density table */
> + reg = (FIELD_ENUM(CDP_S_LUT_ACCESS_CFG_0, LUT_TABLE_ID, LO)
> + << SHIFT(CDP_S_LUT_ACCESS_CFG_0, LUT_TABLE_ID)) |
> + (FIELD_ENUM(CDP_S_LUT_ACCESS_CFG_0, LUT_ACCESS_TYPE, WRITE)
> + << SHIFT(CDP_S_LUT_ACCESS_CFG_0, LUT_ACCESS_TYPE));
> + dla_reg_write(engine->driver_context, reg_base, reg);
> +
> + for (i = 0; i < (1<<LUT_LINEAR_ONLY_TABLE_ENTRY_LOG2)+1; i++) {
> + dla_reg_write(engine->driver_context,
> + reg_base + access_data_offset[is_sdp],
> + lut->linear_only_table[i]);
> + }
> +
> + /* program other configurations */
> + reg = (map_lut_method[lut->method] <<
> + SHIFT(CDP_S_LUT_CFG_0, LUT_LE_FUNCTION)) |
> + (map_lut_out[lut->hybrid_priority] <<
> + SHIFT(CDP_S_LUT_CFG_0, LUT_HYBRID_PRIORITY)) |
> + (map_lut_out[lut->underflow_priority] <<
> + SHIFT(CDP_S_LUT_CFG_0, LUT_UFLOW_PRIORITY)) |
> + (map_lut_out[lut->overflow_priority] <<
> + SHIFT(CDP_S_LUT_CFG_0, LUT_OFLOW_PRIORITY));
> + dla_reg_write(engine->driver_context,
> + reg_base + lut_cfg_offset[is_sdp], reg);
> +
> + if (lut->method == FIELD_ENUM(CDP_S_LUT_CFG_0,
> + LUT_LE_FUNCTION, EXPONENT)) {
> + reg = ((((uint32_t)lut->linear_exp_offset.exp_offset) <<
> + SHIFT(CDP_S_LUT_INFO_0, LUT_LE_INDEX_OFFSET))&
> + MASK(CDP_S_LUT_INFO_0, LUT_LE_INDEX_OFFSET)) |
> + ((((uint32_t)lut->linear_only_offset.frac_bits) <<
> + SHIFT(CDP_S_LUT_INFO_0, LUT_LO_INDEX_SELECT))&
> + MASK(CDP_S_LUT_INFO_0, LUT_LO_INDEX_SELECT));
> + } else {
> + reg = ((((uint32_t)lut->linear_exp_offset.frac_bits) <<
> + SHIFT(CDP_S_LUT_INFO_0, LUT_LE_INDEX_SELECT))&
> + MASK(CDP_S_LUT_INFO_0, LUT_LE_INDEX_SELECT)) |
> + ((((uint32_t)lut->linear_only_offset.frac_bits) <<
> + SHIFT(CDP_S_LUT_INFO_0, LUT_LO_INDEX_SELECT))&
> + MASK(CDP_S_LUT_INFO_0, LUT_LO_INDEX_SELECT));
> + }
> + dla_reg_write(engine->driver_context,
> + reg_base + lut_info_offset[is_sdp], reg);
> + high = upper_32_bits(lut->linear_exp_start);
> + low = lower_32_bits(lut->linear_exp_start);
> + dla_reg_write(engine->driver_context,
> + reg_base + le_start_offset[is_sdp], low);
> + if (!is_sdp)
> + dla_reg_write(engine->driver_context,
> + reg_base + le_start_offset[is_sdp] + 4, high);
> +
> + high = upper_32_bits(lut->linear_exp_end);
> + low = lower_32_bits(lut->linear_exp_end);
> + dla_reg_write(engine->driver_context,
> + reg_base + le_end_offset[is_sdp], low);
> + if (!is_sdp)
> + dla_reg_write(engine->driver_context,
> + reg_base + le_end_offset[is_sdp] + 4, high);
> +
> + high = upper_32_bits(lut->linear_only_start);
> + low = lower_32_bits(lut->linear_only_start);
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_start_offset[is_sdp], low);
> + if (!is_sdp)
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_start_offset[is_sdp] + 4, high);
> +
> + high = upper_32_bits(lut->linear_only_end);
> + low = lower_32_bits(lut->linear_only_end);
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_end_offset[is_sdp], low);
> + if (!is_sdp)
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_end_offset[is_sdp] + 4, high);
> +
> + if (precision == PRECISION_FP16) {
> + reg = (lut->linear_exp_underflow_slope.data_f <<
> + SHIFT(CDP_S_LUT_LE_SLOPE_SCALE_0,
> + LUT_LE_SLOPE_UFLOW_SCALE)) |
> + (lut->linear_exp_overflow_slope.data_f <<
> + SHIFT(CDP_S_LUT_LE_SLOPE_SCALE_0,
> + LUT_LE_SLOPE_OFLOW_SCALE));
> + dla_reg_write(engine->driver_context,
> + reg_base + le_slope_scale_offset[is_sdp], reg);
> +
> + reg = (lut->linear_only_underflow_slope.data_f <<
> + SHIFT(CDP_S_LUT_LO_SLOPE_SCALE_0,
> + LUT_LO_SLOPE_UFLOW_SCALE)) |
> + (lut->linear_only_overflow_slope.data_f <<
> + SHIFT(CDP_S_LUT_LO_SLOPE_SCALE_0,
> + LUT_LO_SLOPE_OFLOW_SCALE));
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_slope_scale_offset[is_sdp], reg);
> + } else {
> + union dla_slope *oslope;
> + union dla_slope *uslope;
> +
> + uslope = &lut->linear_exp_underflow_slope;
> + oslope = &lut->linear_exp_overflow_slope;
> + reg = ((((uint32_t)uslope->data_i.scale)
> + << SHIFT(CDP_S_LUT_LE_SLOPE_SCALE_0,
> + LUT_LE_SLOPE_UFLOW_SCALE))&
> + MASK(CDP_S_LUT_LE_SLOPE_SCALE_0,
> + LUT_LE_SLOPE_UFLOW_SCALE)) |
> + ((((uint32_t)oslope->data_i.scale)
> + << SHIFT(CDP_S_LUT_LE_SLOPE_SCALE_0,
> + LUT_LE_SLOPE_OFLOW_SCALE))&
> + MASK(CDP_S_LUT_LE_SLOPE_SCALE_0,
> + LUT_LE_SLOPE_OFLOW_SCALE));
> + dla_reg_write(engine->driver_context,
> + reg_base + le_slope_scale_offset[is_sdp], reg);
> +
> + reg = ((((uint32_t)uslope->data_i.shifter) <<
> + SHIFT(CDP_S_LUT_LE_SLOPE_SHIFT_0,
> + LUT_LE_SLOPE_UFLOW_SHIFT))&
> + MASK(CDP_S_LUT_LE_SLOPE_SHIFT_0,
> + LUT_LE_SLOPE_UFLOW_SHIFT)) |
> + ((((uint32_t)oslope->data_i.shifter) <<
> + SHIFT(CDP_S_LUT_LE_SLOPE_SHIFT_0,
> + LUT_LE_SLOPE_OFLOW_SHIFT))&
> + MASK(CDP_S_LUT_LE_SLOPE_SHIFT_0,
> + LUT_LE_SLOPE_OFLOW_SHIFT));
> + dla_reg_write(engine->driver_context,
> + reg_base + le_slope_shift_offset[is_sdp], reg);
> +
> + uslope = &lut->linear_only_underflow_slope;
> + oslope = &lut->linear_only_overflow_slope;
> + reg = ((((uint32_t)uslope->data_i.scale) <<
> + SHIFT(CDP_S_LUT_LO_SLOPE_SCALE_0,
> + LUT_LO_SLOPE_UFLOW_SCALE))&
> + MASK(CDP_S_LUT_LO_SLOPE_SCALE_0,
> + LUT_LO_SLOPE_UFLOW_SCALE)) |
> + ((((uint32_t)oslope->data_i.scale) <<
> + SHIFT(CDP_S_LUT_LO_SLOPE_SCALE_0,
> + LUT_LO_SLOPE_OFLOW_SCALE))&
> + MASK(CDP_S_LUT_LO_SLOPE_SCALE_0,
> + LUT_LO_SLOPE_OFLOW_SCALE));
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_slope_scale_offset[is_sdp], reg);
> + reg = ((((uint32_t)uslope->data_i.shifter) <<
> + SHIFT(CDP_S_LUT_LO_SLOPE_SHIFT_0,
> + LUT_LO_SLOPE_UFLOW_SHIFT))&
> + MASK(CDP_S_LUT_LO_SLOPE_SHIFT_0,
> + LUT_LO_SLOPE_UFLOW_SHIFT)) |
> + ((((uint32_t)oslope->data_i.shifter) <<
> + SHIFT(CDP_S_LUT_LO_SLOPE_SHIFT_0,
> + LUT_LO_SLOPE_OFLOW_SHIFT))&
> + MASK(CDP_S_LUT_LO_SLOPE_SHIFT_0,
> + LUT_LO_SLOPE_OFLOW_SHIFT));
> + dla_reg_write(engine->driver_context,
> + reg_base + lo_slope_shift_offset[is_sdp], reg);
> + }
> +}
> +
> +int
> +validate_data_cube(struct dla_data_cube src_data_cube,
> + struct dla_data_cube dst_data_cube,
> + uint8_t mem_type)
> +{
> + int32_t ret = 0;
> +
> + if ((src_data_cube.width > DCUBE_MAX_WIDTH) ||
> + (src_data_cube.height > DCUBE_MAX_HEIGHT) ||
> + (src_data_cube.channel > DCUBE_MAX_CHANNEL)) {
> + pr_err("Invalid SrcInput Cude[W: %u, H: %u, C: %u]",
> + src_data_cube.width, src_data_cube.height,
> + src_data_cube.channel);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if ((dst_data_cube.width > DCUBE_MAX_WIDTH) ||
> + (dst_data_cube.height > DCUBE_MAX_HEIGHT) ||
> + (dst_data_cube.channel > DCUBE_MAX_CHANNEL)) {
> + pr_err("Invalid DstInput Cude[W: %u, H: %u, C: %u]",
> + dst_data_cube.width, dst_data_cube.height,
> + dst_data_cube.channel);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if (src_data_cube.type > mem_type) {
> + pr_err("Invalid src_data.mem_type: %u\n", src_data_cube.type);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if (dst_data_cube.type > mem_type) {
> + pr_err("Invalid dst_data.mem_type: %u\n", dst_data_cube.type);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +validate_precision(uint8_t precision, uint8_t map_precision)
> +{
> + int32_t ret = 0;
> +
> + if (precision >= map_precision) {
> + pr_err("Invalid precision: %u\n", precision);
> + ret = -EINVAL;
> + }
> +
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_common.h b/drivers/gpu/drm/nvdla/nvdla_common.h
> new file mode 100644
> index 000000000000..38cf43246890
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_common.h
> @@ -0,0 +1,835 @@
> +/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION.
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#ifndef __NVDLA_COMMON_H_
> +#define __NVDLA_COMMON_H_
> +
> +#include <linux/types.h>
> +
> +#define DCUBE_MAX_WIDTH 8192
> +#define DCUBE_MAX_HEIGHT 8192
> +#define DCUBE_MAX_CHANNEL 8192
> +
> +/**
> + * @ingroup Processors
> + * @name DLA Processors
> + * Processor modules in DLA engine. Each processor has it's
> + * own operation a.k.a. HW layer. Network is formed using
> + * graph of these operations
> + * @{
> + */
> +#define DLA_OP_BDMA 0
> +#define DLA_OP_CONV 1
> +#define DLA_OP_SDP 2
> +#define DLA_OP_PDP 3
> +#define DLA_OP_CDP 4
> +#define DLA_OP_RUBIK 5
> +/** @} */
> +
> +/**
> + * @ingroup Processors
> + * @name Maximum number of processors
> + * @brief DLA ash 6 processors
> + * @{
> + */
> +#define DLA_OP_NUM 6
> +/** @} */
> +
> +/**
> + * @ingroup Processors
> + * @name Number of groups
> + * @brief Each processor has 2 groups of registers
> + * @{
> + */
> +#define DLA_NUM_GROUPS 2
> +/** @} */
> +
> +/**
> + * Network descriptor
> + *
> + * Contains all information to execute a network
> + *
> + * @op_head: Index of first operation of each type in operations list
> + * @num_rois: Number of ROIs
> + * @num_operations: Number of operations in one list
> + * @num_luts: Number of LUTs
> + */
> +struct dla_network_desc {
> + int16_t operation_desc_index;
> + int16_t surface_desc_index;
> +
> + int16_t dependency_graph_index;
> + int16_t lut_data_index;
> +
> + int16_t roi_array_index;
> + int16_t surface_index;
> +
> + int16_t stat_list_index;
> + int16_t reserved1;
> +
> + int16_t op_head[DLA_OP_NUM];
> +
> + uint16_t num_rois;
> + uint16_t num_operations;
> +
> + uint16_t num_luts;
> + uint16_t num_addresses;
> +
> + int16_t input_layer;
> + uint8_t dynamic_roi;
> + uint8_t reserved0;
> +} __packed __aligned(4);
> +
> +/**
> + * @name Memory types
> + * @brief DLA engnine can read/write to/from 3 memory types
> + * @{
> + */
> +#define DLA_MEM_MC 0 /* External DRAM */
> +#define DLA_MEM_CV 1 /* CV-SRAM */
> +#define DLA_MEM_HW 2 /* DLA sub-module */
> +/** @} */
> +
> +/**
> + * @ingroup Events
> + * @name Operation events
> + * @brief Different events triggered by an operations
> + * @{
> + */
> +#define DLA_EVENT_OP_COMPLETED 1
> +#define DLA_EVENT_OP_PROGRAMMED 2
> +#define DLA_EVENT_OP_ENABLED 3
> +#define DLA_EVENT_CDMA_WT_DONE 4
> +#define DLA_EVENT_CDMA_DT_DONE 5
> +/** @} */
> +
> +struct dla_consumer {
> + int16_t index; /* the index of dla_common_op_desc in dep_graph_addr */
> + uint8_t event;
> + uint8_t res;
> +} __packed __aligned(4);
> +
> +struct dla_common_op_desc {
> + int16_t index; /* set by ucode */
> + int8_t roi_index;
> + uint8_t op_type;
> +
> + uint8_t dependency_count;
> + uint8_t reserved0[3];
> +
> + struct dla_consumer consumers[DLA_OP_NUM];
> + struct dla_consumer fused_parent;
> +} __packed __aligned(4);
> +
> +struct dla_roi_array_desc {
> + uint32_t array_length;
> +
> + uint32_t array_reserved;
> +} __packed __aligned(4);
> +
> +struct dla_roi_desc {
> + uint32_t left;
> +
> + uint32_t top;
> +
> + uint32_t right;
> +
> + uint32_t bottom;
> +} __packed __aligned(4);
> +
> +/**
> + * @ingroup BDMA
> + * @name Maximum BDMA transfers
> + * @brief BDMA supports multiple transfers in operation. This indicates
> + * maximum number of transfers possible in one operation.
> + * @{
> + */
> +#define NUM_MAX_BDMA_OPS 20
> +/** @} */
> +
> +struct dla_bdma_transfer_desc {
> + int16_t source_address;
> + int16_t destination_address;
> +
> + uint32_t line_size;
> +
> + uint32_t line_repeat;
> +
> + uint32_t source_line;
> +
> + uint32_t destination_line;
> +
> + uint32_t surface_repeat;
> +
> + uint32_t source_surface;
> +
> + uint32_t destination_surface;
> +} __packed __aligned(4);
> +
> +struct dla_bdma_surface_desc {
> + uint8_t source_type;
> + uint8_t destination_type;
> + uint16_t num_transfers;
> +
> + struct dla_bdma_transfer_desc transfers[NUM_MAX_BDMA_OPS];
> +} __packed __aligned(4);
> +
> +struct dla_bdma_op_desc {
> + uint16_t num_transfers;
> + uint16_t reserved0;
> +} __packed __aligned(4);
> +
> +struct dla_bdma_stat_desc {
> + uint32_t read_stall;
> + uint32_t write_stall;
> +} __packed __aligned(4);
> +
> +/**
> + * @ingroup Convolution
> + * @name Convolution mode
> + * @brief Convolution modes support by DLA
> + * @{
> + */
> +#define CONV_MODE_DIRECT 0
> +#define CONV_MODE_WINOGRAD 1
> +/** @} */
> +
> +/**
> + * @ingroup Processors
> + * @name Precision BPE mapping
> + * @brief Precision formats and Bit Per Elements mapping
> + * @{
> + */
> +#define BPE_PRECISION_INT8 1
> +#define BPE_PRECISION_INT16 2
> +#define BPE_PRECISION_FP16 2
> +/** @} */
> +
> +
> +/**
> + * @ingroup Processors
> + * @name Precision types
> + * @brief Precision formats supported by DLA engine
> + * @{
> + */
> +#define PRECISION_INT8 0
> +#define PRECISION_INT16 1
> +#define PRECISION_FP16 2
> +/** @} */
> +
> +/**
> + * @ingroup Processors
> + * @name Data formats
> + * @brief Data formats supported by DLA engine
> + * @{
> + */
> +#define FORMAT_T_R8 0
> +#define FORMAT_T_R10 1
> +#define FORMAT_T_R12 2
> +#define FORMAT_T_R16 3
> +#define FORMAT_T_R16_I 4
> +#define FORMAT_T_R16_F 5
> +#define FORMAT_T_A16B16G16R16 6
> +#define FORMAT_T_X16B16G16R16 7
> +#define FORMAT_T_A16B16G16R16_F 8
> +#define FORMAT_T_A16Y16U16V16 9
> +#define FORMAT_T_V16U16Y16A16 10
> +#define FORMAT_T_A16Y16U16V16_F 11
> +#define FORMAT_T_A8B8G8R8 12
> +#define FORMAT_T_A8R8G8B8 13
> +#define FORMAT_T_B8G8R8A8 14
> +#define FORMAT_T_R8G8B8A8 15
> +#define FORMAT_T_X8B8G8R8 16
> +#define FORMAT_T_X8R8G8B8 17
> +#define FORMAT_T_B8G8R8X8 18
> +#define FORMAT_T_R8G8B8X8 19
> +#define FORMAT_T_A2B10G10R10 20
> +#define FORMAT_T_A2R10G10B10 21
> +#define FORMAT_T_B10G10R10A2 22
> +#define FORMAT_T_R10G10B10A2 23
> +#define FORMAT_T_A2Y10U10V10 24
> +#define FORMAT_T_V10U10Y10A2 25
> +#define FORMAT_T_A8Y8U8V8 26
> +#define FORMAT_T_V8U8Y8A8 27
> +#define FORMAT_T_Y8___U8V8_N444 28
> +#define FORMAT_T_Y8___V8U8_N444 29
> +#define FORMAT_T_Y10___U10V10_N444 30
> +#define FORMAT_T_Y10___V10U10_N444 31
> +#define FORMAT_T_Y12___U12V12_N444 32
> +#define FORMAT_T_Y12___V12U12_N444 33
> +#define FORMAT_T_Y16___U16V16_N444 34
> +#define FORMAT_T_Y16___V16U16_N444 35
> +#define FORMAT_FEATURE 36
> +/** @} */
> +
> +/**
> + * @ingroup Convolution
> + * @name Pixel mapping
> + * @brief Pixel mapping formats supported for image input in Convolution
> + * @{
> + */
> +#define MAP_PITCH_LINEAR 0
> +/** @} */
> +
> +/**
> + * @ingroup Convolution
> + * @name Weight formats
> + * @brief Weight data formats supported in Convolution
> + * @{
> + */
> +#define WEIGHT_FORMAT_UNCOMPRESSED 0
> +#define WEIGHT_FORMAT_COMPRESSED 1
> +/** @} */
> +
> +/**
> + * @ingroup Convolution
> + * @name Mean data format
> + * @brief Mean data formats supported in Convolution
> + * @{
> + */
> +#define MEAN_FORMAT_DISABLE 0
> +#define MEAN_FORMAT_ENABLE 1
> +/** @} */
> +
> +struct dla_cvt_param {
> + int16_t scale;
> + uint8_t truncate;
> + uint8_t enable;
> +
> + int32_t offset;
> +} __packed __aligned(4);
> +
> +struct dla_data_cube {
> + uint16_t type; /* dla_mem_type */
> + int16_t address; /* offset to the actual IOVA in task.address_list */
> +
> + uint32_t offset; /* offset within address */
> + uint32_t size;
> +
> + /* cube dimensions */
> + uint16_t width;
> + uint16_t height;
> +
> + uint16_t channel;
> + uint16_t reserved0;
> +
> + /* stride information */
> + uint32_t line_stride;
> + uint32_t surf_stride;
> +
> + /* For Rubik only */
> + uint32_t plane_stride;
> +} __packed __aligned(4);
> +
> +#define PIXEL_OVERRIDE_UINT 0
> +#define PIXEL_OVERRIDE_INT 1
> +
> +struct dla_conv_surface_desc {
> + /* Data cube */
> + struct dla_data_cube weight_data;
> + struct dla_data_cube wmb_data;
> + struct dla_data_cube wgs_data;
> + struct dla_data_cube src_data;
> + struct dla_data_cube dst_data;
> +
> + /**
> + * u_addr = input_data.source_addr + offset_u
> + * this field should be set when YUV is not interleave format
> + *
> + */
> + int64_t offset_u;
> +
> + /* line stride for 2nd plane, must be 32bytes aligned */
> + uint32_t in_line_uv_stride;
> +} __packed __aligned(4);
> +
> +struct dla_conv_op_desc {
> + /* Performance parameters */
> +
> + /* dla_conv_mode */
> + uint8_t conv_mode;
> + uint8_t data_reuse;
> + uint8_t weight_reuse;
> + uint8_t skip_data_rls;
> +
> + uint8_t skip_weight_rls;
> + uint8_t reserved0;
> + uint16_t entry_per_slice;
> +
> + /* dla_data_format */
> + uint8_t data_format;
> + /* dla_pixel_mapping */
> + uint8_t pixel_mapping;
> + /* number of free slices before fetch */
> + uint16_t fetch_grain;
> +
> + uint8_t reserved_b[8];
> +
> + /* batch_num */
> + uint8_t batch;
> + /* dla_weight_format */
> + uint8_t weight_format;
> + uint8_t data_bank;
> + uint8_t weight_bank;
> +
> + /* the offset in bytes of each data cube in a batch */
> + uint32_t batch_stride;
> +
> + uint8_t post_extension;
> + uint8_t pixel_override;
> + /* number of slices need to be released */
> + uint16_t release;
> +
> + /* The input cube dimension for CSC */
> + uint16_t input_width_csc;
> + uint16_t input_height_csc;
> +
> + uint16_t input_channel_csc;
> + uint16_t kernel_width_csc;
> +
> + uint16_t kernel_height_csc;
> + uint16_t kernel_channel_csc;
> +
> + /* The input cube dimension for CMAC */
> + uint16_t input_width_cmac;
> + uint16_t input_height_cmac;
> +
> + /* actual size in bytes */
> + uint32_t bytes_per_kernel;
> +
> + /* Algorithm parameters */
> +
> + int16_t mean_ry; /* mean value for red in RGB or Y in YUV */
> + int16_t mean_gu; /* mean value for green in RGB or U in YUV */
> +
> + int16_t mean_bv; /* mean value for blue in RGB or V in YUV */
> + int16_t mean_ax;
> +
> + uint8_t mean_format; /* dla_mean_format */
> + uint8_t conv_stride_x;
> + uint8_t conv_stride_y;
> + uint8_t pad_x_left;
> +
> + uint8_t pad_x_right;
> + uint8_t pad_y_top;
> + uint8_t pad_y_bottom;
> + uint8_t dilation_x;
> +
> + uint8_t dilation_y;
> + uint8_t reserved2[2];
> +
> + /* Precision parameters */
> + uint8_t pra_truncate;
> +
> + uint8_t in_precision;
> + /* The output precision from CONV, it's the MAC processing precison */
> + uint8_t out_precision;
> + int16_t pad_val;
> +
> + /* input converter parameters */
> + struct dla_cvt_param in_cvt;
> + /* output converter parameters, support truncate only */
> + struct dla_cvt_param out_cvt;
> +
> +} __packed __aligned(4);
> +
> +struct dla_conv_stat_desc {
> + uint32_t data_read_stall;
> + uint32_t weight_read_stall;
> + uint32_t data_read_latency;
> + uint32_t weight_read_latency;
> + uint32_t saturation_count;
> + uint32_t nan_data_num;
> + uint32_t nan_weight_num;
> + uint32_t inf_data_num;
> + uint32_t inf_weight_num;
> +} __packed __aligned(4);
> +
> +/**
> + * @ingroup SDP
> + * @name Activation functions
> + * @brief Activation functions supported in SDP
> + * @{
> + */
> +#define ACTIVATION_NONE 0
> +#define ACTIVATION_RELU 1
> +#define ACTIVATION_LUT 2
> +#define ACTIVATION_PRELU 3
> +/** @} */
> +
> +/**
> + * @ingroup LUT
> + * @name LUT size
> + * @brief LUT sizes for linear and exponentila LUT
> + * @{
> + */
> +#define LUT_LINEAR_EXP_TABLE_ENTRY_LOG2 6
> +#define LUT_LINEAR_ONLY_TABLE_ENTRY_LOG2 8
> +/** @} */
> +
> +/**
> + * @ingroup LUT
> + * @name LUT types
> + * @brief DLA supports two types of LUT, linear and exonential
> + * @{
> + */
> +#define LUT_LINEAR_EXP_TABLE 0
> +#define LUT_LINEAR_ONLY_TABLE 1
> +/** @} */
> +
> +/**
> + * @ingroup LUT
> + * @name LUT methods
> + * @brief DLA supports two types of LUT, linear and exonential
> + * @{
> + */
> +#define LUT_METHOD_EXPONENTIAL 0
> +#define LUT_METHOD_LINEAR 1
> +/** @} */
> +
> +/**
> + * @ingroup LUT
> + * @name LUT
> + * @brief DLA supports two types of LUT, linear and exonential
> + * @{
> + */
> +#define LUT_PRI_LINEAR_EXP 0
> +#define LUT_PRI_LINEAR_ONLY 1
> +/** @} */
> +
> +union dla_lut_offset {
> + /**
> + * Number should be substracted on log domain before look up
> + * exponetial table it has the same definition as hardware
> + * thus input scaling should also take into account when
> + * set this field.
> + */
> + int8_t exp_offset;
> + /**
> + * Number of bits should be right shift before looking
> + * up linear table
> + */
> + int8_t frac_bits;
> + uint16_t reserved0;
> +};
> +
> +/**
> + * This struct is used to represent floating point values by INT
> + * suppose we have a float point number fp_x, it will be represented
> + * as:
> + *
> + * fp_x = scale_int_x>>(shifter_x)
> + *
> + * This is very useful for INT pipeline;
> + */
> +struct dla_float_data {
> + int16_t scale;
> + int8_t shifter;
> + uint8_t reserved0;
> +} __packed __aligned(4);
> +
> +/**
> + * For INT pipeline, we use the struct above to represent a floating number;
> + * For FP16 pipeline, we should store the FP16 encoded value into a uint16_t
> + * container
> + */
> +union dla_slope {
> + struct dla_float_data data_i;
> +
> + uint16_t data_f;
> +};
> +
> +struct dla_lut_param {
> + /**
> + * value of expression ((1<<LUT_LINEAR_EXP_TABLE_ENTRY_LOG2)+1) is 65,
> + * ((1<<LUT_LINEAR_ONLY_TABLE_ENTRY_LOG2)+1) is 257, and int16_t is of
> + * 2Byte. And below two statement's combined memory size is 644 Byte.
> + *
> + * NOTE: below two declaration combined size should always be multiple
> + * of 4.
> + */
> + int16_t linear_exp_table[(1<<LUT_LINEAR_EXP_TABLE_ENTRY_LOG2)+1];
> + int16_t linear_only_table[(1<<LUT_LINEAR_ONLY_TABLE_ENTRY_LOG2)+1];
> +
> + union dla_lut_offset linear_exp_offset;
> + union dla_lut_offset linear_only_offset;
> +
> + /**
> + * The start and end point of raw table,
> + * valid when raw_method=LINEAR only
> + */
> + uint64_t linear_exp_start;
> + uint64_t linear_exp_end;
> + uint64_t linear_only_start;
> + uint64_t linear_only_end;
> +
> + union dla_slope linear_exp_underflow_slope;
> + union dla_slope linear_exp_overflow_slope;
> + union dla_slope linear_only_underflow_slope;
> + union dla_slope linear_only_overflow_slope;
> +
> + /**
> + * dla_lut_priority, when both lut are hit(or one overflow,
> + * the other underflow), which one should be selected as output
> + */
> + uint8_t hybrid_priority;
> + uint8_t underflow_priority;
> + uint8_t overflow_priority;
> + uint8_t method; /* dla_lut_method */
> +} __packed __aligned(4);
> +
> +struct dla_sdp_surface_desc {
> + /* Data cube */
> + /* source input cube, available when SDP working on offline mode */
> + struct dla_data_cube src_data;
> +
> + /* X1 input cube */
> + struct dla_data_cube x1_data;
> +
> + /* X2 input cube */
> + struct dla_data_cube x2_data;
> +
> + /* Y input cube */
> + struct dla_data_cube y_data;
> +
> + /* Output cube */
> + struct dla_data_cube dst_data;
> +} __packed __aligned(4);
> +
> +#define SDP_OP_NONE 0
> +#define SDP_OP_MUL 1
> +#define SDP_OP_ADD 2
> +#define SDP_OP_BOTH 3
> +
> +#define SDP_ALU_OP_MAX 0
> +#define SDP_ALU_OP_MIN 1
> +#define SDP_ALU_OP_SUM 2
> +#define SDP_ALU_OP_EQL 3
> +
> +#define SDP_OP_PER_LAYER 0
> +#define SDP_OP_PER_KERNEL 1
> +#define SDP_OP_PER_POINT 2
> +
> +struct dla_sdp_cvt {
> + struct dla_cvt_param alu_cvt;
> + struct dla_cvt_param mul_cvt;
> +} __packed __aligned(4);
> +
> +struct dla_sdp_op {
> + uint8_t enable;
> + uint8_t alu_type; /* dla_sdp_alu_op_type */
> + uint8_t type; /* dla_sdp_op_type */
> + uint8_t mode; /* dla_sdp_op_mode */
> +
> + uint8_t act; /* dla_act_type */
> + uint8_t shift_value; /* left shift */
> + uint8_t truncate;
> + uint8_t precision;
> +
> + int32_t alu_operand;
> + int32_t mul_operand;
> +
> + struct dla_sdp_cvt cvt;
> +} __packed __aligned(4);
> +
> +struct dla_sdp_op_desc {
> + /* Precision parameters */
> + /* dla_precision */
> + uint8_t src_precision;
> + uint8_t dst_precision;
> + int16_t lut_index;
> +
> + struct dla_cvt_param out_cvt;
> +
> + /* Performance parameters */
> + /* dla_conv_mode */
> + uint8_t conv_mode;
> + uint8_t batch_num;
> + uint16_t reserved0;
> +
> + uint32_t batch_stride; /* will be used when batch_num > 1 */
> +
> + /* Algorithm parameters */
> + struct dla_sdp_op x1_op;
> + struct dla_sdp_op x2_op;
> + struct dla_sdp_op y_op;
> +} __packed __aligned(4);
> +
> +#define POOL_MODE_AVG 0
> +#define POOL_MODE_MAX 1
> +#define POOL_MODE_MIN 2
> +
> +#define POOL_SIZE_1 0
> +#define POOL_SIZE_2 1
> +#define POOL_SIZE_3 2
> +#define POOL_SIZE_4 3
> +#define POOL_SIZE_5 4
> +#define POOL_SIZE_6 5
> +#define POOL_SIZE_7 6
> +#define POOL_SIZE_8 7
> +
> +#define PDP_PAD_VAL_NUM 7
> +
> +struct dla_pdp_surface_desc {
> + /* Data cube */
> + struct dla_data_cube src_data;
> +
> + struct dla_data_cube dst_data;
> +} __packed __aligned(4);
> +
> +struct dla_pdp_op_desc {
> + /* Performance parameters */
> + uint16_t partial_in_width_first;
> + uint16_t partial_in_width_mid;
> +
> + uint16_t partial_in_width_last;
> + uint16_t partial_width_first;
> +
> + uint16_t partial_width_mid;
> + uint16_t partial_width_last;
> +
> + uint8_t split_num;
> +
> + /* Algorithm parameters */
> + uint8_t pool_mode; /* dla_pool_mode */
> + uint8_t pool_width; /* dla_pool_width */
> + uint8_t pool_height; /* dla_pool_height */
> +
> + uint8_t stride_x;
> + uint8_t stride_y;
> +
> + /**
> + * The left/right padding size,
> + * pad_right might be less than pad_left
> + */
> + uint8_t pad_left;
> + uint8_t pad_right;
> +
> + /* The top/bottom padding size */
> + uint8_t pad_top;
> + uint8_t pad_bottom;
> +
> + /* Precision parameters */
> + uint8_t precision; /* dla_precision */
> + uint8_t reserved0;
> + /**
> + * if input has non-zero "offset", this value should be set
> + * There'll be 7 different paddding values, the relationship between
> + * those versions are:
> + * padding_value[0] = -offset*scaling;
> + * padding_value[1] = 2*padding_value[0]
> + * padding_value[2] = 3*padding_value[0]
> + * ...
> + * The purpose is to avoid ucode implement FP16
> + * multiplier(for FP16 mode)
> + */
> + int32_t padding_value[PDP_PAD_VAL_NUM];
> +} __packed __aligned(4);
> +
> +struct dla_pdp_stat_desc {
> + uint32_t inf_input_num;
> + uint32_t nan_input_num;
> + uint32_t nan_output_num;
> + uint32_t write_stall;
> + uint32_t runtime;
> +} __packed __aligned(4);
> +
> +struct dla_cdp_surface_desc {
> + /* Data cube */
> + struct dla_data_cube src_data;
> +
> + struct dla_data_cube dst_data;
> +} __packed __aligned(4);
> +
> +struct dla_cdp_op_desc {
> + /* Precision parameters */
> +
> + /* dla_precision */
> + uint8_t in_precision;
> + uint8_t out_precision;
> + int16_t lut_index;
> +
> + struct dla_cvt_param in_cvt;
> + struct dla_cvt_param out_cvt;
> +
> + /* Performance parameters */
> +
> + /* Algorithm parameters */
> + uint8_t local_size;
> + uint8_t bypass_sqsum;
> + uint8_t bypass_out_mul;
> + uint8_t reserved0;
> +} __packed __aligned(4);
> +
> +struct dla_cdp_stat_desc {
> + uint32_t nan_input_num;
> + uint32_t inf_input_num;
> + uint32_t nan_output_num;
> + uint32_t write_stall;
> + uint32_t lut_uflow;
> + uint32_t lut_oflow;
> + uint32_t lut_hybrid;
> + uint32_t lut_le_hit;
> + uint32_t lut_lo_hit;
> + uint32_t saturation_count;
> + uint32_t runtime;
> +} __packed __aligned(4);
> +
> +struct dla_rubik_surface_desc {
> + /* Data cube */
> + struct dla_data_cube src_data;
> +
> + struct dla_data_cube dst_data;
> +} __packed __aligned(4);
> +
> +/* rubik mode */
> +#define RUBIK_MODE_CONTRACT 0
> +#define RUBIK_MODE_SPLIT 1
> +#define RUBIK_MODE_MERGE 2
> +
> +struct dla_rubik_op_desc {
> + /* Precision parameters */
> + uint8_t mode;
> + uint8_t precision;
> + uint8_t stride_x;
> + uint8_t stride_y;
> +} __packed __aligned(4);
> +
> +struct dla_rubik_stat_desc {
> + uint32_t read_stall;
> + uint32_t write_stall;
> + uint32_t runtime;
> +} __packed __aligned(4);
> +
> +union dla_surface_container {
> + struct dla_bdma_surface_desc bdma_surface;
> + struct dla_conv_surface_desc conv_surface;
> + struct dla_sdp_surface_desc sdp_surface;
> + struct dla_pdp_surface_desc pdp_surface;
> + struct dla_cdp_surface_desc cdp_surface;
> + struct dla_rubik_surface_desc rubik_surface;
> +};
> +
> +union dla_operation_container {
> + struct dla_bdma_op_desc bdma_op;
> + struct dla_conv_op_desc conv_op;
> + struct dla_sdp_op_desc sdp_op;
> + struct dla_pdp_op_desc pdp_op;
> + struct dla_cdp_op_desc cdp_op;
> + struct dla_rubik_op_desc rubik_op;
> +};
> +
> +struct dla_engine;
> +void update_lut(struct dla_engine *engine, uint32_t reg_base,
> + struct dla_lut_param *lut,
> + uint8_t precision);
> +int32_t validate_data_cube(struct dla_data_cube src_data_cube,
> + struct dla_data_cube dst_data_cube,
> + uint8_t mem_type);
> +int32_t validate_precision(uint8_t precision,
> + uint8_t map_precision);
> +
> +#endif
> diff --git a/drivers/gpu/drm/nvdla/nvdla_conv.c b/drivers/gpu/drm/nvdla/nvdla_conv.c
> new file mode 100644
> index 000000000000..bb24909e1afa
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_conv.c
> @@ -0,0 +1,683 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_common.h"
> +#include "nvdla_engine.h"
> +
> +static const uint8_t map_precision[] = {
> + FIELD_ENUM(CDMA_D_MISC_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(CDMA_D_MISC_CFG_0, IN_PRECISION, INT16),
> + FIELD_ENUM(CDMA_D_MISC_CFG_0, IN_PRECISION, FP16),
> +};
> +
> +static const uint8_t map_conv[] = {
> + FIELD_ENUM(CACC_D_MISC_CFG_0, CONV_MODE, DIRECT),
> + FIELD_ENUM(CACC_D_MISC_CFG_0, CONV_MODE, WINOGRAD),
> +};
> +
> +static const uint8_t map_weight_fmt[] = {
> + FIELD_ENUM(CSC_D_WEIGHT_FORMAT_0, WEIGHT_FORMAT, UNCOMPRESSED),
> + FIELD_ENUM(CSC_D_WEIGHT_FORMAT_0, WEIGHT_FORMAT, COMPRESSED),
> +};
> +
> +static const uint8_t map_img_fmt[][2] = {
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R8), 1},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R10), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R12), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R16), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R16_I), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R16_F), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A16B16G16R16), 8},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_X16B16G16R16), 8},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A16B16G16R16_F), 8},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A16Y16U16V16), 8},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_V16U16Y16A16), 8},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A16Y16U16V16_F), 8},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A8B8G8R8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A8R8G8B8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_B8G8R8A8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R8G8B8A8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_X8B8G8R8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_X8R8G8B8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_B8G8R8X8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R8G8B8X8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A2B10G10R10), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A2R10G10B10), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_B10G10R10A2), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_R10G10B10A2), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A2Y10U10V10), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_V10U10Y10A2), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_A8Y8U8V8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_V8U8Y8A8), 4},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y8___U8V8_N444), 1},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y8___V8U8_N444), 1},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y10___U10V10_N444), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y10___V10U10_N444), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y12___U12V12_N444), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y12___V12U12_N444), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y16___U16V16_N444), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + PIXEL_FORMAT, T_Y16___V16U16_N444), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + DATAIN_FORMAT, FEATURE), 2},
> + {FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + DATAIN_FORMAT, PIXEL), 1},
> +};
> +
> +static const uint8_t map_pixel[] = {
> + FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0, PIXEL_MAPPING, PITCH_LINEAR),
> +};
> +
> +static const uint8_t map_ram[] = {
> + FIELD_ENUM(CDMA_D_DAIN_RAM_TYPE_0, DATAIN_RAM_TYPE, MCIF),
> + FIELD_ENUM(CDMA_D_DAIN_RAM_TYPE_0, DATAIN_RAM_TYPE, CVIF),
> +};
> +
> +static const uint8_t map_mean[] = {
> + FIELD_ENUM(CDMA_D_MEAN_FORMAT_0, MEAN_FORMAT, DISABLE),
> + FIELD_ENUM(CDMA_D_MEAN_FORMAT_0, MEAN_FORMAT, ENABLE),
> +};
> +
> +static uint32_t
> +get_in_format(uint8_t format)
> +{
> + uint32_t in_format = 0;
> +
> + if (format >= FORMAT_T_R8 && format < FORMAT_FEATURE) {
> + in_format = FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + DATAIN_FORMAT, PIXEL);
> + } else if (format == FORMAT_FEATURE) {
> + in_format = FIELD_ENUM(CDMA_D_DATAIN_FORMAT_0,
> + DATAIN_FORMAT, FEATURE);
> + }
> +
> + return in_format;
> +}
> +
> +void
> +dla_conv_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id)
> +{
> + uint32_t reg;
> +
> + /* set producer pointer for all sub-modules */
> + reg = group_id << SHIFT(CACC_S_POINTER_0, PRODUCER);
> + cacc_reg_write(engine, S_POINTER, reg);
> + cmac_a_reg_write(engine, S_POINTER, reg);
> + cmac_b_reg_write(engine, S_POINTER, reg);
> + csc_reg_write(engine, S_POINTER, reg);
> + cdma_reg_write(engine, S_POINTER, reg);
> +}
> +
> +int
> +dla_conv_enable(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + uint32_t reg;
> +
> + do {
> + reg = cdma_reg_read(engine, S_CBUF_FLUSH_STATUS);
> + } while (!(reg & MASK(CDMA_S_CBUF_FLUSH_STATUS_0, FLUSH_DONE)));
> +
> + /* enable all sub-modules */
> + reg = FIELD_ENUM(CACC_D_OP_ENABLE_0, OP_EN, ENABLE);
> + cacc_reg_write(engine, D_OP_ENABLE, reg);
> + cmac_a_reg_write(engine, D_OP_ENABLE, reg);
> + cmac_b_reg_write(engine, D_OP_ENABLE, reg);
> + csc_reg_write(engine, D_OP_ENABLE, reg);
> + cdma_reg_write(engine, D_OP_ENABLE, reg);
> +
> + return 0;
> +}
> +
> +void
> +dla_conv_rdma_check(struct dla_processor_group *group)
> +{
> + group->is_rdma_needed = 0;
> +}
> +
> +static int32_t
> +processor_conv_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + uint32_t reg, high, low, shift, mask;
> + uint32_t stride_x, stride_y, pad_x, pad_y;
> + uint64_t weight_address = 0;
> + uint64_t wmb_address = 0;
> + uint64_t wgs_address = 0;
> + uint64_t input_address = 0;
> + uint64_t output_address = 0;
> + uint32_t atom_size = 0;
> + bool weight_compress_support = false;
> + struct dla_conv_op_desc *conv_op;
> + struct dla_conv_surface_desc *conv_surface;
> +
> + weight_compress_support = engine->config_data->weight_compress_support;
> + atom_size = engine->config_data->atom_size;
> + conv_op = &group->operation_desc->conv_op;
> + conv_surface = &group->surface_desc->conv_surface;
> +
> + if (conv_op->weight_format == WEIGHT_FORMAT_COMPRESSED) {
> + ASSERT_GOTO((weight_compress_support), ret, -EINVAL, exit);
> + ASSERT_GOTO((conv_surface->wmb_data.address != -1),
> + ret, -EINVAL, exit);
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + conv_surface->wmb_data.address,
> + conv_surface->wmb_data.offset,
> + (void *)&wmb_address,
> + DESTINATION_DMA);
> +
> + ASSERT_GOTO((conv_surface->wgs_data.address != -1),
> + ret, -EINVAL, exit);
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + conv_surface->wgs_data.address,
> + conv_surface->wgs_data.offset,
> + (void *)&wgs_address,
> + DESTINATION_DMA);
> + }
> +
> + if (conv_surface->weight_data.address != -1) {
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + conv_surface->weight_data.address,
> + conv_surface->weight_data.offset,
> + (void *)&weight_address,
> + DESTINATION_DMA);
> + }
> +
> + if (conv_surface->dst_data.address != -1) {
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + conv_surface->dst_data.address,
> + conv_surface->dst_data.offset,
> + (void *)&output_address,
> + DESTINATION_DMA);
> + }
> +
> + ret = dla_read_input_address(engine, &conv_surface->src_data, &input_address,
> + group->op_desc->index,
> + group->roi_index,
> + map_img_fmt[conv_op->data_format][1]);
> + if (ret)
> + goto exit;
> +
> + ASSERT_GOTO((conv_op->out_cvt.scale == 1), ret, -EINVAL, exit);
> + ASSERT_GOTO((conv_op->out_cvt.offset == 0), ret, -EINVAL, exit);
> +
> + /* check if the register group is idle */
> + reg = cacc_reg_read(engine, S_STATUS);
> + mask = group->id ? MASK(CACC_S_STATUS_0, STATUS_1) :
> + MASK(CACC_S_STATUS_0, STATUS_0);
> + shift = group->id ? SHIFT(CACC_S_STATUS_0, STATUS_1) :
> + SHIFT(CACC_S_STATUS_0, STATUS_0);
> + reg = (reg & mask) >> shift;
> + ASSERT_GOTO((reg == FIELD_ENUM(CACC_S_STATUS_0, STATUS_0, IDLE)),
> + ret, -EINVAL, exit);
> +
> + reg = cmac_a_reg_read(engine, S_STATUS);
> + mask = group->id ? MASK(CMAC_A_S_STATUS_0, STATUS_1) :
> + MASK(CMAC_A_S_STATUS_0, STATUS_0);
> + shift = group->id ? SHIFT(CMAC_A_S_STATUS_0, STATUS_1) :
> + SHIFT(CMAC_A_S_STATUS_0, STATUS_0);
> + reg = (reg & mask) >> shift;
> + ASSERT_GOTO((reg == FIELD_ENUM(CMAC_A_S_STATUS_0, STATUS_0, IDLE)),
> + ret, -EINVAL, exit);
> +
> + reg = cmac_b_reg_read(engine, S_STATUS);
> + mask = group->id ? MASK(CMAC_B_S_STATUS_0, STATUS_1) :
> + MASK(CMAC_B_S_STATUS_0, STATUS_0);
> + shift = group->id ? SHIFT(CMAC_B_S_STATUS_0, STATUS_1) :
> + SHIFT(CMAC_B_S_STATUS_0, STATUS_0);
> + reg = (reg & mask) >> shift;
> + ASSERT_GOTO((reg == FIELD_ENUM(CMAC_B_S_STATUS_0, STATUS_0, IDLE)),
> + ret, -EINVAL, exit);
> +
> + reg = csc_reg_read(engine, S_STATUS);
> + mask = group->id ? MASK(CSC_S_STATUS_0, STATUS_1) :
> + MASK(CSC_S_STATUS_0, STATUS_0);
> + shift = group->id ? SHIFT(CSC_S_STATUS_0, STATUS_1) :
> + SHIFT(CSC_S_STATUS_0, STATUS_0);
> + reg = (reg & mask) >> shift;
> + ASSERT_GOTO((reg == FIELD_ENUM(CSC_S_STATUS_0, STATUS_0, IDLE)),
> + ret, -EINVAL, exit);
> +
> + reg = cdma_reg_read(engine, S_STATUS);
> + mask = group->id ? MASK(CDMA_S_STATUS_0, STATUS_1) :
> + MASK(CDMA_S_STATUS_0, STATUS_0);
> + shift = group->id ? SHIFT(CDMA_S_STATUS_0, STATUS_1) :
> + SHIFT(CDMA_S_STATUS_0, STATUS_0);
> + reg = (reg & mask) >> shift;
> + ASSERT_GOTO((reg == FIELD_ENUM(CDMA_S_STATUS_0, STATUS_0, IDLE)),
> + ret, -EINVAL, exit);
> +
> + /* reverse config each sub-module in CC */
> +
> + /* CACC */
> + reg = (map_conv[conv_op->conv_mode]
> + << SHIFT(CACC_D_MISC_CFG_0, CONV_MODE)) |
> + (map_precision[conv_op->out_precision]
> + << SHIFT(CACC_D_MISC_CFG_0, PROC_PRECISION));
> + cacc_reg_write(engine, D_MISC_CFG, reg);
> +
> + reg = ((conv_surface->dst_data.width - 1)
> + << SHIFT(CACC_D_DATAOUT_SIZE_0_0, DATAOUT_WIDTH)) |
> + ((conv_surface->dst_data.height - 1)
> + << SHIFT(CACC_D_DATAOUT_SIZE_0_0, DATAOUT_HEIGHT));
> + cacc_reg_write(engine, D_DATAOUT_SIZE_0, reg);
> +
> + reg = ((conv_surface->dst_data.channel - 1)
> + << SHIFT(CACC_D_DATAOUT_SIZE_1_0, DATAOUT_CHANNEL));
> + cacc_reg_write(engine, D_DATAOUT_SIZE_1, reg);
> +
> + low = lower_32_bits(output_address);
> + cacc_reg_write(engine, D_DATAOUT_ADDR, low);
> + cacc_reg_write(engine, D_BATCH_NUMBER, conv_op->batch - 1);
> + cacc_reg_write(engine, D_LINE_STRIDE, conv_surface->dst_data.line_stride);
> + cacc_reg_write(engine, D_SURF_STRIDE, conv_surface->dst_data.surf_stride);
> +
> + if (conv_surface->dst_data.width == 1 &&
> + conv_surface->dst_data.height == 1) {
> + ASSERT_GOTO((((uint32_t)conv_surface->dst_data.line_stride ==
> + (uint32_t)(conv_surface->dst_data.width * atom_size))),
> + ret, -EINVAL, exit);
> + reg = (CACC_D_DATAOUT_MAP_0_LINE_PACKED_TRUE <<
> + SHIFT(CACC_D_DATAOUT_MAP_0, LINE_PACKED));
> + reg |= (CACC_D_DATAOUT_MAP_0_SURF_PACKED_TRUE <<
> + SHIFT(CACC_D_DATAOUT_MAP_0, SURF_PACKED));
> + } else {
> + reg = (FIELD_ENUM(CACC_D_DATAOUT_MAP_0, LINE_PACKED, FALSE) <<
> + SHIFT(CACC_D_DATAOUT_MAP_0, LINE_PACKED));
> + reg |= (FIELD_ENUM(CACC_D_DATAOUT_MAP_0, SURF_PACKED, FALSE) <<
> + SHIFT(CACC_D_DATAOUT_MAP_0, SURF_PACKED));
> + }
> + cacc_reg_write(engine, D_DATAOUT_MAP, reg);
> +
> + cacc_reg_write(engine, D_CLIP_CFG, conv_op->out_cvt.truncate);
> +
> + /* CMAC */
> + reg = (map_conv[conv_op->conv_mode]
> + << SHIFT(CMAC_A_D_MISC_CFG_0, CONV_MODE)) |
> + (map_precision[conv_op->out_precision]
> + << SHIFT(CMAC_A_D_MISC_CFG_0, PROC_PRECISION));
> + cmac_a_reg_write(engine, D_MISC_CFG, reg);
> + cmac_b_reg_write(engine, D_MISC_CFG, reg);
> +
> + /* CSC */
> + reg = (map_conv[conv_op->conv_mode]
> + << SHIFT(CSC_D_MISC_CFG_0, CONV_MODE)) |
> + (map_precision[conv_op->out_precision]
> + << SHIFT(CSC_D_MISC_CFG_0, IN_PRECISION)) |
> + (map_precision[conv_op->out_precision]
> + << SHIFT(CSC_D_MISC_CFG_0, PROC_PRECISION)) |
> + (conv_op->data_reuse
> + << SHIFT(CSC_D_MISC_CFG_0, DATA_REUSE)) |
> + (conv_op->weight_reuse
> + << SHIFT(CSC_D_MISC_CFG_0, WEIGHT_REUSE)) |
> + (conv_op->skip_data_rls
> + << SHIFT(CSC_D_MISC_CFG_0, SKIP_DATA_RLS)) |
> + (conv_op->skip_weight_rls
> + << SHIFT(CSC_D_MISC_CFG_0, SKIP_WEIGHT_RLS));
> + csc_reg_write(engine, D_MISC_CFG, reg);
> +
> + reg = (get_in_format(conv_op->data_format) <<
> + SHIFT(CSC_D_DATAIN_FORMAT_0, DATAIN_FORMAT));
> + csc_reg_write(engine, D_DATAIN_FORMAT, reg);
> +
> + reg = ((conv_op->input_width_csc - 1)
> + << SHIFT(CSC_D_DATAIN_SIZE_EXT_0_0, DATAIN_WIDTH_EXT)) |
> + ((conv_op->input_height_csc - 1)
> + << SHIFT(CSC_D_DATAIN_SIZE_EXT_0_0, DATAIN_HEIGHT_EXT));
> + csc_reg_write(engine, D_DATAIN_SIZE_EXT_0, reg);
> +
> + reg = ((conv_op->input_channel_csc - 1)
> + << SHIFT(CSC_D_DATAIN_SIZE_EXT_1_0, DATAIN_CHANNEL_EXT));
> + csc_reg_write(engine, D_DATAIN_SIZE_EXT_1, reg);
> +
> + reg = ((conv_op->batch - 1)
> + << SHIFT(CSC_D_BATCH_NUMBER_0, BATCHES));
> + csc_reg_write(engine, D_BATCH_NUMBER, reg);
> + reg = ((conv_op->post_extension)
> + << SHIFT(CSC_D_POST_Y_EXTENSION_0, Y_EXTENSION));
> + csc_reg_write(engine, D_POST_Y_EXTENSION, reg);
> +
> + reg = ((conv_op->entry_per_slice - 1)
> + << SHIFT(CSC_D_ENTRY_PER_SLICE_0, ENTRIES));
> + csc_reg_write(engine, D_ENTRY_PER_SLICE, reg);
> +
> + reg = (map_weight_fmt[conv_op->weight_format]
> + << SHIFT(CSC_D_WEIGHT_FORMAT_0, WEIGHT_FORMAT));
> + csc_reg_write(engine, D_WEIGHT_FORMAT, reg);
> +
> + reg = ((conv_op->kernel_width_csc - 1)
> + << SHIFT(CSC_D_WEIGHT_SIZE_EXT_0_0, WEIGHT_WIDTH_EXT)) |
> + ((conv_op->kernel_height_csc - 1)
> + << SHIFT(CSC_D_WEIGHT_SIZE_EXT_0_0, WEIGHT_HEIGHT_EXT));
> + csc_reg_write(engine, D_WEIGHT_SIZE_EXT_0, reg);
> +
> + reg = ((conv_op->kernel_channel_csc - 1)
> + << SHIFT(CSC_D_WEIGHT_SIZE_EXT_1_0, WEIGHT_CHANNEL_EXT)) |
> + ((conv_surface->dst_data.channel - 1)
> + << SHIFT(CSC_D_WEIGHT_SIZE_EXT_1_0, WEIGHT_KERNEL));
> + csc_reg_write(engine, D_WEIGHT_SIZE_EXT_1, reg);
> +
> + csc_reg_write(engine, D_WEIGHT_BYTES, conv_surface->weight_data.size);
> + csc_reg_write(engine, D_WMB_BYTES, conv_surface->wmb_data.size);
> +
> + reg = ((conv_op->input_width_cmac - 1)
> + << SHIFT(CSC_D_DATAOUT_SIZE_0_0, DATAOUT_WIDTH)) |
> + ((conv_op->input_height_cmac - 1)
> + << SHIFT(CSC_D_DATAOUT_SIZE_0_0, DATAOUT_HEIGHT));
> + csc_reg_write(engine, D_DATAOUT_SIZE_0, reg);
> +
> + reg = ((conv_surface->dst_data.channel - 1)
> + << SHIFT(CSC_D_DATAOUT_SIZE_1_0, DATAOUT_CHANNEL));
> + csc_reg_write(engine, D_DATAOUT_SIZE_1, reg);
> +
> + reg = ((conv_surface->dst_data.width *
> + conv_surface->dst_data.height - 1)
> + << SHIFT(CSC_D_ATOMICS_0, ATOMICS));
> + csc_reg_write(engine, D_ATOMICS, reg);
> + reg = ((conv_op->release - 1)
> + << SHIFT(CSC_D_RELEASE_0, RLS_SLICES));
> + csc_reg_write(engine, D_RELEASE, reg);
> +
> + if (conv_op->conv_mode == CONV_MODE_DIRECT) {
> + stride_x = conv_op->conv_stride_x - 1;
> + stride_y = conv_op->conv_stride_y - 1;
> + pad_x = conv_op->pad_x_left;
> + pad_y = conv_op->pad_y_top;
> + } else {
> + stride_x = 0;
> + stride_y = 0;
> + pad_x = 0;
> + pad_y = 0;
> + }
> +
> + reg = (stride_x
> + << SHIFT(CSC_D_CONV_STRIDE_EXT_0, CONV_X_STRIDE_EXT)) |
> + (stride_y
> + << SHIFT(CSC_D_CONV_STRIDE_EXT_0, CONV_Y_STRIDE_EXT));
> + csc_reg_write(engine, D_CONV_STRIDE_EXT, reg);
> +
> + reg = ((conv_op->dilation_x - 1)
> + << SHIFT(CSC_D_DILATION_EXT_0, X_DILATION_EXT)) |
> + ((conv_op->dilation_y - 1)
> + << SHIFT(CSC_D_DILATION_EXT_0, Y_DILATION_EXT));
> + csc_reg_write(engine, D_DILATION_EXT, reg);
> +
> + reg = (pad_x
> + << SHIFT(CSC_D_ZERO_PADDING_0, PAD_LEFT)) |
> + (pad_y
> + << SHIFT(CSC_D_ZERO_PADDING_0, PAD_TOP));
> + csc_reg_write(engine, D_ZERO_PADDING, reg);
> +
> + reg = (conv_op->pad_val
> + << SHIFT(CSC_D_ZERO_PADDING_VALUE_0, PAD_VALUE)) &
> + MASK(CSC_D_ZERO_PADDING_VALUE_0, PAD_VALUE);
> + csc_reg_write(engine, D_ZERO_PADDING_VALUE, reg);
> +
> + reg = ((conv_op->data_bank - 1)
> + << SHIFT(CSC_D_BANK_0, DATA_BANK)) |
> + ((conv_op->weight_bank - 1)
> + << SHIFT(CSC_D_BANK_0, WEIGHT_BANK));
> + csc_reg_write(engine, D_BANK, reg);
> + csc_reg_write(engine, D_PRA_CFG, conv_op->pra_truncate);
> +
> + /* CBUF */
> + /* there's no CBUF register */
> +
> + /* CDMA */
> + reg = (map_conv[conv_op->conv_mode]
> + << SHIFT(CDMA_D_MISC_CFG_0, CONV_MODE)) |
> + (map_precision[conv_op->in_precision]
> + << SHIFT(CDMA_D_MISC_CFG_0, IN_PRECISION)) |
> + (map_precision[conv_op->out_precision]
> + << SHIFT(CDMA_D_MISC_CFG_0, PROC_PRECISION)) |
> + (conv_op->data_reuse
> + << SHIFT(CDMA_D_MISC_CFG_0, DATA_REUSE)) |
> + (conv_op->weight_reuse
> + << SHIFT(CDMA_D_MISC_CFG_0, WEIGHT_REUSE)) |
> + (conv_op->skip_data_rls
> + << SHIFT(CDMA_D_MISC_CFG_0, SKIP_DATA_RLS)) |
> + (conv_op->skip_weight_rls
> + << SHIFT(CDMA_D_MISC_CFG_0, SKIP_WEIGHT_RLS));
> + cdma_reg_write(engine, D_MISC_CFG, reg);
> +
> + reg = (get_in_format(conv_op->data_format) <<
> + SHIFT(CDMA_D_DATAIN_FORMAT_0, DATAIN_FORMAT)) |
> + (map_img_fmt[conv_op->data_format][0]
> + << SHIFT(CDMA_D_DATAIN_FORMAT_0, PIXEL_FORMAT)) |
> + (map_pixel[conv_op->pixel_mapping]
> + << SHIFT(CDMA_D_DATAIN_FORMAT_0, PIXEL_MAPPING)) |
> + (conv_op->pixel_override
> + << SHIFT(CDMA_D_DATAIN_FORMAT_0, PIXEL_SIGN_OVERRIDE));
> + cdma_reg_write(engine, D_DATAIN_FORMAT, reg);
> +
> + reg = ((conv_surface->src_data.width - 1)
> + << SHIFT(CDMA_D_DATAIN_SIZE_0_0, DATAIN_WIDTH)) |
> + ((conv_surface->src_data.height - 1)
> + << SHIFT(CDMA_D_DATAIN_SIZE_0_0, DATAIN_HEIGHT));
> + cdma_reg_write(engine, D_DATAIN_SIZE_0, reg);
> +
> + reg = ((conv_surface->src_data.channel - 1)
> + << SHIFT(CDMA_D_DATAIN_SIZE_1_0, DATAIN_CHANNEL));
> + cdma_reg_write(engine, D_DATAIN_SIZE_1, reg);
> +
> + reg = ((conv_op->input_width_csc - 1)
> + << SHIFT(CDMA_D_DATAIN_SIZE_EXT_0_0, DATAIN_WIDTH_EXT)) |
> + ((conv_op->input_height_csc - 1)
> + << SHIFT(CDMA_D_DATAIN_SIZE_EXT_0_0, DATAIN_HEIGHT_EXT));
> + cdma_reg_write(engine, D_DATAIN_SIZE_EXT_0, reg);
> +
> + reg = (map_ram[conv_surface->src_data.type]
> + << SHIFT(CDMA_D_DAIN_RAM_TYPE_0, DATAIN_RAM_TYPE));
> + cdma_reg_write(engine, D_DAIN_RAM_TYPE, reg);
> +
> + high = upper_32_bits(input_address);
> + low = lower_32_bits(input_address);
> + cdma_reg_write(engine, D_DAIN_ADDR_HIGH_0, high);
> + cdma_reg_write(engine, D_DAIN_ADDR_LOW_0, low);
> +
> + high = upper_32_bits((input_address + conv_surface->offset_u));
> + low = lower_32_bits(input_address + conv_surface->offset_u);
> + cdma_reg_write(engine, D_DAIN_ADDR_HIGH_1, high);
> + cdma_reg_write(engine, D_DAIN_ADDR_LOW_1, low);
> +
> + cdma_reg_write(engine, D_LINE_STRIDE, conv_surface->src_data.line_stride);
> + cdma_reg_write(engine, D_SURF_STRIDE, conv_surface->src_data.surf_stride);
> + cdma_reg_write(engine, D_LINE_UV_STRIDE, conv_surface->in_line_uv_stride);
> +
> + reg = ((conv_surface->src_data.line_stride ==
> + ((uint32_t)conv_surface->src_data.width * atom_size))
> + << SHIFT(CDMA_D_DAIN_MAP_0, LINE_PACKED));
> + reg |= ((conv_surface->src_data.surf_stride ==
> + ((uint32_t)(conv_surface->src_data.width *
> + conv_surface->src_data.height) * atom_size))
> + << SHIFT(CDMA_D_DAIN_MAP_0, SURF_PACKED));
> + cdma_reg_write(engine, D_DAIN_MAP, reg);
> +
> + reg = ((conv_op->batch - 1)
> + << SHIFT(CDMA_D_BATCH_NUMBER_0, BATCHES));
> + cdma_reg_write(engine, D_BATCH_NUMBER, reg);
> +
> + cdma_reg_write(engine, D_BATCH_STRIDE, conv_op->batch_stride);
> +
> + reg = ((conv_op->entry_per_slice - 1)
> + << SHIFT(CDMA_D_ENTRY_PER_SLICE_0, ENTRIES));
> + cdma_reg_write(engine, D_ENTRY_PER_SLICE, reg);
> +
> + reg = ((conv_op->fetch_grain - 1)
> + << SHIFT(CDMA_D_FETCH_GRAIN_0, GRAINS));
> + cdma_reg_write(engine, D_FETCH_GRAIN, reg);
> +
> + reg = (map_weight_fmt[conv_op->weight_format]
> + << SHIFT(CDMA_D_WEIGHT_FORMAT_0, WEIGHT_FORMAT));
> + cdma_reg_write(engine, D_WEIGHT_FORMAT, reg);
> +
> + reg = ((conv_op->bytes_per_kernel - 1)
> + << SHIFT(CDMA_D_WEIGHT_SIZE_0_0, BYTE_PER_KERNEL));
> + cdma_reg_write(engine, D_WEIGHT_SIZE_0, reg);
> +
> + reg = ((conv_surface->dst_data.channel - 1)
> + << SHIFT(CDMA_D_WEIGHT_SIZE_1_0, WEIGHT_KERNEL));
> + cdma_reg_write(engine, D_WEIGHT_SIZE_1, reg);
> +
> + reg = (map_ram[conv_surface->weight_data.type]
> + << SHIFT(CDMA_D_WEIGHT_RAM_TYPE_0, WEIGHT_RAM_TYPE));
> + cdma_reg_write(engine, D_WEIGHT_RAM_TYPE, reg);
> +
> + high = upper_32_bits(weight_address);
> + low = lower_32_bits(weight_address);
> + cdma_reg_write(engine, D_WEIGHT_ADDR_HIGH, high);
> + cdma_reg_write(engine, D_WEIGHT_ADDR_LOW, low);
> + cdma_reg_write(engine, D_WEIGHT_BYTES, conv_surface->weight_data.size);
> +
> + if (conv_op->weight_format == WEIGHT_FORMAT_COMPRESSED) {
> + high = upper_32_bits(wgs_address);
> + low = lower_32_bits(wgs_address);
> + cdma_reg_write(engine, D_WGS_ADDR_HIGH, high);
> + cdma_reg_write(engine, D_WGS_ADDR_LOW, low);
> +
> + high = upper_32_bits(wmb_address);
> + low = lower_32_bits(wmb_address);
> + cdma_reg_write(engine, D_WMB_ADDR_HIGH, high);
> + cdma_reg_write(engine, D_WMB_ADDR_LOW, low);
> + cdma_reg_write(engine, D_WMB_BYTES, conv_surface->wmb_data.size);
> + }
> +
> + reg = (map_mean[conv_op->mean_format]
> + << SHIFT(CDMA_D_MEAN_FORMAT_0, MEAN_FORMAT));
> + cdma_reg_write(engine, D_MEAN_FORMAT, reg);
> +
> + if (conv_op->mean_format == MEAN_FORMAT_ENABLE) {
> + reg = ((conv_op->mean_ry
> + << SHIFT(CDMA_D_MEAN_GLOBAL_0_0, MEAN_RY)) &
> + MASK(CDMA_D_MEAN_GLOBAL_0_0, MEAN_RY)) |
> + ((conv_op->mean_gu
> + << SHIFT(CDMA_D_MEAN_GLOBAL_0_0, MEAN_GU)) &
> + MASK(CDMA_D_MEAN_GLOBAL_0_0, MEAN_GU));
> + cdma_reg_write(engine, D_MEAN_GLOBAL_0, reg);
> +
> + reg = ((conv_op->mean_bv
> + << SHIFT(CDMA_D_MEAN_GLOBAL_1_0, MEAN_BV))&
> + MASK(CDMA_D_MEAN_GLOBAL_1_0, MEAN_BV)) |
> + ((conv_op->mean_ax
> + << SHIFT(CDMA_D_MEAN_GLOBAL_1_0, MEAN_AX))&
> + MASK(CDMA_D_MEAN_GLOBAL_1_0, MEAN_AX));
> + cdma_reg_write(engine, D_MEAN_GLOBAL_1, reg);
> + }
> +
> + if (conv_op->in_cvt.enable) {
> + reg = ((FIELD_ENUM(CDMA_D_CVT_CFG_0, CVT_EN, ENABLE))
> + << SHIFT(CDMA_D_CVT_CFG_0, CVT_EN)) |
> + (conv_op->in_cvt.truncate
> + << SHIFT(CDMA_D_CVT_CFG_0, CVT_TRUNCATE));
> + cdma_reg_write(engine, D_CVT_CFG, reg);
> + cdma_reg_write(engine, D_CVT_OFFSET, conv_op->in_cvt.offset);
> + cdma_reg_write(engine, D_CVT_SCALE, conv_op->in_cvt.scale);
> + } else {
> + reg = ((FIELD_ENUM(CDMA_D_CVT_CFG_0, CVT_EN, DISABLE))
> + << SHIFT(CDMA_D_CVT_CFG_0, CVT_EN));
> + cdma_reg_write(engine, D_CVT_CFG, reg);
> + }
> +
> + reg = ((conv_op->conv_stride_x - 1)
> + << SHIFT(CDMA_D_CONV_STRIDE_0, CONV_X_STRIDE)) |
> + ((conv_op->conv_stride_y - 1)
> + << SHIFT(CDMA_D_CONV_STRIDE_0, CONV_Y_STRIDE));
> + cdma_reg_write(engine, D_CONV_STRIDE, reg);
> +
> + reg = (conv_op->pad_x_left <<
> + SHIFT(CDMA_D_ZERO_PADDING_0, PAD_LEFT)) |
> + (conv_op->pad_x_right
> + << SHIFT(CDMA_D_ZERO_PADDING_0, PAD_RIGHT)) |
> + (conv_op->pad_y_top
> + << SHIFT(CDMA_D_ZERO_PADDING_0, PAD_TOP)) |
> + (conv_op->pad_y_bottom
> + << SHIFT(CDMA_D_ZERO_PADDING_0, PAD_BOTTOM));
> + cdma_reg_write(engine, D_ZERO_PADDING, reg);
> +
> + reg = conv_op->pad_val <<
> + SHIFT(CDMA_D_ZERO_PADDING_VALUE_0, PAD_VALUE) &
> + MASK(CDMA_D_ZERO_PADDING_VALUE_0, PAD_VALUE);
> + cdma_reg_write(engine, D_ZERO_PADDING_VALUE, reg);
> + reg = ((conv_op->weight_bank - 1)
> + << SHIFT(CDMA_D_BANK_0, WEIGHT_BANK)) |
> + ((conv_op->data_bank - 1)
> + << SHIFT(CDMA_D_BANK_0, DATA_BANK));
> + cdma_reg_write(engine, D_BANK, reg);
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_conv_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + return 1;
> +}
> +
> +void
> +dla_conv_dump_config(struct dla_processor_group *group)
> +{
> + struct dla_conv_op_desc *conv_op;
> + struct dla_conv_surface_desc *conv_surface;
> +
> + conv_surface = &group->surface_desc->conv_surface;
> + conv_op = &group->operation_desc->conv_op;
> +}
> +
> +int
> +dla_conv_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret;
> +
> + ret = processor_conv_program(engine, group);
> + if (ret)
> + goto exit;
> +
> +exit:
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_drm.c b/drivers/gpu/drm/nvdla/nvdla_drm.c
> new file mode 100644
> index 000000000000..9217eee1de3b
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_drm.c
> @@ -0,0 +1,695 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include <linux/dma-buf.h>
> +#include <linux/dma-mapping.h>
> +#include <linux/fs.h>
> +#include <linux/interrupt.h>
> +#include <linux/irq.h>
> +#include <linux/irqdomain.h>
> +#include <linux/module.h>
> +#include <linux/of.h>
> +#include <linux/of_device.h>
> +#include <linux/of_irq.h>
> +#include <linux/of_platform.h>
> +#include <linux/platform_device.h>
> +#include <linux/printk.h>
> +#include <linux/slab.h>
> +#include <linux/spinlock.h>
> +#include <linux/time.h>
> +#include <linux/uaccess.h>
> +#include <linux/types.h>
> +
> +#include "nvdla_drm.h"
> +#include "nvdla_ioctl.h"
> +#include "nvdla_engine.h"
> +
> +static struct nvdla_config nvdla_config_os_initial = {
> + .atom_size = 32,
> + .bdma_enable = true,
> + .rubik_enable = true,
> + .weight_compress_support = true,
> +};
> +
> +static struct nvdla_config nvdla_config_small = {
> + //.atom_size = 8,
> + .atom_size = 32, // nv_large config
> + .bdma_enable = false,
> + .rubik_enable = false,
> + .weight_compress_support = false,
> +};
> +
> +int64_t dla_get_time_us(void)
> +{
> + return ktime_get_ns() / NSEC_PER_USEC;
> +}
> +
> +void dla_reg_write(void *driver_context, uint32_t addr, uint32_t reg)
> +{
> + struct nvdla_device *nvdla_dev =
> + (struct nvdla_device *)driver_context;
> +
> + if (!nvdla_dev)
> + return;
> +
> + writel(reg, nvdla_dev->base + addr);
> +}
> +
> +uint32_t dla_reg_read(void *driver_context, uint32_t addr)
> +{
> + struct nvdla_device *nvdla_dev =
> + (struct nvdla_device *)driver_context;
> +
> + if (!nvdla_dev)
> + return 0;
> +
> + return readl(nvdla_dev->base + addr);
> +}
> +
> +static irqreturn_t nvdla_engine_isr(int32_t irq, void *data)
> +{
> + unsigned long flags;
> + uint32_t mask;
> + uint32_t reg;
> + struct dla_processor *processor = NULL;
> + struct dla_processor_group *group;
> + struct dla_engine *engine;
> + struct nvdla_device *nvdla_dev = (struct nvdla_device *)data;
> +
> + if (!nvdla_dev)
> + return IRQ_NONE;
> +
> + engine = nvdla_dev->engine_context;
> + spin_lock_irqsave(&nvdla_dev->nvdla_lock, flags);
> +
> + mask = glb_reg_read(engine, S_INTR_MASK);
> + reg = glb_reg_read(engine, S_INTR_STATUS);
> +
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CACC_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_CONV];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CACC_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_CONV];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, SDP_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_SDP];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, SDP_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_SDP];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CDP_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_CDP];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CDP_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_CDP];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, RUBIK_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_RUBIK];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, RUBIK_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_RUBIK];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, PDP_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_PDP];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, PDP_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_PDP];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, BDMA_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_BDMA];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, BDMA_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_BDMA];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_OP_COMPLETED);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CDMA_DAT_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_CONV];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_CDMA_DT_DONE);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CDMA_DAT_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_CONV];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_CDMA_DT_DONE);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CDMA_WT_DONE_STATUS0)) {
> + processor = &engine->processors[DLA_OP_CONV];
> + group = &processor->groups[0];
> + group->events |= (1 << DLA_EVENT_CDMA_WT_DONE);
> + }
> + if (reg & MASK(GLB_S_INTR_STATUS_0, CDMA_WT_DONE_STATUS1)) {
> + processor = &engine->processors[DLA_OP_CONV];
> + group = &processor->groups[1];
> + group->events |= (1 << DLA_EVENT_CDMA_WT_DONE);
> + }
> +
> + glb_reg_write(engine, S_INTR_STATUS, reg);
> + mask = glb_reg_read(engine, S_INTR_MASK);
> + reg = glb_reg_read(engine, S_INTR_STATUS);
> +
> + complete(&nvdla_dev->event_notifier);
> + spin_unlock_irqrestore(&nvdla_dev->nvdla_lock, flags);
> +
> + return IRQ_HANDLED;
> +}
> +
> +static int32_t dla_read_dma_address(void *driver_context, void *task_data,
> + int16_t index, void *dst)
> +{
> + int32_t ret = 0;
> + struct nvdla_mem_handle *handles;
> + dma_addr_t *phys_addr = (dma_addr_t *)(dst);
> + struct nvdla_device *nvdla_dev =
> + (struct nvdla_device *)driver_context;
> + struct nvdla_task *task = (struct nvdla_task *)task_data;
> +
> + if (index == -1 || index > task->num_addresses)
> + return -EINVAL;
> +
> + handles = (struct nvdla_mem_handle *)task->address_list;
> + ret = nvdla_gem_dma_addr(nvdla_dev->drm, task->file,
> + handles[index].handle,
> + phys_addr);
> +
> + /* Add offset to IOVA address */
> + *phys_addr = *phys_addr + handles[index].offset;
> +
> + return ret;
> +}
> +
> +static int32_t dla_read_cpu_address(void *driver_context, void *task_data,
> + int16_t index, void *dst)
> +{
> + uint64_t *temp = (uint64_t *)dst;
> + struct nvdla_task *task = (struct nvdla_task *)task_data;
> +
> + if (index == -1 || index > task->num_addresses)
> + return -EINVAL;
> +
> + *temp = (uint64_t)index;
> + return 0;
> +}
> +
> +int32_t dla_get_dma_address(void *driver_context, void *task_data,
> + int16_t index, void *dst_ptr,
> + uint32_t destination)
> +{
> + int32_t ret = 0;
> +
> + if (destination == DESTINATION_PROCESSOR) {
> + ret = dla_read_cpu_address(driver_context, task_data,
> + index, dst_ptr);
> + } else if (destination == DESTINATION_DMA) {
> + ret = dla_read_dma_address(driver_context, task_data,
> + index, dst_ptr);
> + } else {
> + ret = -EINVAL;
> + }
> +
> + return ret;
> +}
> +
> +int32_t dla_data_write(void *driver_context, void *task_data,
> + void *src, uint64_t dst,
> + uint32_t size, uint64_t offset)
> +{
> + int32_t ret;
> + void *ptr = NULL;
> + struct dma_buf *buf;
> + struct iosys_map map;
> + struct nvdla_mem_handle *handles;
> + struct nvdla_task *task = (struct nvdla_task *)task_data;
> +
> + handles = task->address_list;
> + buf = dma_buf_get(handles[dst].handle);
> + if (IS_ERR(buf)) {
> + pr_err("%s: Failed get dma_buf for handle=%d\n", __func__,
> + handles[dst].handle);
> + return -EFAULT;
> + }
> +
> + ret = dma_buf_begin_cpu_access(buf, DMA_BIDIRECTIONAL);
> + if (ret)
> + goto put_dma_buf;
> +
> + ret = dma_buf_vmap(buf, &map);
> + ptr = ret ? NULL : map.vaddr;
Never extract the pointer's address without good reason. You don't know
if this points to a location in I/O memory.
> + if (!ptr) {
Simply test for ret here.
> + pr_err("%s: Failed to vmap dma_buf for handle=%d\n", __func__,
> + handles[dst].handle);
> + ret = -ENOMEM;
You already got an errno code. Don't override it.
> + goto end_cpu_access;
> + }
> +
> +
> + memcpy((void *)((uint8_t *)ptr + offset), src, size);
Use iosys_map_memcpy_to() here. It does the right thing
> +
> + dma_buf_vunmap(buf, ptr);
You have to pass map as the second argument.
> +
> +end_cpu_access:
> + dma_buf_end_cpu_access(buf, DMA_BIDIRECTIONAL);
> +
> +put_dma_buf:
> + dma_buf_put(buf);
> +
> + return ret;
> +}
> +
> +int32_t dla_data_read(void *driver_context, void *task_data,
> + uint64_t src, void *dst,
> + uint32_t size, uint64_t offset)
> +{
> + int32_t ret;
> + void *ptr = NULL;
> + struct dma_buf *buf;
> + struct iosys_map map;
> + struct nvdla_mem_handle *handles;
> + struct nvdla_task *task = (struct nvdla_task *)task_data;
> +
> + handles = task->address_list;
> +
> + buf = dma_buf_get(handles[src].handle);
> + if (IS_ERR(buf)) {
> + pr_err("%s: Failed get dma_buf for handle=%d\n", __func__,
> + handles[src].handle);
> + return -EFAULT;
> + }
> +
> + ret = dma_buf_begin_cpu_access(buf, DMA_BIDIRECTIONAL);
> + if (ret)
> + goto put_dma_buf;
> +
> + ret = dma_buf_vmap(buf, &map);
> + ptr = ret ? NULL : map.vaddr;
> + if (!ptr) {
> + pr_err("%s: Failed to vmap dma_buf for handle=%d\n", __func__,
> + handles[src].handle);
> + ret = -ENOMEM;
> + goto end_cpu_access;
> + }
All the same problems as in dla_data_write().
> +
> + memcpy(dst, (void *)(((uint8_t *)ptr) + offset), size);
Use iosys_map_memcpy_from() here.
> +
> + dma_buf_vunmap(buf, ptr);
'map' instead of 'ptr'
> +
> +end_cpu_access:
> + dma_buf_end_cpu_access(buf, DMA_BIDIRECTIONAL);
> +
> +put_dma_buf:
> + dma_buf_put(buf);
> +
> + return ret;
> +}
> +
> +int32_t nvdla_task_submit(struct nvdla_device *nvdla_dev, struct nvdla_task *task)
> +{
> + int32_t err = 0;
> + uint32_t task_complete = 0;
> +
> + //trace_printk("__nvdla_task_submit_entry\n");
> + nvdla_dev->task = task;
> +
> + err = dla_execute_task(nvdla_dev->engine_context, (void *)task, nvdla_dev->config_data);
> + if (err) {
> + pr_err("Task execution failed\n");
> + return err;
> + }
> +
> + pr_debug("Wait for task complete\n");
> +
> + while (1) {
> + unsigned long flags;
> +
> + wait_for_completion(&nvdla_dev->event_notifier);
> +
> + spin_lock_irqsave(&nvdla_dev->nvdla_lock, flags);
> +
> + err = dla_process_events(nvdla_dev->engine_context, &task_complete);
> +
> + spin_unlock_irqrestore(&nvdla_dev->nvdla_lock, flags);
> +
> + if (err || task_complete)
> + break;
> + }
> +
> + pr_debug("Task complete\n");
> + dla_clear_task(nvdla_dev->engine_context);
> + //trace_printk("__nvdla_task_submit_exit\n");
> +
> + return err;
> +}
> +
> +static union dla_operation_container operation_desc[DLA_OP_NUM][DLA_NUM_GROUPS];
> +static union dla_surface_container surface_desc[DLA_OP_NUM][DLA_NUM_GROUPS];
> +
> +static struct dla_task global_task;
> +
> +static struct dla_engine engine = {
> + .processors[DLA_OP_BDMA] = {
> + .name = "BDMA",
> + .op_type = DLA_OP_BDMA,
> + .program = dla_bdma_program,
> + .enable = dla_bdma_enable,
> + .set_producer = dla_bdma_set_producer,
> + .is_ready = dla_bdma_is_ready,
> + .dump_config = dla_bdma_dump_config,
> + .rdma_check = dla_bdma_rdma_check,
> + .consumer_ptr = 0,
> + .roi_index = 0,
> + .group_status = 0,
> + .rdma_status = 0,
> + .last_group = 1,
> + .groups[0] = {
> + .id = 0,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_BDMA][0],
> + .surface_desc = &surface_desc[DLA_OP_BDMA][0],
> + },
> + .groups[1] = {
> + .id = 1,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_BDMA][1],
> + .surface_desc = &surface_desc[DLA_OP_BDMA][1],
> + },
> + },
> + .processors[DLA_OP_CONV] = {
> + .name = "Convolution",
> + .op_type = DLA_OP_CONV,
> + .program = dla_conv_program,
> + .enable = dla_conv_enable,
> + .set_producer = dla_conv_set_producer,
> + .is_ready = dla_conv_is_ready,
> + .dump_config = dla_conv_dump_config,
> + .rdma_check = dla_conv_rdma_check,
> + .consumer_ptr = 0,
> + .roi_index = 0,
> + .group_status = 0,
> + .rdma_status = 0,
> + .last_group = 1,
> + .groups[0] = {
> + .id = 0,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_CONV][0],
> + .surface_desc = &surface_desc[DLA_OP_CONV][0],
> + },
> + .groups[1] = {
> + .id = 1,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_CONV][1],
> + .surface_desc = &surface_desc[DLA_OP_CONV][1],
> + },
> + },
> + .processors[DLA_OP_SDP] = {
> + .name = "SDP",
> + .op_type = DLA_OP_SDP,
> + .program = dla_sdp_program,
> + .enable = dla_sdp_enable,
> + .set_producer = dla_sdp_set_producer,
> + .is_ready = dla_sdp_is_ready,
> + .dump_config = dla_sdp_dump_config,
> + .rdma_check = dla_sdp_rdma_check,
> + .consumer_ptr = 0,
> + .roi_index = 0,
> + .group_status = 0,
> + .rdma_status = 0,
> + .last_group = 1,
> + .groups[0] = {
> + .id = 0,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_SDP][0],
> + .surface_desc = &surface_desc[DLA_OP_SDP][0],
> + },
> + .groups[1] = {
> + .id = 1,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_SDP][1],
> + .surface_desc = &surface_desc[DLA_OP_SDP][1],
> + },
> + },
> + .processors[DLA_OP_PDP] = {
> + .name = "PDP",
> + .op_type = DLA_OP_PDP,
> + .program = dla_pdp_program,
> + .enable = dla_pdp_enable,
> + .set_producer = dla_pdp_set_producer,
> + .is_ready = dla_pdp_is_ready,
> + .dump_config = dla_pdp_dump_config,
> + .rdma_check = dla_pdp_rdma_check,
> + .consumer_ptr = 0,
> + .roi_index = 0,
> + .group_status = 0,
> + .rdma_status = 0,
> + .last_group = 1,
> + .groups[0] = {
> + .id = 0,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_PDP][0],
> + .surface_desc = &surface_desc[DLA_OP_PDP][0],
> + },
> + .groups[1] = {
> + .id = 1,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_PDP][1],
> + .surface_desc = &surface_desc[DLA_OP_PDP][1],
> + },
> + },
> + .processors[DLA_OP_CDP] = {
> + .name = "CDP",
> + .op_type = DLA_OP_CDP,
> + .program = dla_cdp_program,
> + .enable = dla_cdp_enable,
> + .set_producer = dla_cdp_set_producer,
> + .is_ready = dla_cdp_is_ready,
> + .dump_config = dla_cdp_dump_config,
> + .rdma_check = dla_cdp_rdma_check,
> + .consumer_ptr = 0,
> + .roi_index = 0,
> + .group_status = 0,
> + .rdma_status = 0,
> + .last_group = 1,
> + .groups[0] = {
> + .id = 0,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_CDP][0],
> + .surface_desc = &surface_desc[DLA_OP_CDP][0],
> + },
> + .groups[1] = {
> + .id = 1,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_CDP][1],
> + .surface_desc = &surface_desc[DLA_OP_CDP][1],
> + },
> + },
> +
> + .processors[DLA_OP_RUBIK] = {
> + .name = "RUBIK",
> + .op_type = DLA_OP_RUBIK,
> + .program = dla_rubik_program,
> + .enable = dla_rubik_enable,
> + .set_producer = dla_rubik_set_producer,
> + .is_ready = dla_rubik_is_ready,
> + .dump_config = dla_rubik_dump_config,
> + .rdma_check = dla_rubik_rdma_check,
> + .consumer_ptr = 0,
> + .roi_index = 0,
> + .group_status = 0,
> + .rdma_status = 0,
> + .last_group = 1,
> + .groups[0] = {
> + .id = 0,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_RUBIK][0],
> + .surface_desc = &surface_desc[DLA_OP_RUBIK][0],
> + },
> + .groups[1] = {
> + .id = 1,
> + .rdma_id = 0,
> + .active = 0,
> + .events = 0,
> + .roi_index = 0,
> + .is_rdma_needed = 0,
> + .lut_index = -1,
> + .operation_desc = &operation_desc[DLA_OP_RUBIK][1],
> + .surface_desc = &surface_desc[DLA_OP_RUBIK][1],
> + },
> + },
> +
> +};
> +
> +/* driver probe and init */
> +static const struct of_device_id nvdla_of_match[] = {
> + {
> + .compatible = "nvidia,nvdla_os_initial",
> + .data = &nvdla_config_os_initial,
> + },
> + {
> + .compatible = "nvidia,nvdla_2",
> + .data = &nvdla_config_small,
> + },
> + { },
> +};
> +
> +static int32_t nvdla_probe(struct platform_device *pdev)
> +{
> + int32_t err = 0;
> + struct resource *res;
> + struct nvdla_device *nvdla_dev;
> + struct device *dev = &pdev->dev;
> + const struct of_device_id *match;
> +
> + if (!pdev->dev.of_node)
> + return -EINVAL;
> +
> + match = of_match_device(nvdla_of_match, &pdev->dev);
> + if (!match) {
> + pr_err("Missing DT entry!\n");
> + return -EINVAL;
> + }
> +
> + nvdla_dev = devm_kzalloc(dev, sizeof(*nvdla_dev), GFP_KERNEL);
> + if (!nvdla_dev)
> + return -ENOMEM;
> +
> + platform_set_drvdata(pdev, nvdla_dev);
> + nvdla_dev->pdev = pdev;
> + nvdla_dev->config_data = (struct nvdla_config *)match->data;
> +
> + init_completion(&nvdla_dev->event_notifier);
> +
> + res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
> + nvdla_dev->base = devm_ioremap_resource(&pdev->dev, res);
> + if (IS_ERR(nvdla_dev->base))
> + return PTR_ERR(nvdla_dev->base);
> +
> + res = platform_get_resource(pdev, IORESOURCE_IRQ, 0);
> + if (!res) {
> + dev_err(&pdev->dev, "no irq resource\n");
> + return -EINVAL;
> + }
> + nvdla_dev->irq = res->start;
> +
> + err = devm_request_irq(&pdev->dev, nvdla_dev->irq,
> + nvdla_engine_isr, 0,
> + dev_name(&pdev->dev), nvdla_dev);
> + if (err)
> + return err;
> +
> + nvdla_dev->engine_context = &engine;
> + engine.task = &global_task;
> + engine.driver_context = (void *)nvdla_dev;
> + engine.task->task_data = NULL;
> +
> + dla_init_op_cache(&engine);
> + dla_clear_task(nvdla_dev->engine_context);
> +
> + err = nvdla_drm_probe(nvdla_dev);
> + if (err)
> + dev_err(&pdev->dev, "failed to register drm device\n");
> +
> + return err;
> +}
> +
> +static int32_t __exit nvdla_remove(struct platform_device *pdev)
> +{
> + struct nvdla_device *nvdla_dev = dev_get_drvdata(&pdev->dev);
> +
> + nvdla_drm_remove(nvdla_dev);
> +
> + return 0;
> +}
> +
> +static struct platform_driver nvdla_driver = {
> + .probe = nvdla_probe,
> + .remove = __exit_p(nvdla_remove),
> + .driver = {
> + .owner = THIS_MODULE,
> + .name = "NVDLA",
> + .of_match_table = of_match_ptr(nvdla_of_match),
> + },
> +};
> +module_platform_driver(nvdla_driver);
> +
> +MODULE_LICENSE("Dual BSD/GPL");
> +MODULE_DESCRIPTION("Nvidia Deep Learning Accelerator driver");
> +MODULE_IMPORT_NS(DMA_BUF);
> diff --git a/drivers/gpu/drm/nvdla/nvdla_drm.h b/drivers/gpu/drm/nvdla/nvdla_drm.h
> new file mode 100644
> index 000000000000..356fc399accb
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_drm.h
> @@ -0,0 +1,127 @@
> +/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION.
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#ifndef __NVDLA_DRM_H_
> +#define __NVDLA_DRM_H_
> +
> +#include <linux/completion.h>
> +#include <linux/device.h>
> +#include <linux/kref.h>
> +#include <linux/platform_device.h>
> +#include <linux/spinlock.h>
> +#include <linux/errno.h>
> +#include <linux/bits.h>
> +#include <linux/types.h>
> +
> +#include "nvdla_engine.h"
> +
> +#define ASSERT_GOTO(_condition, _ret, _err_value, _goto) \
> +do { \
> + if (!(_condition)) { \
> + _ret = _err_value; \
> + pr_err("%s:%d failed %d\n", __func__, __LINE__, _ret); \
> + goto _goto; \
> + } else { \
> + _ret = 0; \
> + } \
> +} while (0)
> +
> +/**
> + * @brief Task information submitted from user space
> + *
> + * ref Reference count for task
> + * num_addresses Number of addresses in address list
> + * nvdla_dev Pointer to NVDLA device
> + * address_list Address list
> + * file DRM file instance
> + */
> +struct nvdla_task {
> + struct kref ref;
> + uint32_t num_addresses;
> + struct nvdla_device *nvdla_dev;
> + struct nvdla_mem_handle *address_list;
> + struct drm_file *file;
> +};
> +
> +/**
> + * @brief Configuration parameters supported by the engine
> + *
> + * atom_size Memory smallest access size
> + * bdma_enable Defines whether bdma is supported
> + * rubik_enable Defines whether rubik is supported
> + * weight_compress_support Defines whether weight data compression is supported
> + */
> +struct nvdla_config {
> + uint32_t atom_size;
> + bool bdma_enable;
> + bool rubik_enable;
> + bool weight_compress_support;
> +};
> +
> +/**
> + * @brief NVDLA device
> + *
> + * irq Interrupt number associated with this device
> + * ref Reference count for device
> + * base IO mapped base address for device
> + * nvdla_lock Spinlock used for synchronization
> + * drm DRM device instance
> + * task Pointer to task in execution
> + * config_data Pointer to the configuration data
> + * pdev Pointer to NVDLA platform device
> + * event_notifier Completion object used to wait for events from HW
> + * engine_context Private data passed from engine in dla_engine_init
> + */
> +struct nvdla_device {
> + int32_t irq;
> + struct kref ref;
> + void __iomem *base;
> + spinlock_t nvdla_lock;
> + struct drm_device *drm;
> + struct nvdla_task *task;
> + struct nvdla_config *config_data;
> + struct platform_device *pdev;
> + struct completion event_notifier;
> +
> + struct dla_engine *engine_context;
> +};
> +
> +int32_t nvdla_task_submit(struct nvdla_device *nvdla_dev, struct nvdla_task *task);
> +
> +int32_t nvdla_gem_dma_addr(struct drm_device *dev, struct drm_file *file,
> + uint32_t fd, dma_addr_t *addr);
> +
> +int32_t nvdla_drm_probe(struct nvdla_device *nvdla_dev);
> +
> +void nvdla_drm_remove(struct nvdla_device *nvdla_dev);
> +
> +int32_t dla_process_events(struct dla_engine *engine_context, uint32_t *task_complete);
> +
> +void dla_clear_task(struct dla_engine *engine_context);
> +
> +int32_t dla_execute_task(struct dla_engine *engine_context, void *task_data, void *config_data);
> +
> +uint32_t dla_reg_read(void *driver_context, uint32_t addr);
> +
> +void dla_reg_write(void *driver_context, uint32_t addr, uint32_t reg);
> +
> +int32_t dla_data_read(void *driver_context, void *task_data,
> + uint64_t src, void *dst,
> + uint32_t size, uint64_t offset);
> +
> +int32_t dla_data_write(void *driver_context, void *task_data,
> + void *src, uint64_t dst,
> + uint32_t size, uint64_t offset);
> +
> +/* Destination for DMA buffer */
> +#define DESTINATION_PROCESSOR 0
> +#define DESTINATION_DMA 1
> +
> +int32_t dla_get_dma_address(void *driver_context, void *task_data,
> + int16_t index, void *dst_ptr,
> + uint32_t destination);
> +
> +#endif
> diff --git a/drivers/gpu/drm/nvdla/nvdla_engine.c b/drivers/gpu/drm/nvdla/nvdla_engine.c
> new file mode 100644
> index 000000000000..26ebd6c362b0
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_engine.c
> @@ -0,0 +1,233 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_engine.h"
> +
> +static const uint32_t map_rdma_ptr_addr[] = {
> + 0xFFFFFFFF,
> + 0xFFFFFFFF,
> + SDP_REG(RDMA_S_POINTER),
> + PDP_REG(RDMA_S_POINTER),
> + CDP_REG(RDMA_S_POINTER),
> + 0xFFFFFFFF,
> +};
> +
> +static const uint32_t map_sts_addr[] = {
> + BDMA_REG(STATUS),
> + CACC_REG(S_STATUS),
> + SDP_REG(S_STATUS),
> + PDP_REG(S_STATUS),
> + CDP_REG(S_STATUS),
> + RBK_REG(S_STATUS),
> +};
> +
> +static const uint32_t map_ptr_addr[] = {
> + BDMA_REG(STATUS),
> + CACC_REG(S_POINTER),
> + SDP_REG(S_POINTER),
> + PDP_REG(S_POINTER),
> + CDP_REG(S_POINTER),
> + RBK_REG(S_POINTER),
> +};
> +
> +uint32_t reg_read(struct dla_engine *engine, uint32_t addr)
> +{
> + return dla_reg_read(engine->driver_context, addr);
> +}
> +
> +void reg_write(struct dla_engine *engine, uint32_t addr, uint32_t reg)
> +{
> + dla_reg_write(engine->driver_context, addr, reg);
> +}
> +
> +int32_t dla_enable_intr(struct dla_engine *engine, uint32_t mask)
> +{
> + uint32_t reg = glb_reg_read(engine, S_INTR_MASK);
> +
> + reg = reg & (~mask);
> + glb_reg_write(engine, S_INTR_MASK, reg);
> +
> + return 0;
> +}
> +
> +uint8_t bdma_grp_sts[2] = {
> + FIELD_ENUM(BDMA_STATUS_0, IDLE, YES),
> + FIELD_ENUM(BDMA_STATUS_0, IDLE, YES)
> +};
> +
> +struct dla_roi_desc roi_desc;
> +
> +/**
> + * Get DMA data cube address
> + */
> +int32_t
> +dla_get_dma_cube_address(void *driver_context, void *task_data,
> + int16_t index, uint32_t offset, void *dst_ptr,
> + uint32_t destination)
> +{
> + int32_t ret = 0;
> + uint64_t *pdst = (uint64_t *)dst_ptr;
> + ret = dla_get_dma_address(driver_context, task_data, index,
> + dst_ptr, destination);
> + if (ret)
> + goto exit;
> +
> + pdst[0] += offset;
> +
> +exit:
> + return ret;
> +}
> +
> +/**
> + * Read input buffer address
> + *
> + * For input layer, in case of static ROI this address is read
> + * from address list and index is specified in data cube. In case
> + * dynamic ROI, it has to be read depending on ROI information
> + * and using surface address
> + *
> + * For all other layers, this address is read from address list
> + * using index specified in data cube
> + */
> +int
> +dla_read_input_address(struct dla_engine *engine, struct dla_data_cube *data,
> + uint64_t *address, int16_t op_index,
> + uint8_t roi_index, uint8_t bpp)
> +{
> + uint64_t roi_desc_addr;
> + int32_t ret = -EINVAL;
> +
> + /**
> + * If memory type is HW then no address required
> + */
> + if (data->type == DLA_MEM_HW) {
> + ret = 0;
> + goto exit;
> + }
> +
> + /**
> + * If address list index is not -1 means this address has to
> + * be read from address list
> + */
> + if (data->address != -1) {
> +
> + /**
> + * But if other parameters indicate that this is input layer
> + * for dynamic ROI then it is an error
> + */
> + if (engine->network->dynamic_roi &&
> + engine->network->input_layer == op_index)
> + goto exit;
> + ret = dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + data->address,
> + data->offset,
> + (void *)address,
> + DESTINATION_DMA);
> + goto exit;
> + }
> +
> + /**
> + * Check if it is dynamic ROI and this is input layer
> + */
> + if (engine->network->dynamic_roi && engine->network->input_layer == op_index) {
> + if (!engine->task->surface_addr)
> + goto exit;
> +
> + /* Calculate address of ROI descriptor in array */
> + roi_desc_addr = engine->task->roi_array_addr;
> +
> + /* Read ROI descriptor */
> + ret = dla_data_read(engine->driver_context,
> + engine->task->task_data,
> + roi_desc_addr,
> + (void *)&roi_desc,
> + sizeof(roi_desc),
> + sizeof(struct dla_roi_array_desc) +
> + roi_index * sizeof(struct dla_roi_desc));
> + if (ret)
> + goto exit;
> +
> + /* Calculate ROI address */
> + *address = engine->task->surface_addr;
> + *address += (roi_desc.top * data->line_stride) +
> + (bpp * roi_desc.left);
> + }
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +utils_get_free_group(struct dla_engine *engine, struct dla_processor *processor,
> + uint8_t *group_id, uint8_t *rdma_id)
> +{
> + int32_t ret = 0;
> + uint32_t pointer;
> + uint32_t hw_consumer_ptr;
> + uint32_t hw_rdma_ptr;
> +
> + hw_rdma_ptr = 0;
> +
> + if (processor->op_type == DLA_OP_BDMA) {
> + pointer = reg_read(engine, map_ptr_addr[processor->op_type]);
> + hw_consumer_ptr = ((pointer & MASK(BDMA_STATUS_0, GRP0_BUSY)) >>
> + SHIFT(BDMA_STATUS_0, GRP0_BUSY)) ==
> + FIELD_ENUM(BDMA_STATUS_0, GRP0_BUSY, YES) ?
> + 1 : 0;
> + } else {
> + pointer = reg_read(engine, map_ptr_addr[processor->op_type]);
> + hw_consumer_ptr = (pointer & MASK(CDP_S_POINTER_0, CONSUMER)) >>
> + SHIFT(CDP_S_POINTER_0, CONSUMER);
> +
> + /**
> + * Read current consumer pointer for RDMA only if processor
> + * has RDMA module
> + */
> + if (map_rdma_ptr_addr[processor->op_type] != 0xFFFFFFFF) {
> + pointer =
> + reg_read(engine, map_rdma_ptr_addr[processor->op_type]);
> + hw_rdma_ptr = (pointer &
> + MASK(CDP_S_POINTER_0, CONSUMER)) >>
> + SHIFT(CDP_S_POINTER_0, CONSUMER);
> + }
> + }
> +
> + /**
> + * If both processors are programmed then exit
> + */
> + if (processor->group_status == 0x3) {
> + ret = -EBUSY;
> + goto exit;
> + }
> +
> + if (!processor->group_status)
> + /**
> + * If both groups are idle then use consumer pointer
> + */
> + *group_id = hw_consumer_ptr;
> + else
> + /**
> + * Here it is assumed that only one group is idle or busy
> + * and hence right shift will work to get correct
> + * group id
> + */
> + *group_id = !(processor->group_status >> 1);
> +
> + /**
> + * If both groups are idle then read group id from pointer
> + */
> + if (!processor->rdma_status)
> + *rdma_id = hw_rdma_ptr;
> + else
> + *rdma_id = !(processor->rdma_status >> 1);
> +
> +exit:
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_engine.h b/drivers/gpu/drm/nvdla/nvdla_engine.h
> new file mode 100644
> index 000000000000..1976f5919543
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_engine.h
> @@ -0,0 +1,272 @@
> +/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION.
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#ifndef __NVDLA_ENGINE_H_
> +#define __NVDLA_ENGINE_H_
> +
> +#include "nvdla_common.h"
> +#include "nvdla_sched.h"
> +#include "nvdla_engine.h"
> +#include "nvdla_reg.h"
> +
> +/*********************************************************/
> +/******************** Utilities **************************/
> +/*********************************************************/
> +#define MASK(reg, field) (reg##_##field##_FIELD)
> +#define FIELD_ENUM(r, f, e) (r##_##f##_##e)
> +#define SHIFT(reg, field) (reg##_##field##_SHIFT)
> +
> +#define GLB_REG(name) GLB_##name##_0
> +#define MCIF_REG(name) MCIF_##name##_0
> +#define CVIF_REG(name) CVIF_##name##_0
> +#define BDMA_REG(name) BDMA_##name##_0
> +#define CDMA_REG(name) CDMA_##name##_0
> +#define CSC_REG(name) CSC_##name##_0
> +#define CMAC_A_REG(name) CMAC_A_##name##_0
> +#define CMAC_B_REG(name) CMAC_B_##name##_0
> +#define CACC_REG(name) CACC_##name##_0
> +#define SDP_RDMA_REG(name) SDP_RDMA_##name##_0
> +#define SDP_REG(name) SDP_##name##_0
> +#define PDP_RDMA_REG(name) PDP_RDMA_##name##_0
> +#define PDP_REG(name) PDP_##name##_0
> +#define CDP_RDMA_REG(name) CDP_RDMA_##name##_0
> +#define CDP_REG(name) CDP_##name##_0
> +#define RBK_REG(name) RBK_##name##_0
> +
> +/* alias for register read for each sub-module */
> +#define glb_reg_read(engine, reg) reg_read(engine, GLB_REG(reg))
> +#define bdma_reg_read(engine, reg) reg_read(engine, BDMA_REG(reg))
> +#define cdma_reg_read(engine, reg) reg_read(engine, CDMA_REG(reg))
> +#define csc_reg_read(engine, reg) reg_read(engine, CSC_REG(reg))
> +#define cmac_a_reg_read(engine, reg) reg_read(engine, CMAC_A_REG(reg))
> +#define cmac_b_reg_read(engine, reg) reg_read(engine, CMAC_B_REG(reg))
> +#define cacc_reg_read(engine, reg) reg_read(engine, CACC_REG(reg))
> +#define sdp_rdma_reg_read(engine, reg) reg_read(engine, SDP_RDMA_REG(reg))
> +#define sdp_reg_read(engine, reg) reg_read(engine, SDP_REG(reg))
> +#define pdp_rdma_reg_read(engine, reg) reg_read(engine, PDP_RDMA_REG(reg))
> +#define pdp_reg_read(engine, reg) reg_read(engine, PDP_REG(reg))
> +#define cdp_rdma_reg_read(engine, reg) reg_read(engine, CDP_RDMA_REG(reg))
> +#define cdp_reg_read(engine, reg) reg_read(engine, CDP_REG(reg))
> +#define rubik_reg_read(engine, reg) reg_read(engine, RBK_REG(reg))
> +
> +/* alias for register write for each sub-module */
> +#define glb_reg_write(engine, reg, val) reg_write(engine, GLB_REG(reg), val)
> +#define bdma_reg_write(engine, reg, val) reg_write(engine, BDMA_REG(reg), val)
> +#define cdma_reg_write(engine, reg, val) reg_write(engine, CDMA_REG(reg), val)
> +#define csc_reg_write(engine, reg, val) reg_write(engine, CSC_REG(reg), val)
> +#define cmac_a_reg_write(engine, reg, val) reg_write(engine, CMAC_A_REG(reg), val)
> +#define cmac_b_reg_write(engine, reg, val) reg_write(engine, CMAC_B_REG(reg), val)
> +#define cacc_reg_write(engine, reg, val) reg_write(engine, CACC_REG(reg), val)
> +#define sdp_rdma_reg_write(engine, reg, val) reg_write(engine, SDP_RDMA_REG(reg), val)
> +#define sdp_reg_write(engine, reg, val) reg_write(engine, SDP_REG(reg), val)
> +#define pdp_rdma_reg_write(engine, reg, val) reg_write(engine, PDP_RDMA_REG(reg), val)
> +#define pdp_reg_write(engine, reg, val) reg_write(engine, PDP_REG(reg), val)
> +#define cdp_rdma_reg_write(engine, reg, val) reg_write(engine, CDP_RDMA_REG(reg), val)
> +#define cdp_reg_write(engine, reg, val) reg_write(engine, CDP_REG(reg), val)
> +#define rubik_reg_write(engine, reg, val) reg_write(engine, RBK_REG(reg), val)
> +
> +struct dla_processor_group {
> + uint8_t id;
> + uint8_t rdma_id;
> + uint8_t active;
> + uint8_t events;
> + uint8_t roi_index;
> + uint8_t is_rdma_needed;
> + uint8_t pending;
> + int32_t lut_index;
> + uint8_t programming;
> +
> + struct dla_common_op_desc *op_desc;
> + struct dla_common_op_desc *consumers[DLA_OP_NUM];
> + struct dla_common_op_desc *fused_parent;
> + union dla_operation_container *operation_desc;
> + union dla_surface_container *surface_desc;
> +};
> +
> +struct dla_processor {
> + const char *name;
> + uint8_t op_type;
> + uint8_t consumer_ptr;
> + uint8_t roi_index;
> + uint8_t group_status;
> + uint8_t rdma_status;
> + uint8_t last_group;
> +
> + struct dla_common_op_desc *tail_op;
> + struct dla_processor_group groups[DLA_NUM_GROUPS];
> + struct dla_engine *engine;
> +
> + int (*is_ready)(struct dla_processor *processor,
> + struct dla_processor_group *group);
> + int (*enable)(struct dla_engine *engine, struct dla_processor_group *group);
> + int (*program)(struct dla_engine *engine, struct dla_processor_group *group);
> + void (*set_producer)(struct dla_engine *engine, int32_t group_id, int32_t rdma_id);
> + void (*dump_config)(struct dla_processor_group *group);
> + void (*rdma_check)(struct dla_processor_group *group);
> +};
> +
> +struct dla_engine {
> + struct dla_task *task;
> + struct dla_config *config_data;
> + struct dla_network_desc *network;
> + struct dla_processor processors[DLA_OP_NUM];
> +
> + uint16_t num_proc_hwl;
> + int32_t status;
> +
> + void *driver_context;
> +};
> +
> +void reg_write(struct dla_engine *engine, uint32_t addr, uint32_t reg);
> +uint32_t reg_read(struct dla_engine *engine, uint32_t addr);
> +
> +/**
> + * Operation descriptor cache functions
> + */
> +void
> +dla_put_op_desc(struct dla_engine *engine, struct dla_common_op_desc *op_desc);
> +struct dla_common_op_desc
> +*dla_get_op_desc(struct dla_engine *engine, struct dla_task *task,
> + int16_t index,
> + uint8_t op_type,
> + uint8_t roi_index);
> +void
> +dla_get_refcount(struct dla_common_op_desc *op_desc);
> +void
> +dla_init_op_cache(struct dla_engine *engine);
> +
> +/**
> + * Operation completion handler
> + */
> +int
> +dla_op_completion(struct dla_engine *engine, struct dla_processor *processor,
> + struct dla_processor_group *group);
> +
> +int32_t
> +dla_read_lut(struct dla_engine *engine, int16_t index, void *dst);
> +int
> +dla_enable_intr(struct dla_engine *engine, uint32_t mask);
> +int
> +utils_get_free_group(struct dla_engine *engine, struct dla_processor *processor,
> + uint8_t *group_id,
> + uint8_t *rdma_id);
> +int32_t
> +dla_get_dma_cube_address(void *driver_context,
> + void *task_data,
> + int16_t index,
> + uint32_t offset,
> + void *dst_ptr,
> + uint32_t destination);
> +int
> +dla_read_input_address(struct dla_engine *engine, struct dla_data_cube *data,
> + uint64_t *address,
> + int16_t op_index,
> + uint8_t roi_index,
> + uint8_t bpp);
> +
> +/**
> + * BDMA operations
> + */
> +void
> +dla_bdma_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id);
> +int
> +dla_bdma_enable(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_bdma_program(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_bdma_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group);
> +void
> +dla_bdma_dump_config(struct dla_processor_group *group);
> +void
> +dla_bdma_rdma_check(struct dla_processor_group *group);
> +
> +/**
> + * Convolution operations
> + */
> +void
> +dla_conv_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id);
> +int
> +dla_conv_enable(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_conv_program(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_conv_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group);
> +void
> +dla_conv_dump_config(struct dla_processor_group *group);
> +void
> +dla_conv_rdma_check(struct dla_processor_group *group);
> +
> +/**
> + * SDP operations
> + */
> +void
> +dla_sdp_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id);
> +int
> +dla_sdp_enable(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_sdp_program(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_sdp_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group);
> +void
> +dla_sdp_dump_config(struct dla_processor_group *group);
> +void
> +dla_sdp_rdma_check(struct dla_processor_group *group);
> +
> +/**
> + * PDP operations
> + */
> +void
> +dla_pdp_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id);
> +int
> +dla_pdp_enable(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_pdp_program(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_pdp_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group);
> +void
> +dla_pdp_dump_config(struct dla_processor_group *group);
> +void
> +dla_pdp_rdma_check(struct dla_processor_group *group);
> +
> +/**
> + * CDP operations
> + */
> +void
> +dla_cdp_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id);
> +int
> +dla_cdp_enable(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_cdp_program(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_cdp_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group);
> +void
> +dla_cdp_dump_config(struct dla_processor_group *group);
> +void
> +dla_cdp_rdma_check(struct dla_processor_group *group);
> +
> +/**
> + * RUBIK operations
> + */
> +void
> +dla_rubik_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id);
> +int
> +dla_rubik_enable(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_rubik_program(struct dla_engine *engine, struct dla_processor_group *group);
> +int
> +dla_rubik_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group);
> +void
> +dla_rubik_dump_config(struct dla_processor_group *group);
> +void
> +dla_rubik_rdma_check(struct dla_processor_group *group);
> +
> +#endif
> diff --git a/drivers/gpu/drm/nvdla/nvdla_gem.c b/drivers/gpu/drm/nvdla/nvdla_gem.c
> new file mode 100644
> index 000000000000..cccf6d01a564
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_gem.c
> @@ -0,0 +1,393 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include <linux/dma-buf.h>
> +#include <drm/drm_drv.h>
> +#include <drm/drm_gem_cma_helper.h>
> +
> +#include "nvdla_drm.h"
> +#include "nvdla_ioctl.h"
> +
> +#define to_nvdla_obj(x) container_of(x, struct nvdla_gem_object, object)
> +
> +struct nvdla_gem_object {
> + struct drm_gem_object object;
> +
> + void *kvaddr;
> + dma_addr_t dma_addr;
> + unsigned long dma_attrs;
> +};
> +
> +static int32_t nvdla_fill_task_desc(struct nvdla_ioctl_submit_task *local_task,
> + struct nvdla_task *task)
> +{
> + struct nvdla_mem_handle *handles;
> +
> + /* update task desc fields */
> + task->num_addresses = local_task->num_addresses;
> +
> + handles = kzalloc(local_task->num_addresses * sizeof(struct nvdla_mem_handle),
> + GFP_KERNEL);
> + if (handles == NULL)
> + return -EFAULT;
> +
> + /* get user addresses list */
> + if (copy_from_user(handles,
> + (void __user *)local_task->address_list,
> + (task->num_addresses *
> + sizeof(struct nvdla_mem_handle)))) {
> + pr_err("failed to copy address list from user ptr\n");
> + kfree(handles);
> + return -EFAULT;
> + }
> +
> + task->address_list = handles;
> +
> + return 0;
> +}
> +
> +static int32_t nvdla_submit(struct drm_device *drm, void *arg,
> + struct drm_file *file)
> +{
> + int32_t err = 0;
> + struct nvdla_task *task;
> + struct nvdla_ioctl_submit_task local_task;
> + struct nvdla_ioctl_submit_task __user *user_task;
> + struct nvdla_device *nvdla_dev = dev_get_drvdata(drm->dev);
> + struct nvdla_submit_args *args =
> + (struct nvdla_submit_args *)arg;
> +
> + user_task = (struct nvdla_ioctl_submit_task __user *)
> + (uintptr_t)args->tasks;
> + if (!user_task)
> + return -EINVAL;
> +
> + /* IOCTL copy descriptors */
> + if (copy_from_user(&local_task, (void __user *)user_task,
> + (sizeof(*user_task))))
> + return -EFAULT;
> +
> + task = kzalloc(sizeof(*task), GFP_KERNEL);
> + if (task == NULL)
> + return -EFAULT;
> +
> + nvdla_dev->task = task;
> + kref_init(&task->ref);
> + task->nvdla_dev = nvdla_dev;
> + task->file = file;
> +
> + /* update task desc fields */
> + err = nvdla_fill_task_desc(&local_task, task);
> + if (err)
> + goto free_task_desc;
> +
> + err = nvdla_task_submit(nvdla_dev, task);
> +
> + kfree(task->address_list);
> +
> +free_task_desc:
> + kfree(task);
> + return err;
> +}
> +
> +static int32_t nvdla_gem_alloc(struct nvdla_gem_object *nobj)
> +{
> + struct drm_gem_object *dobj = &nobj->object;
> + struct drm_device *drm = dobj->dev;
> +
> + nobj->dma_attrs = DMA_ATTR_WRITE_COMBINE;
> +
> + nobj->kvaddr = dma_alloc_attrs(drm->dev, dobj->size, &nobj->dma_addr,
> + GFP_KERNEL, nobj->dma_attrs);
> +
Store an iosys-map address in nobj and initialize it with
iosys_map_set_vaddr(); or iosys_map_set_vaddr_iomem() if you're working
with I/O memory.
> + if (!nobj->kvaddr)
> + return -ENOMEM;
> +
> + return 0;
> +}
> +
> +static void nvdla_gem_free(struct nvdla_gem_object *nobj)
> +{
> + struct drm_gem_object *dobj = &nobj->object;
> + struct drm_device *drm = dobj->dev;
> +
> + dma_free_attrs(drm->dev, dobj->size, nobj->kvaddr, nobj->dma_addr,
> + nobj->dma_attrs);
> +}
> +
> +static void nvdla_gem_free_object(struct drm_gem_object *dobj)
> +{
> + struct nvdla_gem_object *nobj;
> +
> + drm_gem_free_mmap_offset(dobj);
> +
> + nobj = to_nvdla_obj(dobj);
> +
> + nvdla_gem_free(nobj);
> +
> + kfree(nobj);
> +}
> +
> +static struct nvdla_gem_object *
> +nvdla_gem_create_object(struct drm_device *drm, uint32_t size)
> +{
> + int32_t ret;
> + struct drm_gem_object *dobj;
> + struct nvdla_gem_object *nobj;
> +
> + size = round_up(size, PAGE_SIZE);
> +
> + nobj = kzalloc(sizeof(*nobj), GFP_KERNEL);
> + if (!nobj)
> + return ERR_PTR(-ENOMEM);
> +
> + dobj = &nobj->object;
> +
> + drm_gem_private_object_init(drm, dobj, size);
> +
> + ret = nvdla_gem_alloc(nobj);
> + if (ret)
> + goto free_nvdla_obj;
> +
> + return nobj;
> +
> +free_nvdla_obj:
> + kfree(nobj);
> + return ERR_PTR(ret);
> +}
> +
> +static struct sg_table*
> +nvdla_drm_gem_prime_get_sg_table(struct drm_gem_object *dobj)
> +{
> + int32_t ret;
> + struct sg_table *sgt;
> + struct drm_device *drm = dobj->dev;
> + struct nvdla_gem_object *nobj = to_nvdla_obj(dobj);
> +
> + sgt = kzalloc(sizeof(*sgt), GFP_KERNEL);
> + if (!sgt)
> + return ERR_PTR(-ENOMEM);
> +
> + ret = dma_get_sgtable_attrs(drm->dev, sgt, nobj->kvaddr,
> + nobj->dma_addr, dobj->size,
> + nobj->dma_attrs);
> + if (ret) {
> + DRM_ERROR("failed to allocate sgt, %d\n", ret);
> + kfree(sgt);
> + return ERR_PTR(ret);
> + }
> +
> + return sgt;
> +}
> +
> +static int nvdla_drm_gem_prime_vmap(struct drm_gem_object *obj, struct iosys_map *map)
> +{
> + struct nvdla_gem_object *nobj = to_nvdla_obj(obj);
> +
> + map->vaddr = nobj->kvaddr;
Instead of kvaddr, store the pointer as struct iosys_map. Then simply
copy it here, as in
*map = nobj->map;
> +
> + return 0;
> +}
> +
> +static void nvdla_drm_gem_prime_vunmap(struct drm_gem_object *obj, struct iosys_map *map)
> +{
> + /* Nothing to do */
> +}
> +
> +static int32_t nvdla_drm_gem_object_mmap(struct drm_gem_object *dobj,
> + struct vm_area_struct *vma)
> +{
> + int32_t ret;
> + struct nvdla_gem_object *nobj = to_nvdla_obj(dobj);
> + struct drm_device *drm = dobj->dev;
> +
> + vma->vm_flags &= ~VM_PFNMAP;
> + vma->vm_pgoff = 0;
It's cleaner to do this as
vma->vm_pgoff -= drm_vma_node_start(&obj->vma_node)
> +
> + ret = dma_mmap_attrs(drm->dev, vma, nobj->kvaddr, nobj->dma_addr,
> + dobj->size, nobj->dma_attrs);
> + if (ret)
> + drm_gem_vm_close(vma);
> +
> + return ret;
> +}
> +
> +static const struct drm_gem_object_funcs nvdla_gem_object_funcs = {
> + .free = nvdla_gem_free_object,
> + .get_sg_table = nvdla_drm_gem_prime_get_sg_table,
> + .vmap = nvdla_drm_gem_prime_vmap,
> + .vunmap = nvdla_drm_gem_prime_vunmap,
> + .mmap = nvdla_drm_gem_object_mmap,
> +};
> +
> +static struct nvdla_gem_object*
> +nvdla_gem_create_with_handle(struct drm_file *file_priv,
> + struct drm_device *drm, uint32_t size,
> + uint32_t *handle)
> +{
> + int32_t ret;
> + struct drm_gem_object *dobj;
> + struct nvdla_gem_object *nobj;
> +
> + nobj = nvdla_gem_create_object(drm, size);
> + if (IS_ERR(nobj))
> + return ERR_CAST(nobj);
> +
> + dobj = &nobj->object;
> + dobj->funcs = &nvdla_gem_object_funcs;
> + ret = drm_gem_handle_create(file_priv, dobj, handle);
> + if (ret)
> + goto free_drm_object;
> +
> + drm_gem_object_put(dobj);
> +
> + return nobj;
> +
> +free_drm_object:
> + nvdla_gem_free_object(dobj);
> +
> + return ERR_PTR(ret);
> +}
> +
> +static int32_t nvdla_gem_create(struct drm_device *drm, void *data,
> + struct drm_file *file)
> +{
> + struct nvdla_gem_object *nobj;
> + struct nvdla_gem_create_args *args = data;
> +
> + nobj = nvdla_gem_create_with_handle(file, drm, args->size,
> + &args->handle);
> + if (IS_ERR(nobj))
> + return PTR_ERR(nobj);
> +
> + return 0;
> +}
> +
> +static int32_t nvdla_drm_gem_mmap_buf(struct drm_gem_object *obj,
> + struct vm_area_struct *vma)
> +{
> + int32_t ret;
> +
> + ret = drm_gem_mmap_obj(obj, obj->size, vma);
> + if (ret)
> + return ret;
> +
> + return nvdla_drm_gem_object_mmap(obj, vma);
> +}
> +
> +static int32_t nvdla_drm_gem_mmap(struct file *filp, struct vm_area_struct *vma)
> +{
> + int32_t ret;
> + struct drm_gem_object *obj;
> +
> + ret = drm_gem_mmap(filp, vma);
> + if (ret)
> + return ret;
> +
> + obj = vma->vm_private_data;
> +
> + return nvdla_drm_gem_object_mmap(obj, vma);
I don't understand these two lines. This is part of what drm_gem_mmap()
does. It shouldn't be necessary here.
> +}
> +
> +int32_t nvdla_gem_dma_addr(struct drm_device *dev, struct drm_file *file,
> + uint32_t fd, dma_addr_t *addr)
> +{
> + int32_t ret;
> + uint32_t handle;
> + struct nvdla_gem_object *nobj;
> + struct drm_gem_object *dobj;
> +
> + ret = drm_gem_prime_fd_to_handle(dev, file, fd, &handle);
> + if (ret)
> + return ret;
> +
> + dobj = drm_gem_object_lookup(file, handle);
> + if (!dobj)
> + return -EINVAL;
> +
> + nobj = to_nvdla_obj(dobj);
> +
> + *addr = nobj->dma_addr;
> +
> + drm_gem_object_put(dobj);
> +
> + return 0;
> +}
> +
> +static int32_t nvdla_gem_map_offset(struct drm_device *drm, void *data,
> + struct drm_file *file)
> +{
> + struct nvdla_gem_map_offset_args *args = data;
> +
> + return drm_gem_dumb_map_offset(file, drm, args->handle,
> + &args->offset);
> +}
> +
> +static const struct file_operations nvdla_drm_fops = {
> + .owner = THIS_MODULE,
> + .open = drm_open,
> + .release = drm_release,
> + .unlocked_ioctl = drm_ioctl,
> + .mmap = nvdla_drm_gem_mmap,
It should be fine to use drm_gem_mmap here. Then you should use
DEFINE_DRM_GEM_FOPS() to define nvdla_drm_fops.
> + .poll = drm_poll,
> + .read = drm_read,
> +#ifdef CONFIG_COMPAT
> + .compat_ioctl = drm_compat_ioctl,
> +#endif
> + .llseek = noop_llseek,
> +};
> +
> +static const struct drm_ioctl_desc nvdla_drm_ioctls[] = {
> + DRM_IOCTL_DEF_DRV(NVDLA_SUBMIT, nvdla_submit, DRM_RENDER_ALLOW),
> + DRM_IOCTL_DEF_DRV(NVDLA_GEM_CREATE, nvdla_gem_create, DRM_RENDER_ALLOW),
> + DRM_IOCTL_DEF_DRV(NVDLA_GEM_MMAP, nvdla_gem_map_offset, DRM_RENDER_ALLOW),
> + /* use DRM_IOCTL_MODE_DESTROY_DUMB to destory */
> +};
> +
> +static struct drm_driver nvdla_drm_driver = {
> + .driver_features = DRIVER_GEM | DRIVER_RENDER,
> +
> + .ioctls = nvdla_drm_ioctls,
> + .num_ioctls = ARRAY_SIZE(nvdla_drm_ioctls),
> + .fops = &nvdla_drm_fops,
> + .gem_prime_mmap = nvdla_drm_gem_mmap_buf,
Use drm_gem_prime_mmap() here.
Some context: the situation with these mmap functions has been confusing
and inconsistent among DMR drivers. But we cleaned it up so that you
only have to provide a minimal implementation of struct
drm_gem_object_funcs.mmap. All other mmap callbacks can then be filled
with standard DRM helpers.
> +
> + .name = "nvdla",
> + .desc = "NVDLA driver",
> + .date = "20171017",
> + .major = 0,
> + .minor = 0,
> + .patchlevel = 0,
> +};
> +
> +int32_t nvdla_drm_probe(struct nvdla_device *nvdla_dev)
> +{
> + int32_t err;
> + struct drm_device *drm;
> + struct drm_driver *driver = &nvdla_drm_driver;
> +
> + drm = drm_dev_alloc(driver, &nvdla_dev->pdev->dev);
> + if (IS_ERR(drm))
> + return PTR_ERR(drm);
> +
> + nvdla_dev->drm = drm;
> +
> + err = drm_dev_register(drm, 0);
> + if (err < 0)
> + goto unref;
> +
> + return 0;
> +
> +unref:
> + drm_dev_put(drm);
> + return err;
> +}
> +
> +void nvdla_drm_remove(struct nvdla_device *nvdla_dev)
> +{
> + drm_dev_unregister(nvdla_dev->drm);
> + drm_dev_put(nvdla_dev->drm);
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_ioctl.h b/drivers/gpu/drm/nvdla/nvdla_ioctl.h
> new file mode 100644
> index 000000000000..e21d4007b7f4
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_ioctl.h
> @@ -0,0 +1,99 @@
> +/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION.
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#ifndef __LINUX_NVDLA_IOCTL_H
> +#define __LINUX_NVDLA_IOCTL_H
> +
> +#include <linux/ioctl.h>
> +#include <linux/types.h>
> +
> +#if !defined(__KERNEL__)
> +#define __user
> +#endif
> +
> +/**
> + * struct nvdla_mem_handle structure for memory handles
> + *
> + * @handle handle to DMA buffer allocated in userspace
> + * @reserved Reserved for padding
> + * @offset offset in bytes from start address of buffer
> + *
> + */
> +struct nvdla_mem_handle {
> + __u32 handle;
> + __u32 reserved;
> + __u64 offset;
> +};
> +
> +/**
> + * struct nvdla_ioctl_submit_task structure for single task information
> + *
> + * @num_addresses total number of entries in address_list
> + * @reserved Reserved for padding
> + * @address_list pointer to array of struct nvdla_mem_handle
> + *
> + */
> +struct nvdla_ioctl_submit_task {
> +#define NVDLA_MAX_BUFFERS_PER_TASK (6144)
> + __u32 num_addresses;
> +#define NVDLA_NO_TIMEOUT (0xffffffff)
> + __u32 timeout;
> + __u64 address_list;
> +};
> +
> +/**
> + * struct nvdla_submit_args structure for task submit
> + *
> + * @tasks pointer to array of struct nvdla_ioctl_submit_task
> + * @num_tasks number of entries in tasks
> + * @flags flags for task submit, no flags defined yet
> + * @version version of task structure
> + *
> + */
> +struct nvdla_submit_args {
> + __u64 tasks;
> + __u16 num_tasks;
> +#define NVDLA_MAX_TASKS_PER_SUBMIT 24
> +#define NVDLA_SUBMIT_FLAGS_ATOMIC (1 << 0)
> + __u16 flags;
> + __u32 version;
> +};
> +
> +/**
> + * struct nvdla_gem_create_args for allocating DMA buffer through GEM
> + *
> + * @handle handle updated by kernel after allocation
> + * @flags implementation specific flags
> + * @size size of buffer to allocate
> + */
> +struct nvdla_gem_create_args {
> + __u32 handle;
> + __u32 flags;
> + __u64 size;
> +};
> +
> +/**
> + * struct nvdla_gem_map_offset_args for mapping DMA buffer
> + *
> + * @handle handle of the buffer
> + * @reserved reserved for padding
> + * @offset offset updated by kernel after mapping
> + */
> +struct nvdla_gem_map_offset_args {
> + __u32 handle;
> + __u32 reserved;
> + __u64 offset;
> +};
> +
> +#define DRM_NVDLA_SUBMIT 0x00
> +#define DRM_NVDLA_GEM_CREATE 0x01
> +#define DRM_NVDLA_GEM_MMAP 0x02
> +
> +#define DRM_IOCTL_NVDLA_SUBMIT DRM_IOWR(DRM_COMMAND_BASE + DRM_NVDLA_SUBMIT, struct nvdla_submit_args)
> +#define DRM_IOCTL_NVDLA_GEM_CREATE DRM_IOWR(DRM_COMMAND_BASE + DRM_NVDLA_GEM_CREATE, struct nvdla_gem_create_args)
> +#define DRM_IOCTL_NVDLA_GEM_MMAP DRM_IOWR(DRM_COMMAND_BASE + DRM_NVDLA_GEM_MMAP, struct nvdla_gem_map_offset_args)
> +
> +#endif
> diff --git a/drivers/gpu/drm/nvdla/nvdla_pdp.c b/drivers/gpu/drm/nvdla/nvdla_pdp.c
> new file mode 100644
> index 000000000000..2ed0ac0f021a
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_pdp.c
> @@ -0,0 +1,446 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_common.h"
> +#include "nvdla_engine.h"
> +
> +#define MAX_SPLIT_NUM 64
> +//#define ARRAY_SIZE(a) (sizeof(a) / sizeof((a[0])))
> +
> +static const uint8_t map_ram[] = {
> + FIELD_ENUM(PDP_RDMA_D_SRC_RAM_CFG_0, SRC_RAM_TYPE, MC),
> + FIELD_ENUM(PDP_RDMA_D_SRC_RAM_CFG_0, SRC_RAM_TYPE, CV),
> +};
> +
> +static const uint8_t map_pool[] = {
> + FIELD_ENUM(PDP_D_OPERATION_MODE_CFG_0,
> + POOLING_METHOD, POOLING_METHOD_AVERAGE),
> + FIELD_ENUM(PDP_D_OPERATION_MODE_CFG_0,
> + POOLING_METHOD, POOLING_METHOD_MAX),
> + FIELD_ENUM(PDP_D_OPERATION_MODE_CFG_0,
> + POOLING_METHOD, POOLING_METHOD_MIN),
> +};
> +
> +static const uint8_t map_precision[] = {
> + FIELD_ENUM(PDP_D_DATA_FORMAT_0, INPUT_DATA, INT8),
> + FIELD_ENUM(PDP_D_DATA_FORMAT_0, INPUT_DATA, INT16),
> + FIELD_ENUM(PDP_D_DATA_FORMAT_0, INPUT_DATA, FP16),
> +};
> +
> +static const uint8_t map_pool_kernel[] = {
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_1),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_2),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_3),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_4),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_5),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_6),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_7),
> + FIELD_ENUM(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH, KERNEL_WIDTH_8),
> +};
> +
> +/* The reciprocal of kernel width: 1/1, 1/2, 1/3, ... */
> +static const uint32_t recip_kernel_size[2][8] = {
> + /*
> + * INT8/16
> + * 1 1/2 1/3 1/4 1/5 1/6 1/7 1/8
> + */
> + {0x10000, 0x8000, 0x5555, 0x4000, 0x3333, 0x2aaa, 0x2492, 0x2000},
> + {0x7c00, 0x7800, 0x7555, 0x7400, 0x7266, 0x7155, 0x7092, 0x7000},
> +};
> +
> +static uint32_t
> +get_fly_mode(uint8_t type)
> +{
> + uint32_t val;
> +
> + val = type == DLA_MEM_HW ?
> + FIELD_ENUM(PDP_D_OPERATION_MODE_CFG_0,
> + FLYING_MODE, ON_FLYING) :
> + FIELD_ENUM(PDP_D_OPERATION_MODE_CFG_0,
> + FLYING_MODE, OFF_FLYING);
> +
> + return val;
> +}
> +
> +void
> +dla_pdp_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id)
> +{
> + uint32_t reg;
> +
> + pr_debug("group id %d rdma id %d\n", group_id, rdma_group_id);
> +
> + reg = group_id << SHIFT(PDP_S_POINTER_0, PRODUCER);
> + pdp_reg_write(engine, S_POINTER, reg);
> +
> + reg = rdma_group_id << SHIFT(PDP_RDMA_S_POINTER_0, PRODUCER);
> + pdp_rdma_reg_write(engine, S_POINTER, reg);
> +}
> +
> +int
> +dla_pdp_enable(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + uint32_t reg;
> +
> + if (!group) {
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + pr_debug("rdma needed %u\n", group->is_rdma_needed);
> +
> + /**
> + * enable all sub-modules
> + */
> + if (group->is_rdma_needed) {
> + reg = FIELD_ENUM(PDP_RDMA_D_OP_ENABLE_0, OP_EN, ENABLE);
> + pdp_rdma_reg_write(engine, D_OP_ENABLE, reg);
> + }
> + reg = FIELD_ENUM(PDP_D_OP_ENABLE_0, OP_EN, ENABLE);
> + pdp_reg_write(engine, D_OP_ENABLE, reg);
> +
> +exit:
> + return ret;
> +}
> +
> +void
> +dla_pdp_rdma_check(struct dla_processor_group *group)
> +{
> + struct dla_pdp_surface_desc *pdp_surface;
> +
> + pdp_surface = &group->surface_desc->pdp_surface;
> +
> + group->is_rdma_needed = 0;
> +
> + if (pdp_surface->src_data.type != DLA_MEM_HW)
> + group->is_rdma_needed = 1;
> +}
> +
> +static int
> +validate_strides(uint8_t stride_x, uint8_t stride_y)
> +{
> + int32_t ret = 0;
> +
> + if (stride_x < 1 || stride_y < 1 || stride_x > 8 || stride_y > 8) {
> + pr_err("Invalid Stride (x[%d], y[%d])\n", stride_x, stride_y);
> + ret = -EINVAL;
> + }
> +
> + return ret;
> +}
> +
> +static int
> +vaildate_pdp_configs(struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + struct dla_pdp_op_desc *pdp_op;
> + struct dla_pdp_surface_desc *pdp_surface;
> +
> + pdp_op = &group->operation_desc->pdp_op;
> + pdp_surface = &group->surface_desc->pdp_surface;
> +
> + if (pdp_surface->dst_data.type == DLA_MEM_HW) {
> + pr_err("Destination buffer for PDP has to be either MC or CV");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + ret = validate_data_cube(pdp_surface->src_data, pdp_surface->dst_data,
> + DLA_MEM_HW);
> + if (ret)
> + goto exit;
> +
> + ret = validate_precision(pdp_op->precision, ARRAY_SIZE(map_precision));
> + if (ret)
> + goto exit;
> +
> + ret = validate_strides(pdp_op->stride_x, pdp_op->stride_y);
> + if (ret)
> + goto exit;
> +
> + if (pdp_op->split_num > MAX_SPLIT_NUM) {
> + pr_err("Invalid split_num: %u\n", pdp_op->split_num);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if (pdp_op->pool_width >= ARRAY_SIZE(map_pool_kernel)) {
> + pr_err("Invalid pool_width: %u\n", pdp_op->pool_width);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if (pdp_op->pool_height >= ARRAY_SIZE(map_pool_kernel)) {
> + pr_err("Invalid pool_height: %u\n", pdp_op->pool_height);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + if (pdp_op->pool_mode >= ARRAY_SIZE(map_pool)) {
> + pr_err("Invalid pool_mode: %u\n", pdp_op->pool_mode);
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> +exit:
> + return ret;
> +}
> +
> +static int
> +processor_pdp_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + uint32_t reg, high, low;
> + uint64_t input_address = 0;
> + uint64_t output_address = 0;
> + struct dla_pdp_op_desc *pdp_op;
> + struct dla_pdp_surface_desc *pdp_surface;
> +
> + pdp_op = &group->operation_desc->pdp_op;
> + pdp_surface = &group->surface_desc->pdp_surface;
> +
> + ret = vaildate_pdp_configs(group);
> + if (ret)
> + goto exit;
> +
> + ret = dla_read_input_address(engine, &pdp_surface->src_data,
> + &input_address,
> + group->op_desc->index,
> + group->roi_index,
> + 1);
> + if (ret)
> + goto exit;
> +
> + if (pdp_surface->dst_data.address != -1)
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + pdp_surface->dst_data.address,
> + pdp_surface->dst_data.offset,
> + (void *)&output_address,
> + DESTINATION_DMA);
> +
> + if (pdp_surface->src_data.type != DLA_MEM_HW) {
> + /* PDP RDMA */
> + pdp_rdma_reg_write(engine, D_DATA_CUBE_IN_WIDTH,
> + pdp_surface->src_data.width - 1);
> + pdp_rdma_reg_write(engine, D_DATA_CUBE_IN_HEIGHT,
> + pdp_surface->src_data.height - 1);
> + pdp_rdma_reg_write(engine, D_DATA_CUBE_IN_CHANNEL,
> + pdp_surface->src_data.channel - 1);
> +
> + high = upper_32_bits(input_address);
> + low = lower_32_bits(input_address);
> + pdp_rdma_reg_write(engine, D_SRC_BASE_ADDR_HIGH, high);
> + pdp_rdma_reg_write(engine, D_SRC_BASE_ADDR_LOW, low);
> + pdp_rdma_reg_write(engine, D_SRC_LINE_STRIDE,
> + pdp_surface->src_data.line_stride);
> + pdp_rdma_reg_write(engine, D_SRC_SURFACE_STRIDE,
> + pdp_surface->src_data.surf_stride);
> +
> + reg = (map_precision[pdp_op->precision]
> + << SHIFT(PDP_RDMA_D_DATA_FORMAT_0, INPUT_DATA));
> + pdp_rdma_reg_write(engine, D_DATA_FORMAT, reg);
> +
> + reg = map_ram[pdp_surface->src_data.type]
> + << SHIFT(PDP_RDMA_D_SRC_RAM_CFG_0, SRC_RAM_TYPE);
> + pdp_rdma_reg_write(engine, D_SRC_RAM_CFG, reg);
> +
> + reg = ((pdp_op->split_num - 1)
> + << SHIFT(PDP_RDMA_D_OPERATION_MODE_CFG_0, SPLIT_NUM));
> + pdp_rdma_reg_write(engine, D_OPERATION_MODE_CFG, reg);
> +
> + reg = (map_pool_kernel[pdp_op->pool_width]
> + << SHIFT(PDP_RDMA_D_POOLING_KERNEL_CFG_0,
> + KERNEL_WIDTH)) |
> + ((pdp_op->stride_x - 1)
> + << SHIFT(PDP_RDMA_D_POOLING_KERNEL_CFG_0,
> + KERNEL_STRIDE_WIDTH));
> + pdp_rdma_reg_write(engine, D_POOLING_KERNEL_CFG, reg);
> +
> + reg = (pdp_op->pad_left
> + << SHIFT(PDP_RDMA_D_POOLING_PADDING_CFG_0, PAD_WIDTH));
> + pdp_rdma_reg_write(engine, D_POOLING_PADDING_CFG, reg);
> +
> + reg = ((pdp_op->partial_in_width_first == 0 ? 0 :
> + pdp_op->partial_in_width_first - 1)
> + << SHIFT(PDP_RDMA_D_PARTIAL_WIDTH_IN_0,
> + PARTIAL_WIDTH_IN_FIRST)) |
> + ((pdp_op->partial_in_width_mid == 0 ? 0 :
> + pdp_op->partial_in_width_mid - 1)
> + << SHIFT(PDP_RDMA_D_PARTIAL_WIDTH_IN_0,
> + PARTIAL_WIDTH_IN_MID)) |
> + ((pdp_op->partial_in_width_last == 0 ? 0 :
> + pdp_op->partial_in_width_last - 1)
> + << SHIFT(PDP_RDMA_D_PARTIAL_WIDTH_IN_0,
> + PARTIAL_WIDTH_IN_LAST));
> + pdp_rdma_reg_write(engine, D_PARTIAL_WIDTH_IN, reg);
> + } else {
> + ASSERT_GOTO(pdp_op->split_num == 1, ret,
> + -EINVAL, exit);
> + }
> +
> + reg = ((pdp_surface->src_data.width - 1)
> + << SHIFT(PDP_D_DATA_CUBE_IN_WIDTH_0, CUBE_IN_WIDTH));
> + pdp_reg_write(engine, D_DATA_CUBE_IN_WIDTH, reg);
> +
> + reg = ((pdp_surface->src_data.height - 1)
> + << SHIFT(PDP_D_DATA_CUBE_IN_HEIGHT_0, CUBE_IN_HEIGHT));
> + pdp_reg_write(engine, D_DATA_CUBE_IN_HEIGHT, reg);
> +
> + reg = ((pdp_surface->src_data.channel - 1)
> + << SHIFT(PDP_D_DATA_CUBE_IN_CHANNEL_0, CUBE_IN_CHANNEL));
> + pdp_reg_write(engine, D_DATA_CUBE_IN_CHANNEL, reg);
> +
> + reg = ((pdp_surface->dst_data.width - 1)
> + << SHIFT(PDP_D_DATA_CUBE_OUT_WIDTH_0, CUBE_OUT_WIDTH));
> + pdp_reg_write(engine, D_DATA_CUBE_OUT_WIDTH, reg);
> +
> + reg = ((pdp_surface->dst_data.height - 1)
> + << SHIFT(PDP_D_DATA_CUBE_OUT_HEIGHT_0, CUBE_OUT_HEIGHT));
> + pdp_reg_write(engine, D_DATA_CUBE_OUT_HEIGHT, reg);
> +
> + reg = ((pdp_surface->dst_data.channel - 1)
> + << SHIFT(PDP_D_DATA_CUBE_OUT_CHANNEL_0, CUBE_OUT_CHANNEL));
> + pdp_reg_write(engine, D_DATA_CUBE_OUT_CHANNEL, reg);
> +
> + reg = (map_pool[pdp_op->pool_mode]
> + << SHIFT(PDP_D_OPERATION_MODE_CFG_0, POOLING_METHOD)) |
> + (get_fly_mode(pdp_surface->src_data.type)
> + << SHIFT(PDP_D_OPERATION_MODE_CFG_0, FLYING_MODE)) |
> + ((pdp_op->split_num - 1)
> + << SHIFT(PDP_D_OPERATION_MODE_CFG_0, SPLIT_NUM));
> + pdp_reg_write(engine, D_OPERATION_MODE_CFG, reg);
> +
> + reg = ((pdp_op->partial_in_width_first == 0 ? 0 :
> + pdp_op->partial_in_width_first-1)
> + << SHIFT(PDP_D_PARTIAL_WIDTH_IN_0, PARTIAL_WIDTH_IN_FIRST)) |
> + ((pdp_op->partial_in_width_mid == 0 ? 0 :
> + pdp_op->partial_in_width_mid-1)
> + << SHIFT(PDP_D_PARTIAL_WIDTH_IN_0, PARTIAL_WIDTH_IN_MID)) |
> + ((pdp_op->partial_in_width_last == 0 ? 0 :
> + pdp_op->partial_in_width_last-1)
> + << SHIFT(PDP_D_PARTIAL_WIDTH_IN_0, PARTIAL_WIDTH_IN_LAST));
> + pdp_reg_write(engine, D_PARTIAL_WIDTH_IN, reg);
> +
> + reg = ((pdp_op->partial_width_first == 0 ? 0 :
> + pdp_op->partial_width_first-1)
> + << SHIFT(PDP_D_PARTIAL_WIDTH_OUT_0, PARTIAL_WIDTH_OUT_FIRST)) |
> + ((pdp_op->partial_width_mid == 0 ? 0 :
> + pdp_op->partial_width_mid-1)
> + << SHIFT(PDP_D_PARTIAL_WIDTH_OUT_0, PARTIAL_WIDTH_OUT_MID)) |
> + ((pdp_op->partial_width_last == 0 ? 0 :
> + pdp_op->partial_width_last-1)
> + << SHIFT(PDP_D_PARTIAL_WIDTH_OUT_0, PARTIAL_WIDTH_OUT_LAST));
> + pdp_reg_write(engine, D_PARTIAL_WIDTH_OUT, reg);
> +
> + reg = (map_pool_kernel[pdp_op->pool_width]
> + << SHIFT(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_WIDTH)) |
> + (map_pool_kernel[pdp_op->pool_height]
> + << SHIFT(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_HEIGHT))|
> + ((pdp_op->stride_x - 1)
> + << SHIFT(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_STRIDE_WIDTH)) |
> + ((pdp_op->stride_y - 1)
> + << SHIFT(PDP_D_POOLING_KERNEL_CFG_0, KERNEL_STRIDE_HEIGHT));
> + pdp_reg_write(engine, D_POOLING_KERNEL_CFG, reg);
> +
> + pdp_reg_write(engine, D_RECIP_KERNEL_WIDTH,
> + recip_kernel_size[pdp_op->precision ==
> + PRECISION_FP16][pdp_op->pool_width]);
> + pdp_reg_write(engine, D_RECIP_KERNEL_HEIGHT,
> + recip_kernel_size[pdp_op->precision ==
> + PRECISION_FP16][pdp_op->pool_height]);
> +
> + reg = (pdp_op->pad_left
> + << SHIFT(PDP_D_POOLING_PADDING_CFG_0, PAD_LEFT)) |
> + (pdp_op->pad_right
> + << SHIFT(PDP_D_POOLING_PADDING_CFG_0, PAD_RIGHT)) |
> + (pdp_op->pad_top
> + << SHIFT(PDP_D_POOLING_PADDING_CFG_0, PAD_TOP)) |
> + (pdp_op->pad_bottom
> + << SHIFT(PDP_D_POOLING_PADDING_CFG_0, PAD_BOTTOM));
> + if (pdp_op->precision == PRECISION_FP16) {
> + int32_t i;
> +
> + for (i = 0; i < 7; i++)
> + ASSERT_GOTO(pdp_op->padding_value[i] == 0, ret,
> + -EINVAL, exit);
> + }
> +
> + pdp_reg_write(engine, D_POOLING_PADDING_CFG, reg);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_1_CFG, pdp_op->padding_value[0]);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_2_CFG, pdp_op->padding_value[1]);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_3_CFG, pdp_op->padding_value[2]);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_4_CFG, pdp_op->padding_value[3]);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_5_CFG, pdp_op->padding_value[4]);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_6_CFG, pdp_op->padding_value[5]);
> + pdp_reg_write(engine, D_POOLING_PADDING_VALUE_7_CFG, pdp_op->padding_value[6]);
> +
> + if (pdp_surface->src_data.type != DLA_MEM_HW) {
> + pdp_reg_write(engine, D_SRC_LINE_STRIDE,
> + pdp_surface->src_data.line_stride);
> + pdp_reg_write(engine, D_SRC_SURFACE_STRIDE,
> + pdp_surface->src_data.surf_stride);
> + }
> +
> + high = upper_32_bits(output_address);
> + low = lower_32_bits(output_address);
> + pdp_reg_write(engine, D_DST_BASE_ADDR_LOW, low);
> + pdp_reg_write(engine, D_DST_BASE_ADDR_HIGH, high);
> +
> + pdp_reg_write(engine, D_DST_LINE_STRIDE, pdp_surface->dst_data.line_stride);
> + pdp_reg_write(engine, D_DST_SURFACE_STRIDE, pdp_surface->dst_data.surf_stride);
> +
> + reg = (map_ram[pdp_surface->dst_data.type]
> + << SHIFT(PDP_D_DST_RAM_CFG_0, DST_RAM_TYPE));
> + pdp_reg_write(engine, D_DST_RAM_CFG, reg);
> +
> + reg = (map_precision[pdp_op->precision]
> + << SHIFT(PDP_D_DATA_FORMAT_0, INPUT_DATA));
> + pdp_reg_write(engine, D_DATA_FORMAT, reg);
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_pdp_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + return 1;
> +}
> +
> +void
> +dla_pdp_dump_config(struct dla_processor_group *group)
> +{
> + struct dla_pdp_op_desc *pdp_op;
> + struct dla_pdp_surface_desc *pdp_surface;
> +
> + pdp_surface = &group->surface_desc->pdp_surface;
> + pdp_op = &group->operation_desc->pdp_op;
> +}
> +
> +int
> +dla_pdp_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret;
> +
> + if (!group) {
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + dla_enable_intr(engine, MASK(GLB_S_INTR_MASK_0, PDP_DONE_MASK1) |
> + MASK(GLB_S_INTR_MASK_0, PDP_DONE_MASK0));
> +
> + ret = processor_pdp_program(engine, group);
> + if (ret)
> + goto exit;
> +
> +exit:
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_reg.h b/drivers/gpu/drm/nvdla/nvdla_reg.h
> new file mode 100644
> index 000000000000..5ca2897405bc
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_reg.h
> @@ -0,0 +1,6411 @@
> +/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION.
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#ifndef __NVDLA_REG_H_
> +#define __NVDLA_REG_H_
> +
> +// Register NVDLA_CFGROM_CFGROM_HW_VERSION_0
> +#define NVDLA_CFGROM_CFGROM_HW_VERSION_0 _MK_ADDR_CONST(0x0)
> +#define NVDLA_CFGROM_CFGROM_HW_VERSION_0_HW_VERSION_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_HW_VERSION_0_HW_VERSION_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_HW_VERSION_0_HW_VERSION_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_GLB_DESC_0
> +#define NVDLA_CFGROM_CFGROM_GLB_DESC_0 _MK_ADDR_CONST(0x4)
> +#define NVDLA_CFGROM_CFGROM_GLB_DESC_0_GLB_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_GLB_DESC_0_GLB_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_GLB_DESC_0_GLB_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CIF_DESC_0 _MK_ADDR_CONST(0x8)
> +#define NVDLA_CFGROM_CFGROM_CIF_DESC_0_CIF_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CIF_DESC_0_CIF_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CIF_DESC_0_CIF_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CIF_CAP_INCOMPAT_0 _MK_ADDR_CONST(0xc)
> +#define NVDLA_CFGROM_CFGROM_CIF_CAP_INCOMPAT_0_CIF_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CIF_CAP_INCOMPAT_0_CIF_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CIF_CAP_INCOMPAT_0_CIF_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CIF_CAP_COMPAT_0 _MK_ADDR_CONST(0x10)
> +#define NVDLA_CFGROM_CFGROM_CIF_CAP_COMPAT_0_CIF_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CIF_CAP_COMPAT_0_CIF_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CIF_CAP_COMPAT_0_CIF_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_BASE_WIDTH_0
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_WIDTH_0 _MK_ADDR_CONST(0x14)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_WIDTH_0_CIF_BASE_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_WIDTH_0_CIF_BASE_WIDTH_FIELD _MK_FIELD_CONST(0xff, NVDLA_CFGROM_CFGROM_CIF_BASE_WIDTH_0_CIF_BASE_WIDTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_BASE_LATENCY_0
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_LATENCY_0 _MK_ADDR_CONST(0x18)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_LATENCY_0_CIF_BASE_LATENCY_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_LATENCY_0_CIF_BASE_LATENCY_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CIF_BASE_LATENCY_0_CIF_BASE_LATENCY_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_BASE_BURST_LENGTH_MAX_0
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_BURST_LENGTH_MAX_0 _MK_ADDR_CONST(0x1c)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_BURST_LENGTH_MAX_0_BASE_BURST_LENGTH_MAX_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_BURST_LENGTH_MAX_0_BASE_BURST_LENGTH_MAX_FIELD _MK_FIELD_CONST(0x7ffffff, NVDLA_CFGROM_CFGROM_CIF_BASE_BURST_LENGTH_MAX_0_BASE_BURST_LENGTH_MAX_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CIF_BASE_MEM_ADDR_WIDTH_0
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_MEM_ADDR_WIDTH_0 _MK_ADDR_CONST(0x20)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_MEM_ADDR_WIDTH_0_CIF_BASE_MEM_ADDR_WIDTH_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_CFGROM_CFGROM_CIF_BASE_MEM_ADDR_WIDTH_0_CIF_BASE_MEM_ADDR_WIDTH_FIELD _MK_FIELD_CONST(0x7ffffff, NVDLA_CFGROM_CFGROM_CIF_BASE_MEM_ADDR_WIDTH_0_CIF_BASE_MEM_ADDR_WIDTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_DESC_0 _MK_ADDR_CONST(0x24)
> +#define NVDLA_CFGROM_CFGROM_CDMA_DESC_0_CDMA_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_DESC_0_CDMA_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_DESC_0_CDMA_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x28)
> +#define NVDLA_CFGROM_CFGROM_CDMA_CAP_INCOMPAT_0_CDMA_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_CAP_INCOMPAT_0_CDMA_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_CAP_INCOMPAT_0_CDMA_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_CAP_COMPAT_0 _MK_ADDR_CONST(0x2c)
> +#define NVDLA_CFGROM_CFGROM_CDMA_CAP_COMPAT_0_CDMA_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_CAP_COMPAT_0_CDMA_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_CAP_COMPAT_0_CDMA_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0x30)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_FEATURE_TYPES_0_CDMA_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_FEATURE_TYPES_0_CDMA_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CDMA_BASE_FEATURE_TYPES_0_CDMA_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_WEIGHT_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_WEIGHT_TYPES_0 _MK_ADDR_CONST(0x34)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_WEIGHT_TYPES_0_CDMA_BASE_WEIGHT_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_WEIGHT_TYPES_0_CDMA_BASE_WEIGHT_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CDMA_BASE_WEIGHT_TYPES_0_CDMA_BASE_WEIGHT_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_C_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_C_0 _MK_ADDR_CONST(0x38)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_C_0_CDMA_BASE_ATOMIC_C_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_C_0_CDMA_BASE_ATOMIC_C_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_C_0_CDMA_BASE_ATOMIC_C_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_K_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_K_0 _MK_ADDR_CONST(0x3c)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_K_0_CDMA_BASE_ATOMIC_K_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_K_0_CDMA_BASE_ATOMIC_K_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_K_0_CDMA_BASE_ATOMIC_K_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_M_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_M_0 _MK_ADDR_CONST(0x40)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_M_0_CDMA_BASE_ATOMIC_M_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_M_0_CDMA_BASE_ATOMIC_M_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_BASE_ATOMIC_M_0_CDMA_BASE_ATOMIC_M_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_NUM_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_NUM_0 _MK_ADDR_CONST(0x44)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_NUM_0_CDMA_BASE_CBUF_BANK_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_NUM_0_CDMA_BASE_CBUF_BANK_NUM_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_NUM_0_CDMA_BASE_CBUF_BANK_NUM_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_WIDTH_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_WIDTH_0 _MK_ADDR_CONST(0x48)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_WIDTH_0_CDMA_BASE_CBUF_BANK_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_WIDTH_0_CDMA_BASE_CBUF_BANK_WIDTH_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_WIDTH_0_CDMA_BASE_CBUF_BANK_WIDTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_DEPTH_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_DEPTH_0 _MK_ADDR_CONST(0x4c)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_DEPTH_0_CDMA_BASE_CBUF_BANK_DEPTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_DEPTH_0_CDMA_BASE_CBUF_BANK_DEPTH_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_BASE_CBUF_BANK_DEPTH_0_CDMA_BASE_CBUF_BANK_DEPTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_MULTI_BATCH_MAX_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_MULTI_BATCH_MAX_0 _MK_ADDR_CONST(0x50)
> +#define NVDLA_CFGROM_CFGROM_CDMA_MULTI_BATCH_MAX_0_CDMA_MULTI_BATCH_MAX_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_MULTI_BATCH_MAX_0_CDMA_MULTI_BATCH_MAX_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_MULTI_BATCH_MAX_0_CDMA_MULTI_BATCH_MAX_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_PACKED_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_PACKED_0 _MK_ADDR_CONST(0x54)
> +#define NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_PACKED_0_CDMA_IMAGE_IN_FORMATS_PACKED_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_PACKED_0_CDMA_IMAGE_IN_FORMATS_PACKED_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_PACKED_0_CDMA_IMAGE_IN_FORMATS_PACKED_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_SEMI_0
> +#define NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_SEMI_0 _MK_ADDR_CONST(0x58)
> +#define NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_SEMI_0_CDMA_IMAGE_IN_FORMATS_SEMI_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_SEMI_0_CDMA_IMAGE_IN_FORMATS_SEMI_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDMA_IMAGE_IN_FORMATS_SEMI_0_CDMA_IMAGE_IN_FORMATS_SEMI_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_DESC_0 _MK_ADDR_CONST(0x5c)
> +#define NVDLA_CFGROM_CFGROM_CBUF_DESC_0_CBUF_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_DESC_0_CBUF_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_DESC_0_CBUF_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x60)
> +#define NVDLA_CFGROM_CFGROM_CBUF_CAP_INCOMPAT_0_CBUF_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_CAP_INCOMPAT_0_CBUF_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_CAP_INCOMPAT_0_CBUF_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_CAP_COMPAT_0 _MK_ADDR_CONST(0x64)
> +#define NVDLA_CFGROM_CFGROM_CBUF_CAP_COMPAT_0_CBUF_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_CAP_COMPAT_0_CBUF_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_CAP_COMPAT_0_CBUF_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_NUM_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_NUM_0 _MK_ADDR_CONST(0x68)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_NUM_0_CBUF_BASE_CBUF_BANK_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_NUM_0_CBUF_BASE_CBUF_BANK_NUM_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_NUM_0_CBUF_BASE_CBUF_BANK_NUM_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_WIDTH_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_WIDTH_0 _MK_ADDR_CONST(0x6c)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_WIDTH_0_CBUF_BASE_CBUF_BANK_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_WIDTH_0_CBUF_BASE_CBUF_BANK_WIDTH_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_WIDTH_0_CBUF_BASE_CBUF_BANK_WIDTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_DEPTH_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_DEPTH_0 _MK_ADDR_CONST(0x70)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_DEPTH_0_CBUF_BASE_CBUF_BANK_DEPTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_DEPTH_0_CBUF_BASE_CBUF_BANK_DEPTH_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_BASE_CBUF_BANK_DEPTH_0_CBUF_BASE_CBUF_BANK_DEPTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CBUF_BASE_CDMA_ID_0
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CDMA_ID_0 _MK_ADDR_CONST(0x74)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CDMA_ID_0_CBUF_BASE_CDMA_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CBUF_BASE_CDMA_ID_0_CBUF_BASE_CDMA_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CBUF_BASE_CDMA_ID_0_CBUF_BASE_CDMA_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CSC_DESC_0 _MK_ADDR_CONST(0x78)
> +#define NVDLA_CFGROM_CFGROM_CSC_DESC_0_CSC_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_DESC_0_CSC_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_DESC_0_CSC_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CSC_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x7c)
> +#define NVDLA_CFGROM_CFGROM_CSC_CAP_INCOMPAT_0_CSC_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_CAP_INCOMPAT_0_CSC_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_CAP_INCOMPAT_0_CSC_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CSC_CAP_COMPAT_0 _MK_ADDR_CONST(0x80)
> +#define NVDLA_CFGROM_CFGROM_CSC_CAP_COMPAT_0_CSC_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_CAP_COMPAT_0_CSC_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_CAP_COMPAT_0_CSC_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0x84)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_FEATURE_TYPES_0_CSC_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_FEATURE_TYPES_0_CSC_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CSC_BASE_FEATURE_TYPES_0_CSC_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_WEIGHT_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_WEIGHT_TYPES_0 _MK_ADDR_CONST(0x88)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_WEIGHT_TYPES_0_CSC_BASE_WEIGHT_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_WEIGHT_TYPES_0_CSC_BASE_WEIGHT_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CSC_BASE_WEIGHT_TYPES_0_CSC_BASE_WEIGHT_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_C_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_C_0 _MK_ADDR_CONST(0x8c)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_C_0_CSC_BASE_ATOMIC_C_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_C_0_CSC_BASE_ATOMIC_C_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_C_0_CSC_BASE_ATOMIC_C_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_K_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_K_0 _MK_ADDR_CONST(0x90)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_K_0_CSC_BASE_ATOMIC_K_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_K_0_CSC_BASE_ATOMIC_K_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_K_0_CSC_BASE_ATOMIC_K_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_M_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_M_0 _MK_ADDR_CONST(0x94)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_M_0_CSC_BASE_ATOMIC_M_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_M_0_CSC_BASE_ATOMIC_M_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_ATOMIC_M_0_CSC_BASE_ATOMIC_M_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_NUM_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_NUM_0 _MK_ADDR_CONST(0x98)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_NUM_0_CSC_BASE_CBUF_BANK_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_NUM_0_CSC_BASE_CBUF_BANK_NUM_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_NUM_0_CSC_BASE_CBUF_BANK_NUM_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_WIDTH_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_WIDTH_0 _MK_ADDR_CONST(0x9c)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_WIDTH_0_CSC_BASE_CBUF_BANK_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_WIDTH_0_CSC_BASE_CBUF_BANK_WIDTH_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_WIDTH_0_CSC_BASE_CBUF_BANK_WIDTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_DEPTH_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_DEPTH_0 _MK_ADDR_CONST(0xa0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_DEPTH_0_CSC_BASE_CBUF_BANK_DEPTH_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_DEPTH_0_CSC_BASE_CBUF_BANK_DEPTH_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_CBUF_BANK_DEPTH_0_CSC_BASE_CBUF_BANK_DEPTH_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_BASE_CDMA_ID_0
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CDMA_ID_0 _MK_ADDR_CONST(0xa4)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CDMA_ID_0_CSC_BASE_CDMA_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_BASE_CDMA_ID_0_CSC_BASE_CDMA_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_BASE_CDMA_ID_0_CSC_BASE_CDMA_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CSC_MULTI_BATCH_MAX_0
> +#define NVDLA_CFGROM_CFGROM_CSC_MULTI_BATCH_MAX_0 _MK_ADDR_CONST(0xa8)
> +#define NVDLA_CFGROM_CFGROM_CSC_MULTI_BATCH_MAX_0_CSC_MULTI_BATCH_MAX_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CSC_MULTI_BATCH_MAX_0_CSC_MULTI_BATCH_MAX_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CSC_MULTI_BATCH_MAX_0_CSC_MULTI_BATCH_MAX_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_DESC_0 _MK_ADDR_CONST(0xac)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_DESC_0_CMAC_A_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_DESC_0_CMAC_A_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_A_DESC_0_CMAC_A_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_CAP_INCOMPAT_0 _MK_ADDR_CONST(0xb0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_CAP_INCOMPAT_0_CMAC_A_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_CAP_INCOMPAT_0_CMAC_A_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_A_CAP_INCOMPAT_0_CMAC_A_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_CAP_COMPAT_0 _MK_ADDR_CONST(0xb4)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_CAP_COMPAT_0_CMAC_A_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_CAP_COMPAT_0_CMAC_A_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_A_CAP_COMPAT_0_CMAC_A_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0xb8)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_FEATURE_TYPES_0_CMAC_A_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_FEATURE_TYPES_0_CMAC_A_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CMAC_A_BASE_FEATURE_TYPES_0_CMAC_A_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_BASE_WEIGHT_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_WEIGHT_TYPES_0 _MK_ADDR_CONST(0xbc)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_WEIGHT_TYPES_0_CMAC_A_BASE_WEIGHT_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_WEIGHT_TYPES_0_CMAC_A_BASE_WEIGHT_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CMAC_A_BASE_WEIGHT_TYPES_0_CMAC_A_BASE_WEIGHT_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_C_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_C_0 _MK_ADDR_CONST(0xc0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_C_0_CMAC_A_BASE_ATOMIC_C_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_C_0_CMAC_A_BASE_ATOMIC_C_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_C_0_CMAC_A_BASE_ATOMIC_C_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_K_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_K_0 _MK_ADDR_CONST(0xc4)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_K_0_CMAC_A_BASE_ATOMIC_K_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_K_0_CMAC_A_BASE_ATOMIC_K_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_A_BASE_ATOMIC_K_0_CMAC_A_BASE_ATOMIC_K_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_A_BASE_CDMA_ID_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_CDMA_ID_0 _MK_ADDR_CONST(0xc8)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_CDMA_ID_0_CMAC_A_BASE_CDMA_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_A_BASE_CDMA_ID_0_CMAC_A_BASE_CDMA_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_A_BASE_CDMA_ID_0_CMAC_A_BASE_CDMA_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_DESC_0 _MK_ADDR_CONST(0xcc)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_DESC_0_CMAC_B_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_DESC_0_CMAC_B_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_B_DESC_0_CMAC_B_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_CAP_INCOMPAT_0 _MK_ADDR_CONST(0xd0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_CAP_INCOMPAT_0_CMAC_B_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_CAP_INCOMPAT_0_CMAC_B_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_B_CAP_INCOMPAT_0_CMAC_B_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_CAP_COMPAT_0 _MK_ADDR_CONST(0xd4)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_CAP_COMPAT_0_CMAC_B_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_CAP_COMPAT_0_CMAC_B_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_B_CAP_COMPAT_0_CMAC_B_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0xd8)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_FEATURE_TYPES_0_CMAC_B_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_FEATURE_TYPES_0_CMAC_B_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CMAC_B_BASE_FEATURE_TYPES_0_CMAC_B_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_BASE_WEIGHT_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_WEIGHT_TYPES_0 _MK_ADDR_CONST(0xdc)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_WEIGHT_TYPES_0_CMAC_B_BASE_WEIGHT_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_WEIGHT_TYPES_0_CMAC_B_BASE_WEIGHT_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CMAC_B_BASE_WEIGHT_TYPES_0_CMAC_B_BASE_WEIGHT_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_C_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_C_0 _MK_ADDR_CONST(0xe0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_C_0_CMAC_B_BASE_ATOMIC_C_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_C_0_CMAC_B_BASE_ATOMIC_C_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_C_0_CMAC_B_BASE_ATOMIC_C_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_K_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_K_0 _MK_ADDR_CONST(0xe4)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_K_0_CMAC_B_BASE_ATOMIC_K_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_K_0_CMAC_B_BASE_ATOMIC_K_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_B_BASE_ATOMIC_K_0_CMAC_B_BASE_ATOMIC_K_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CMAC_B_BASE_CDMA_ID_0
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_CDMA_ID_0 _MK_ADDR_CONST(0xe8)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_CDMA_ID_0_CMAC_B_BASE_CDMA_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CMAC_B_BASE_CDMA_ID_0_CMAC_B_BASE_CDMA_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CMAC_B_BASE_CDMA_ID_0_CMAC_B_BASE_CDMA_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CACC_DESC_0 _MK_ADDR_CONST(0xec)
> +#define NVDLA_CFGROM_CFGROM_CACC_DESC_0_CACC_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_DESC_0_CACC_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_DESC_0_CACC_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CACC_CAP_INCOMPAT_0 _MK_ADDR_CONST(0xf0)
> +#define NVDLA_CFGROM_CFGROM_CACC_CAP_INCOMPAT_0_CACC_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_CAP_INCOMPAT_0_CACC_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_CAP_INCOMPAT_0_CACC_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CACC_CAP_COMPAT_0 _MK_ADDR_CONST(0xf4)
> +#define NVDLA_CFGROM_CFGROM_CACC_CAP_COMPAT_0_CACC_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_CAP_COMPAT_0_CACC_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_CAP_COMPAT_0_CACC_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0xf8)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_FEATURE_TYPES_0_CACC_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_FEATURE_TYPES_0_CACC_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CACC_BASE_FEATURE_TYPES_0_CACC_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_BASE_WEIGHT_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_WEIGHT_TYPES_0 _MK_ADDR_CONST(0xfc)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_WEIGHT_TYPES_0_CACC_BASE_WEIGHT_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_WEIGHT_TYPES_0_CACC_BASE_WEIGHT_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CACC_BASE_WEIGHT_TYPES_0_CACC_BASE_WEIGHT_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_C_0
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_C_0 _MK_ADDR_CONST(0x100)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_C_0_CACC_BASE_ATOMIC_C_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_C_0_CACC_BASE_ATOMIC_C_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_C_0_CACC_BASE_ATOMIC_C_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_K_0
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_K_0 _MK_ADDR_CONST(0x104)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_K_0_CACC_BASE_ATOMIC_K_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_K_0_CACC_BASE_ATOMIC_K_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_BASE_ATOMIC_K_0_CACC_BASE_ATOMIC_K_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_BASE_CDMA_ID_0
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_CDMA_ID_0 _MK_ADDR_CONST(0x108)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_CDMA_ID_0_CACC_BASE_CDMA_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_BASE_CDMA_ID_0_CACC_BASE_CDMA_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_BASE_CDMA_ID_0_CACC_BASE_CDMA_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CACC_MULTI_BATCH_MAX_0
> +#define NVDLA_CFGROM_CFGROM_CACC_MULTI_BATCH_MAX_0 _MK_ADDR_CONST(0x10c)
> +#define NVDLA_CFGROM_CFGROM_CACC_MULTI_BATCH_MAX_0_CACC_MULTI_BATCH_MAX_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CACC_MULTI_BATCH_MAX_0_CACC_MULTI_BATCH_MAX_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CACC_MULTI_BATCH_MAX_0_CACC_MULTI_BATCH_MAX_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_RDMA_DESC_0
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_DESC_0 _MK_ADDR_CONST(0x110)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_DESC_0_SDP_RDMA_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_DESC_0_SDP_RDMA_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_RDMA_DESC_0_SDP_RDMA_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x114)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_INCOMPAT_0_SDP_RDMA_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_INCOMPAT_0_SDP_RDMA_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_INCOMPAT_0_SDP_RDMA_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_COMPAT_0 _MK_ADDR_CONST(0x118)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_COMPAT_0_SDP_RDMA_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_COMPAT_0_SDP_RDMA_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_RDMA_CAP_COMPAT_0_SDP_RDMA_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_ATOMIC_M_0
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_ATOMIC_M_0 _MK_ADDR_CONST(0x11c)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_ATOMIC_M_0_SDP_RDMA_BASE_ATOMIC_M_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_ATOMIC_M_0_SDP_RDMA_BASE_ATOMIC_M_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_ATOMIC_M_0_SDP_RDMA_BASE_ATOMIC_M_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_SDP_ID_0
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_SDP_ID_0 _MK_ADDR_CONST(0x120)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_SDP_ID_0_SDP_RDMA_BASE_SDP_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_SDP_ID_0_SDP_RDMA_BASE_SDP_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_RDMA_BASE_SDP_ID_0_SDP_RDMA_BASE_SDP_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_DESC_0
> +#define NVDLA_CFGROM_CFGROM_SDP_DESC_0 _MK_ADDR_CONST(0x124)
> +#define NVDLA_CFGROM_CFGROM_SDP_DESC_0_SDP_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_DESC_0_SDP_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_DESC_0_SDP_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x128)
> +#define NVDLA_CFGROM_CFGROM_SDP_CAP_INCOMPAT_0_SDP_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_CAP_INCOMPAT_0_SDP_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_CAP_INCOMPAT_0_SDP_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_CAP_COMPAT_0 _MK_ADDR_CONST(0x12c)
> +#define NVDLA_CFGROM_CFGROM_SDP_CAP_COMPAT_0_SDP_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_CAP_COMPAT_0_SDP_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_CAP_COMPAT_0_SDP_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0x130)
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_FEATURE_TYPES_0_SDP_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_FEATURE_TYPES_0_SDP_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_SDP_BASE_FEATURE_TYPES_0_SDP_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_BASE_WEIGHT_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_WEIGHT_TYPES_0 _MK_ADDR_CONST(0x134)
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_WEIGHT_TYPES_0_SDP_BASE_WEIGHT_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_WEIGHT_TYPES_0_SDP_BASE_WEIGHT_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_SDP_BASE_WEIGHT_TYPES_0_SDP_BASE_WEIGHT_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_BASE_CDMA_ID_0
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_CDMA_ID_0 _MK_ADDR_CONST(0x138)
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_CDMA_ID_0_SDP_BASE_CDMA_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_BASE_CDMA_ID_0_SDP_BASE_CDMA_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_BASE_CDMA_ID_0_SDP_BASE_CDMA_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_MULTI_BATCH_MAX_0
> +#define NVDLA_CFGROM_CFGROM_SDP_MULTI_BATCH_MAX_0 _MK_ADDR_CONST(0x13c)
> +#define NVDLA_CFGROM_CFGROM_SDP_MULTI_BATCH_MAX_0_SDP_MULTI_BATCH_MAX_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_MULTI_BATCH_MAX_0_SDP_MULTI_BATCH_MAX_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_MULTI_BATCH_MAX_0_SDP_MULTI_BATCH_MAX_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_BS_THROUGHPUT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_BS_THROUGHPUT_0 _MK_ADDR_CONST(0x140)
> +#define NVDLA_CFGROM_CFGROM_SDP_BS_THROUGHPUT_0_SDP_BS_THROUGHPUT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_BS_THROUGHPUT_0_SDP_BS_THROUGHPUT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_BS_THROUGHPUT_0_SDP_BS_THROUGHPUT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_BN_THROUGHPUT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_BN_THROUGHPUT_0 _MK_ADDR_CONST(0x144)
> +#define NVDLA_CFGROM_CFGROM_SDP_BN_THROUGHPUT_0_SDP_BN_THROUGHPUT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_BN_THROUGHPUT_0_SDP_BN_THROUGHPUT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_BN_THROUGHPUT_0_SDP_BN_THROUGHPUT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_SDP_EW_THROUGHPUT_0
> +#define NVDLA_CFGROM_CFGROM_SDP_EW_THROUGHPUT_0 _MK_ADDR_CONST(0x148)
> +#define NVDLA_CFGROM_CFGROM_SDP_EW_THROUGHPUT_0_SDP_EW_THROUGHPUT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_SDP_EW_THROUGHPUT_0_SDP_EW_THROUGHPUT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_SDP_EW_THROUGHPUT_0_SDP_EW_THROUGHPUT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_RDMA_DESC_0
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_DESC_0 _MK_ADDR_CONST(0x14c)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_DESC_0_PDP_RDMA_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_DESC_0_PDP_RDMA_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_RDMA_DESC_0_PDP_RDMA_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x150)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_INCOMPAT_0_PDP_RDMA_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_INCOMPAT_0_PDP_RDMA_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_INCOMPAT_0_PDP_RDMA_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_COMPAT_0 _MK_ADDR_CONST(0x154)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_COMPAT_0_PDP_RDMA_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_COMPAT_0_PDP_RDMA_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_RDMA_CAP_COMPAT_0_PDP_RDMA_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_ATOMIC_M_0
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_ATOMIC_M_0 _MK_ADDR_CONST(0x158)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_ATOMIC_M_0_PDP_RDMA_BASE_ATOMIC_M_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_ATOMIC_M_0_PDP_RDMA_BASE_ATOMIC_M_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_ATOMIC_M_0_PDP_RDMA_BASE_ATOMIC_M_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_PDP_ID_0
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_PDP_ID_0 _MK_ADDR_CONST(0x15c)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_PDP_ID_0_PDP_RDMA_BASE_PDP_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_PDP_ID_0_PDP_RDMA_BASE_PDP_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_RDMA_BASE_PDP_ID_0_PDP_RDMA_BASE_PDP_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_DESC_0
> +#define NVDLA_CFGROM_CFGROM_PDP_DESC_0 _MK_ADDR_CONST(0x160)
> +#define NVDLA_CFGROM_CFGROM_PDP_DESC_0_PDP_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_DESC_0_PDP_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_DESC_0_PDP_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_PDP_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x164)
> +#define NVDLA_CFGROM_CFGROM_PDP_CAP_INCOMPAT_0_PDP_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_CAP_INCOMPAT_0_PDP_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_CAP_INCOMPAT_0_PDP_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_PDP_CAP_COMPAT_0 _MK_ADDR_CONST(0x168)
> +#define NVDLA_CFGROM_CFGROM_PDP_CAP_COMPAT_0_PDP_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_CAP_COMPAT_0_PDP_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_CAP_COMPAT_0_PDP_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_PDP_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0x16c)
> +#define NVDLA_CFGROM_CFGROM_PDP_BASE_FEATURE_TYPES_0_PDP_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_BASE_FEATURE_TYPES_0_PDP_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_PDP_BASE_FEATURE_TYPES_0_PDP_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_PDP_BASE_THROUGHPUT_0
> +#define NVDLA_CFGROM_CFGROM_PDP_BASE_THROUGHPUT_0 _MK_ADDR_CONST(0x170)
> +#define NVDLA_CFGROM_CFGROM_PDP_BASE_THROUGHPUT_0_PDP_BASE_THROUGHPUT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_PDP_BASE_THROUGHPUT_0_PDP_BASE_THROUGHPUT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_PDP_BASE_THROUGHPUT_0_PDP_BASE_THROUGHPUT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_RDMA_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_DESC_0 _MK_ADDR_CONST(0x174)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_DESC_0_CDP_RDMA_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_DESC_0_CDP_RDMA_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_RDMA_DESC_0_CDP_RDMA_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x178)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_INCOMPAT_0_CDP_RDMA_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_INCOMPAT_0_CDP_RDMA_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_INCOMPAT_0_CDP_RDMA_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_COMPAT_0 _MK_ADDR_CONST(0x17c)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_COMPAT_0_CDP_RDMA_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_COMPAT_0_CDP_RDMA_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_RDMA_CAP_COMPAT_0_CDP_RDMA_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_ATOMIC_M_0
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_ATOMIC_M_0 _MK_ADDR_CONST(0x180)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_ATOMIC_M_0_CDP_RDMA_BASE_ATOMIC_M_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_ATOMIC_M_0_CDP_RDMA_BASE_ATOMIC_M_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_ATOMIC_M_0_CDP_RDMA_BASE_ATOMIC_M_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_CDP_ID_0
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_CDP_ID_0 _MK_ADDR_CONST(0x184)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_CDP_ID_0_CDP_RDMA_BASE_CDP_ID_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_CDP_ID_0_CDP_RDMA_BASE_CDP_ID_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_RDMA_BASE_CDP_ID_0_CDP_RDMA_BASE_CDP_ID_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_DESC_0
> +#define NVDLA_CFGROM_CFGROM_CDP_DESC_0 _MK_ADDR_CONST(0x188)
> +#define NVDLA_CFGROM_CFGROM_CDP_DESC_0_CDP_DESC_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_DESC_0_CDP_DESC_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_DESC_0_CDP_DESC_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_CAP_INCOMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CDP_CAP_INCOMPAT_0 _MK_ADDR_CONST(0x18c)
> +#define NVDLA_CFGROM_CFGROM_CDP_CAP_INCOMPAT_0_CDP_CAP_INCOMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_CAP_INCOMPAT_0_CDP_CAP_INCOMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_CAP_INCOMPAT_0_CDP_CAP_INCOMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_CAP_COMPAT_0
> +#define NVDLA_CFGROM_CFGROM_CDP_CAP_COMPAT_0 _MK_ADDR_CONST(0x190)
> +#define NVDLA_CFGROM_CFGROM_CDP_CAP_COMPAT_0_CDP_CAP_COMPAT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_CAP_COMPAT_0_CDP_CAP_COMPAT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_CAP_COMPAT_0_CDP_CAP_COMPAT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_BASE_FEATURE_TYPES_0
> +#define NVDLA_CFGROM_CFGROM_CDP_BASE_FEATURE_TYPES_0 _MK_ADDR_CONST(0x194)
> +#define NVDLA_CFGROM_CFGROM_CDP_BASE_FEATURE_TYPES_0_CDP_BASE_FEATURE_TYPES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_BASE_FEATURE_TYPES_0_CDP_BASE_FEATURE_TYPES_FIELD _MK_FIELD_CONST(0xfff, NVDLA_CFGROM_CFGROM_CDP_BASE_FEATURE_TYPES_0_CDP_BASE_FEATURE_TYPES_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_CDP_BASE_THROUGHPUT_0
> +#define NVDLA_CFGROM_CFGROM_CDP_BASE_THROUGHPUT_0 _MK_ADDR_CONST(0x198)
> +#define NVDLA_CFGROM_CFGROM_CDP_BASE_THROUGHPUT_0_CDP_BASE_THROUGHPUT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_CDP_BASE_THROUGHPUT_0_CDP_BASE_THROUGHPUT_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_CDP_BASE_THROUGHPUT_0_CDP_BASE_THROUGHPUT_SHIFT)
> +
> +
> +// Register NVDLA_CFGROM_CFGROM_END_OF_LIST_0
> +#define NVDLA_CFGROM_CFGROM_END_OF_LIST_0 _MK_ADDR_CONST(0x19c)
> +#define NVDLA_CFGROM_CFGROM_END_OF_LIST_0_END_OF_LIST_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CFGROM_CFGROM_END_OF_LIST_0_END_OF_LIST_FIELD _MK_FIELD_CONST(0xffffffff, NVDLA_CFGROM_CFGROM_END_OF_LIST_0_END_OF_LIST_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register GLB_S_NVDLA_HW_VERSION_0
> +#define GLB_S_NVDLA_HW_VERSION_0 _MK_ADDR_CONST(0x1000)
> +#define GLB_S_NVDLA_HW_VERSION_0_MAJOR_SHIFT _MK_SHIFT_CONST(0)
> +#define GLB_S_NVDLA_HW_VERSION_0_MAJOR_FIELD _MK_FIELD_CONST(0xff, GLB_S_NVDLA_HW_VERSION_0_MAJOR_SHIFT)
> +#define GLB_S_NVDLA_HW_VERSION_0_MINOR_SHIFT _MK_SHIFT_CONST(8)
> +#define GLB_S_NVDLA_HW_VERSION_0_MINOR_FIELD _MK_FIELD_CONST(0xffff, GLB_S_NVDLA_HW_VERSION_0_MINOR_SHIFT)
> +
> +
> +// Register GLB_S_INTR_MASK_0
> +#define GLB_S_INTR_MASK_0 _MK_ADDR_CONST(0x1004)
> +#define GLB_S_INTR_MASK_0_SDP_DONE_MASK0_SHIFT _MK_SHIFT_CONST(0)
> +#define GLB_S_INTR_MASK_0_SDP_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_SDP_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_SDP_DONE_MASK1_SHIFT _MK_SHIFT_CONST(1)
> +#define GLB_S_INTR_MASK_0_SDP_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_SDP_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_CDP_DONE_MASK0_SHIFT _MK_SHIFT_CONST(2)
> +#define GLB_S_INTR_MASK_0_CDP_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CDP_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_CDP_DONE_MASK1_SHIFT _MK_SHIFT_CONST(3)
> +#define GLB_S_INTR_MASK_0_CDP_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CDP_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_PDP_DONE_MASK0_SHIFT _MK_SHIFT_CONST(4)
> +#define GLB_S_INTR_MASK_0_PDP_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_PDP_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_PDP_DONE_MASK1_SHIFT _MK_SHIFT_CONST(5)
> +#define GLB_S_INTR_MASK_0_PDP_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_PDP_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_BDMA_DONE_MASK0_SHIFT _MK_SHIFT_CONST(6)
> +#define GLB_S_INTR_MASK_0_BDMA_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_BDMA_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_BDMA_DONE_MASK1_SHIFT _MK_SHIFT_CONST(7)
> +#define GLB_S_INTR_MASK_0_BDMA_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_BDMA_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_RUBIK_DONE_MASK0_SHIFT _MK_SHIFT_CONST(8)
> +#define GLB_S_INTR_MASK_0_RUBIK_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_RUBIK_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_RUBIK_DONE_MASK1_SHIFT _MK_SHIFT_CONST(9)
> +#define GLB_S_INTR_MASK_0_RUBIK_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_RUBIK_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_CDMA_DAT_DONE_MASK0_SHIFT _MK_SHIFT_CONST(16)
> +#define GLB_S_INTR_MASK_0_CDMA_DAT_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CDMA_DAT_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_CDMA_DAT_DONE_MASK1_SHIFT _MK_SHIFT_CONST(17)
> +#define GLB_S_INTR_MASK_0_CDMA_DAT_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CDMA_DAT_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_CDMA_WT_DONE_MASK0_SHIFT _MK_SHIFT_CONST(18)
> +#define GLB_S_INTR_MASK_0_CDMA_WT_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CDMA_WT_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_CDMA_WT_DONE_MASK1_SHIFT _MK_SHIFT_CONST(19)
> +#define GLB_S_INTR_MASK_0_CDMA_WT_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CDMA_WT_DONE_MASK1_SHIFT)
> +#define GLB_S_INTR_MASK_0_CACC_DONE_MASK0_SHIFT _MK_SHIFT_CONST(20)
> +#define GLB_S_INTR_MASK_0_CACC_DONE_MASK0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CACC_DONE_MASK0_SHIFT)
> +#define GLB_S_INTR_MASK_0_CACC_DONE_MASK1_SHIFT _MK_SHIFT_CONST(21)
> +#define GLB_S_INTR_MASK_0_CACC_DONE_MASK1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_MASK_0_CACC_DONE_MASK1_SHIFT)
> +
> +
> +// Register GLB_S_INTR_SET_0
> +#define GLB_S_INTR_SET_0 _MK_ADDR_CONST(0x1008)
> +#define GLB_S_INTR_SET_0_SDP_DONE_SET0_SHIFT _MK_SHIFT_CONST(0)
> +#define GLB_S_INTR_SET_0_SDP_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_SDP_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_SDP_DONE_SET1_SHIFT _MK_SHIFT_CONST(1)
> +#define GLB_S_INTR_SET_0_SDP_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_SDP_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_CDP_DONE_SET0_SHIFT _MK_SHIFT_CONST(2)
> +#define GLB_S_INTR_SET_0_CDP_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CDP_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_CDP_DONE_SET1_SHIFT _MK_SHIFT_CONST(3)
> +#define GLB_S_INTR_SET_0_CDP_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CDP_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_PDP_DONE_SET0_SHIFT _MK_SHIFT_CONST(4)
> +#define GLB_S_INTR_SET_0_PDP_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_PDP_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_PDP_DONE_SET1_SHIFT _MK_SHIFT_CONST(5)
> +#define GLB_S_INTR_SET_0_PDP_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_PDP_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_BDMA_DONE_SET0_SHIFT _MK_SHIFT_CONST(6)
> +#define GLB_S_INTR_SET_0_BDMA_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_BDMA_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_BDMA_DONE_SET1_SHIFT _MK_SHIFT_CONST(7)
> +#define GLB_S_INTR_SET_0_BDMA_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_BDMA_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_RUBIK_DONE_SET0_SHIFT _MK_SHIFT_CONST(8)
> +#define GLB_S_INTR_SET_0_RUBIK_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_RUBIK_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_RUBIK_DONE_SET1_SHIFT _MK_SHIFT_CONST(9)
> +#define GLB_S_INTR_SET_0_RUBIK_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_RUBIK_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_CDMA_DAT_DONE_SET0_SHIFT _MK_SHIFT_CONST(16)
> +#define GLB_S_INTR_SET_0_CDMA_DAT_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CDMA_DAT_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_CDMA_DAT_DONE_SET1_SHIFT _MK_SHIFT_CONST(17)
> +#define GLB_S_INTR_SET_0_CDMA_DAT_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CDMA_DAT_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_CDMA_WT_DONE_SET0_SHIFT _MK_SHIFT_CONST(18)
> +#define GLB_S_INTR_SET_0_CDMA_WT_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CDMA_WT_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_CDMA_WT_DONE_SET1_SHIFT _MK_SHIFT_CONST(19)
> +#define GLB_S_INTR_SET_0_CDMA_WT_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CDMA_WT_DONE_SET1_SHIFT)
> +#define GLB_S_INTR_SET_0_CACC_DONE_SET0_SHIFT _MK_SHIFT_CONST(20)
> +#define GLB_S_INTR_SET_0_CACC_DONE_SET0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CACC_DONE_SET0_SHIFT)
> +#define GLB_S_INTR_SET_0_CACC_DONE_SET1_SHIFT _MK_SHIFT_CONST(21)
> +#define GLB_S_INTR_SET_0_CACC_DONE_SET1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_SET_0_CACC_DONE_SET1_SHIFT)
> +
> +
> +// Register GLB_S_INTR_STATUS_0
> +#define GLB_S_INTR_STATUS_0 _MK_ADDR_CONST(0x100c)
> +#define GLB_S_INTR_STATUS_0_SDP_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(0)
> +#define GLB_S_INTR_STATUS_0_SDP_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_SDP_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_SDP_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(1)
> +#define GLB_S_INTR_STATUS_0_SDP_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_SDP_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CDP_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(2)
> +#define GLB_S_INTR_STATUS_0_CDP_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CDP_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CDP_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(3)
> +#define GLB_S_INTR_STATUS_0_CDP_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CDP_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_PDP_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(4)
> +#define GLB_S_INTR_STATUS_0_PDP_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_PDP_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_PDP_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(5)
> +#define GLB_S_INTR_STATUS_0_PDP_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_PDP_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_BDMA_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(6)
> +#define GLB_S_INTR_STATUS_0_BDMA_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_BDMA_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_BDMA_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(7)
> +#define GLB_S_INTR_STATUS_0_BDMA_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_BDMA_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_RUBIK_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(8)
> +#define GLB_S_INTR_STATUS_0_RUBIK_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_RUBIK_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_RUBIK_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(9)
> +#define GLB_S_INTR_STATUS_0_RUBIK_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_RUBIK_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CDMA_DAT_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(16)
> +#define GLB_S_INTR_STATUS_0_CDMA_DAT_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CDMA_DAT_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CDMA_DAT_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(17)
> +#define GLB_S_INTR_STATUS_0_CDMA_DAT_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CDMA_DAT_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CDMA_WT_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(18)
> +#define GLB_S_INTR_STATUS_0_CDMA_WT_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CDMA_WT_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CDMA_WT_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(19)
> +#define GLB_S_INTR_STATUS_0_CDMA_WT_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CDMA_WT_DONE_STATUS1_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CACC_DONE_STATUS0_SHIFT _MK_SHIFT_CONST(20)
> +#define GLB_S_INTR_STATUS_0_CACC_DONE_STATUS0_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CACC_DONE_STATUS0_SHIFT)
> +#define GLB_S_INTR_STATUS_0_CACC_DONE_STATUS1_SHIFT _MK_SHIFT_CONST(21)
> +#define GLB_S_INTR_STATUS_0_CACC_DONE_STATUS1_FIELD _MK_FIELD_CONST(0x1, GLB_S_INTR_STATUS_0_CACC_DONE_STATUS1_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register NVDLA_MCIF_CFG_RD_WEIGHT_0_0
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0 _MK_ADDR_CONST(0x2000)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_BDMA_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_BDMA_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_BDMA_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_SDP_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_SDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_SDP_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_PDP_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_PDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_PDP_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_CDP_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_CDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_CDP_SHIFT)
> +
> +
> +// Register NVDLA_MCIF_CFG_RD_WEIGHT_1_0
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0 _MK_ADDR_CONST(0x2004)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_B_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_B_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_B_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_N_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_N_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_N_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_E_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_E_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_E_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_CDMA_DAT_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_CDMA_DAT_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_CDMA_DAT_SHIFT)
> +
> +
> +// Register NVDLA_MCIF_CFG_RD_WEIGHT_2_0
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0 _MK_ADDR_CONST(0x2008)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_CDMA_WT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_CDMA_WT_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_CDMA_WT_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RBK_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RBK_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RBK_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_1_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_1_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_1_SHIFT)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_0_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_0_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_0_SHIFT)
> +
> +
> +// Register NVDLA_MCIF_CFG_WR_WEIGHT_0_0
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0 _MK_ADDR_CONST(0x200c)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_BDMA_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_BDMA_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_BDMA_SHIFT)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_SDP_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_SDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_SDP_SHIFT)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_PDP_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_PDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_PDP_SHIFT)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_CDP_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_CDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_CDP_SHIFT)
> +
> +
> +// Register NVDLA_MCIF_CFG_WR_WEIGHT_1_0
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0 _MK_ADDR_CONST(0x2010)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RBK_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RBK_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RBK_SHIFT)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_2_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_2_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_2_SHIFT)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_1_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_1_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_1_SHIFT)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_0_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_0_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_0_SHIFT)
> +
> +
> +// Register NVDLA_MCIF_CFG_OUTSTANDING_CNT_0
> +#define NVDLA_MCIF_CFG_OUTSTANDING_CNT_0 _MK_ADDR_CONST(0x2014)
> +#define NVDLA_MCIF_CFG_OUTSTANDING_CNT_0_RD_OS_CNT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_MCIF_CFG_OUTSTANDING_CNT_0_RD_OS_CNT_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_OUTSTANDING_CNT_0_RD_OS_CNT_SHIFT)
> +#define NVDLA_MCIF_CFG_OUTSTANDING_CNT_0_WR_OS_CNT_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_CFG_OUTSTANDING_CNT_0_WR_OS_CNT_FIELD _MK_FIELD_CONST(0xff, NVDLA_MCIF_CFG_OUTSTANDING_CNT_0_WR_OS_CNT_SHIFT)
> +
> +
> +// Register NVDLA_MCIF_STATUS_0
> +#define NVDLA_MCIF_STATUS_0 _MK_ADDR_CONST(0x2018)
> +#define NVDLA_MCIF_STATUS_0_IDLE_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_MCIF_STATUS_0_IDLE_FIELD _MK_FIELD_CONST(0x1, NVDLA_MCIF_STATUS_0_IDLE_SHIFT)
> +#define NVDLA_MCIF_STATUS_0_IDLE_NO _MK_ENUM_CONST(0x0)
> +#define NVDLA_MCIF_STATUS_0_IDLE_YES _MK_ENUM_CONST(0x1)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CDMA_S_STATUS_0
> +#define CDMA_S_STATUS_0 _MK_ADDR_CONST(0x3000)
> +#define CDMA_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CDMA_S_STATUS_0_STATUS_0_SHIFT)
> +#define CDMA_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CDMA_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CDMA_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CDMA_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CDMA_S_STATUS_0_STATUS_1_SHIFT)
> +#define CDMA_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CDMA_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CDMA_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CDMA_S_POINTER_0
> +#define CDMA_S_POINTER_0 _MK_ADDR_CONST(0x3004)
> +#define CDMA_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CDMA_S_POINTER_0_PRODUCER_SHIFT)
> +#define CDMA_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CDMA_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CDMA_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CDMA_S_POINTER_0_CONSUMER_SHIFT)
> +#define CDMA_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CDMA_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_S_ARBITER_0
> +#define CDMA_S_ARBITER_0 _MK_ADDR_CONST(0x3008)
> +#define CDMA_S_ARBITER_0_ARB_WEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_S_ARBITER_0_ARB_WEIGHT_FIELD _MK_FIELD_CONST(0xf, CDMA_S_ARBITER_0_ARB_WEIGHT_SHIFT)
> +#define CDMA_S_ARBITER_0_ARB_WMB_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_S_ARBITER_0_ARB_WMB_FIELD _MK_FIELD_CONST(0xf, CDMA_S_ARBITER_0_ARB_WMB_SHIFT)
> +
> +
> +// Register CDMA_S_CBUF_FLUSH_STATUS_0
> +#define CDMA_S_CBUF_FLUSH_STATUS_0 _MK_ADDR_CONST(0x300c)
> +#define CDMA_S_CBUF_FLUSH_STATUS_0_FLUSH_DONE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_S_CBUF_FLUSH_STATUS_0_FLUSH_DONE_FIELD _MK_FIELD_CONST(0x1, CDMA_S_CBUF_FLUSH_STATUS_0_FLUSH_DONE_SHIFT)
> +
> +
> +// Register CDMA_D_OP_ENABLE_0
> +#define CDMA_D_OP_ENABLE_0 _MK_ADDR_CONST(0x3010)
> +#define CDMA_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CDMA_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CDMA_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_MISC_CFG_0
> +#define CDMA_D_MISC_CFG_0 _MK_ADDR_CONST(0x3014)
> +#define CDMA_D_MISC_CFG_0_CONV_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_MISC_CFG_0_CONV_MODE_FIELD _MK_FIELD_CONST(0x1, CDMA_D_MISC_CFG_0_CONV_MODE_SHIFT)
> +#define CDMA_D_MISC_CFG_0_CONV_MODE_DIRECT _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_CONV_MODE_WINOGRAD _MK_ENUM_CONST(0x1)
> +#define CDMA_D_MISC_CFG_0_IN_PRECISION_SHIFT _MK_SHIFT_CONST(8)
> +#define CDMA_D_MISC_CFG_0_IN_PRECISION_FIELD _MK_FIELD_CONST(0x3, CDMA_D_MISC_CFG_0_IN_PRECISION_SHIFT)
> +#define CDMA_D_MISC_CFG_0_IN_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_IN_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CDMA_D_MISC_CFG_0_IN_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define CDMA_D_MISC_CFG_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(12)
> +#define CDMA_D_MISC_CFG_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, CDMA_D_MISC_CFG_0_PROC_PRECISION_SHIFT)
> +#define CDMA_D_MISC_CFG_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CDMA_D_MISC_CFG_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define CDMA_D_MISC_CFG_0_DATA_REUSE_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_MISC_CFG_0_DATA_REUSE_FIELD _MK_FIELD_CONST(0x1, CDMA_D_MISC_CFG_0_DATA_REUSE_SHIFT)
> +#define CDMA_D_MISC_CFG_0_DATA_REUSE_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_DATA_REUSE_ENABLE _MK_ENUM_CONST(0x1)
> +#define CDMA_D_MISC_CFG_0_WEIGHT_REUSE_SHIFT _MK_SHIFT_CONST(20)
> +#define CDMA_D_MISC_CFG_0_WEIGHT_REUSE_FIELD _MK_FIELD_CONST(0x1, CDMA_D_MISC_CFG_0_WEIGHT_REUSE_SHIFT)
> +#define CDMA_D_MISC_CFG_0_WEIGHT_REUSE_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_WEIGHT_REUSE_ENABLE _MK_ENUM_CONST(0x1)
> +#define CDMA_D_MISC_CFG_0_SKIP_DATA_RLS_SHIFT _MK_SHIFT_CONST(24)
> +#define CDMA_D_MISC_CFG_0_SKIP_DATA_RLS_FIELD _MK_FIELD_CONST(0x1, CDMA_D_MISC_CFG_0_SKIP_DATA_RLS_SHIFT)
> +#define CDMA_D_MISC_CFG_0_SKIP_DATA_RLS_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_SKIP_DATA_RLS_ENABLE _MK_ENUM_CONST(0x1)
> +#define CDMA_D_MISC_CFG_0_SKIP_WEIGHT_RLS_SHIFT _MK_SHIFT_CONST(28)
> +#define CDMA_D_MISC_CFG_0_SKIP_WEIGHT_RLS_FIELD _MK_FIELD_CONST(0x1, CDMA_D_MISC_CFG_0_SKIP_WEIGHT_RLS_SHIFT)
> +#define CDMA_D_MISC_CFG_0_SKIP_WEIGHT_RLS_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MISC_CFG_0_SKIP_WEIGHT_RLS_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_DATAIN_FORMAT_0
> +#define CDMA_D_DATAIN_FORMAT_0 _MK_ADDR_CONST(0x3018)
> +#define CDMA_D_DATAIN_FORMAT_0_DATAIN_FORMAT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DATAIN_FORMAT_0_DATAIN_FORMAT_FIELD _MK_FIELD_CONST(0x1, CDMA_D_DATAIN_FORMAT_0_DATAIN_FORMAT_SHIFT)
> +#define CDMA_D_DATAIN_FORMAT_0_DATAIN_FORMAT_FEATURE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DATAIN_FORMAT_0_DATAIN_FORMAT_PIXEL _MK_ENUM_CONST(0x1)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_SHIFT _MK_SHIFT_CONST(8)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_FIELD _MK_FIELD_CONST(0x3f, CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_SHIFT)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R8 _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R10 _MK_ENUM_CONST(0x1)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R12 _MK_ENUM_CONST(0x2)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R16 _MK_ENUM_CONST(0x3)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R16_I _MK_ENUM_CONST(0x4)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R16_F _MK_ENUM_CONST(0x5)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A16B16G16R16 _MK_ENUM_CONST(0x6)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_X16B16G16R16 _MK_ENUM_CONST(0x7)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A16B16G16R16_F _MK_ENUM_CONST(0x8)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A16Y16U16V16 _MK_ENUM_CONST(0x9)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_V16U16Y16A16 _MK_ENUM_CONST(0xa)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A16Y16U16V16_F _MK_ENUM_CONST(0xb)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A8B8G8R8 _MK_ENUM_CONST(0xc)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A8R8G8B8 _MK_ENUM_CONST(0xd)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_B8G8R8A8 _MK_ENUM_CONST(0xe)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R8G8B8A8 _MK_ENUM_CONST(0xf)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_X8B8G8R8 _MK_ENUM_CONST(0x10)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_X8R8G8B8 _MK_ENUM_CONST(0x11)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_B8G8R8X8 _MK_ENUM_CONST(0x12)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R8G8B8X8 _MK_ENUM_CONST(0x13)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A2B10G10R10 _MK_ENUM_CONST(0x14)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A2R10G10B10 _MK_ENUM_CONST(0x15)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_B10G10R10A2 _MK_ENUM_CONST(0x16)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_R10G10B10A2 _MK_ENUM_CONST(0x17)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A2Y10U10V10 _MK_ENUM_CONST(0x18)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_V10U10Y10A2 _MK_ENUM_CONST(0x19)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_A8Y8U8V8 _MK_ENUM_CONST(0x1a)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_V8U8Y8A8 _MK_ENUM_CONST(0x1b)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y8___U8V8_N444 _MK_ENUM_CONST(0x1c)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y8___V8U8_N444 _MK_ENUM_CONST(0x1d)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y10___U10V10_N444 _MK_ENUM_CONST(0x1e)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y10___V10U10_N444 _MK_ENUM_CONST(0x1f)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y12___U12V12_N444 _MK_ENUM_CONST(0x20)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y12___V12U12_N444 _MK_ENUM_CONST(0x21)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y16___U16V16_N444 _MK_ENUM_CONST(0x22)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_FORMAT_T_Y16___V16U16_N444 _MK_ENUM_CONST(0x23)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_MAPPING_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_MAPPING_FIELD _MK_FIELD_CONST(0x1, CDMA_D_DATAIN_FORMAT_0_PIXEL_MAPPING_SHIFT)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_MAPPING_PITCH_LINEAR _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_MAPPING_RESERVED_LINEAR _MK_ENUM_CONST(0x1)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_SIGN_OVERRIDE_SHIFT _MK_SHIFT_CONST(20)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_SIGN_OVERRIDE_FIELD _MK_FIELD_CONST(0x1, CDMA_D_DATAIN_FORMAT_0_PIXEL_SIGN_OVERRIDE_SHIFT)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_SIGN_OVERRIDE_UNSIGNED_INT _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DATAIN_FORMAT_0_PIXEL_SIGN_OVERRIDE_SIGNED_INT _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_DATAIN_SIZE_0_0
> +#define CDMA_D_DATAIN_SIZE_0_0 _MK_ADDR_CONST(0x301c)
> +#define CDMA_D_DATAIN_SIZE_0_0_DATAIN_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DATAIN_SIZE_0_0_DATAIN_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, CDMA_D_DATAIN_SIZE_0_0_DATAIN_WIDTH_SHIFT)
> +#define CDMA_D_DATAIN_SIZE_0_0_DATAIN_HEIGHT_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_DATAIN_SIZE_0_0_DATAIN_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, CDMA_D_DATAIN_SIZE_0_0_DATAIN_HEIGHT_SHIFT)
> +
> +
> +// Register CDMA_D_DATAIN_SIZE_1_0
> +#define CDMA_D_DATAIN_SIZE_1_0 _MK_ADDR_CONST(0x3020)
> +#define CDMA_D_DATAIN_SIZE_1_0_DATAIN_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DATAIN_SIZE_1_0_DATAIN_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, CDMA_D_DATAIN_SIZE_1_0_DATAIN_CHANNEL_SHIFT)
> +
> +
> +// Register CDMA_D_DATAIN_SIZE_EXT_0_0
> +#define CDMA_D_DATAIN_SIZE_EXT_0_0 _MK_ADDR_CONST(0x3024)
> +#define CDMA_D_DATAIN_SIZE_EXT_0_0_DATAIN_WIDTH_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DATAIN_SIZE_EXT_0_0_DATAIN_WIDTH_EXT_FIELD _MK_FIELD_CONST(0x1fff, CDMA_D_DATAIN_SIZE_EXT_0_0_DATAIN_WIDTH_EXT_SHIFT)
> +#define CDMA_D_DATAIN_SIZE_EXT_0_0_DATAIN_HEIGHT_EXT_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_DATAIN_SIZE_EXT_0_0_DATAIN_HEIGHT_EXT_FIELD _MK_FIELD_CONST(0x1fff, CDMA_D_DATAIN_SIZE_EXT_0_0_DATAIN_HEIGHT_EXT_SHIFT)
> +
> +
> +// Register CDMA_D_PIXEL_OFFSET_0
> +#define CDMA_D_PIXEL_OFFSET_0 _MK_ADDR_CONST(0x3028)
> +#define CDMA_D_PIXEL_OFFSET_0_PIXEL_X_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_PIXEL_OFFSET_0_PIXEL_X_OFFSET_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_PIXEL_OFFSET_0_PIXEL_X_OFFSET_SHIFT)
> +#define CDMA_D_PIXEL_OFFSET_0_PIXEL_Y_OFFSET_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_PIXEL_OFFSET_0_PIXEL_Y_OFFSET_FIELD _MK_FIELD_CONST(0x7, CDMA_D_PIXEL_OFFSET_0_PIXEL_Y_OFFSET_SHIFT)
> +
> +
> +// Register CDMA_D_DAIN_RAM_TYPE_0
> +#define CDMA_D_DAIN_RAM_TYPE_0 _MK_ADDR_CONST(0x302c)
> +#define CDMA_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, CDMA_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_SHIFT)
> +#define CDMA_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_CVIF _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_MCIF _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_DAIN_ADDR_HIGH_0_0
> +#define CDMA_D_DAIN_ADDR_HIGH_0_0 _MK_ADDR_CONST(0x3030)
> +#define CDMA_D_DAIN_ADDR_HIGH_0_0_DATAIN_ADDR_HIGH_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DAIN_ADDR_HIGH_0_0_DATAIN_ADDR_HIGH_0_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_DAIN_ADDR_HIGH_0_0_DATAIN_ADDR_HIGH_0_SHIFT)
> +
> +
> +// Register CDMA_D_DAIN_ADDR_LOW_0_0
> +#define CDMA_D_DAIN_ADDR_LOW_0_0 _MK_ADDR_CONST(0x3034)
> +#define CDMA_D_DAIN_ADDR_LOW_0_0_DATAIN_ADDR_LOW_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DAIN_ADDR_LOW_0_0_DATAIN_ADDR_LOW_0_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_DAIN_ADDR_LOW_0_0_DATAIN_ADDR_LOW_0_SHIFT)
> +
> +
> +// Register CDMA_D_DAIN_ADDR_HIGH_1_0
> +#define CDMA_D_DAIN_ADDR_HIGH_1_0 _MK_ADDR_CONST(0x3038)
> +#define CDMA_D_DAIN_ADDR_HIGH_1_0_DATAIN_ADDR_HIGH_1_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DAIN_ADDR_HIGH_1_0_DATAIN_ADDR_HIGH_1_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_DAIN_ADDR_HIGH_1_0_DATAIN_ADDR_HIGH_1_SHIFT)
> +
> +
> +// Register CDMA_D_DAIN_ADDR_LOW_1_0
> +#define CDMA_D_DAIN_ADDR_LOW_1_0 _MK_ADDR_CONST(0x303c)
> +#define CDMA_D_DAIN_ADDR_LOW_1_0_DATAIN_ADDR_LOW_1_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DAIN_ADDR_LOW_1_0_DATAIN_ADDR_LOW_1_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_DAIN_ADDR_LOW_1_0_DATAIN_ADDR_LOW_1_SHIFT)
> +
> +
> +// Register CDMA_D_LINE_STRIDE_0
> +#define CDMA_D_LINE_STRIDE_0 _MK_ADDR_CONST(0x3040)
> +#define CDMA_D_LINE_STRIDE_0_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_LINE_STRIDE_0_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_LINE_STRIDE_0_LINE_STRIDE_SHIFT)
> +
> +
> +// Register CDMA_D_LINE_UV_STRIDE_0
> +#define CDMA_D_LINE_UV_STRIDE_0 _MK_ADDR_CONST(0x3044)
> +#define CDMA_D_LINE_UV_STRIDE_0_UV_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_LINE_UV_STRIDE_0_UV_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_LINE_UV_STRIDE_0_UV_LINE_STRIDE_SHIFT)
> +
> +
> +// Register CDMA_D_SURF_STRIDE_0
> +#define CDMA_D_SURF_STRIDE_0 _MK_ADDR_CONST(0x3048)
> +#define CDMA_D_SURF_STRIDE_0_SURF_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_SURF_STRIDE_0_SURF_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_SURF_STRIDE_0_SURF_STRIDE_SHIFT)
> +
> +
> +// Register CDMA_D_DAIN_MAP_0
> +#define CDMA_D_DAIN_MAP_0 _MK_ADDR_CONST(0x304c)
> +#define CDMA_D_DAIN_MAP_0_LINE_PACKED_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_DAIN_MAP_0_LINE_PACKED_FIELD _MK_FIELD_CONST(0x1, CDMA_D_DAIN_MAP_0_LINE_PACKED_SHIFT)
> +#define CDMA_D_DAIN_MAP_0_LINE_PACKED_FALSE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DAIN_MAP_0_LINE_PACKED_TRUE _MK_ENUM_CONST(0x1)
> +#define CDMA_D_DAIN_MAP_0_SURF_PACKED_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_DAIN_MAP_0_SURF_PACKED_FIELD _MK_FIELD_CONST(0x1, CDMA_D_DAIN_MAP_0_SURF_PACKED_SHIFT)
> +#define CDMA_D_DAIN_MAP_0_SURF_PACKED_FALSE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_DAIN_MAP_0_SURF_PACKED_TRUE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_RESERVED_X_CFG_0
> +#define CDMA_D_RESERVED_X_CFG_0 _MK_ADDR_CONST(0x3050)
> +#define CDMA_D_RESERVED_X_CFG_0_RSV_PER_LINE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_RESERVED_X_CFG_0_RSV_PER_LINE_FIELD _MK_FIELD_CONST(0x3ff, CDMA_D_RESERVED_X_CFG_0_RSV_PER_LINE_SHIFT)
> +#define CDMA_D_RESERVED_X_CFG_0_RSV_PER_UV_LINE_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_RESERVED_X_CFG_0_RSV_PER_UV_LINE_FIELD _MK_FIELD_CONST(0x3ff, CDMA_D_RESERVED_X_CFG_0_RSV_PER_UV_LINE_SHIFT)
> +
> +
> +// Register CDMA_D_RESERVED_Y_CFG_0
> +#define CDMA_D_RESERVED_Y_CFG_0 _MK_ADDR_CONST(0x3054)
> +#define CDMA_D_RESERVED_Y_CFG_0_RSV_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_RESERVED_Y_CFG_0_RSV_HEIGHT_FIELD _MK_FIELD_CONST(0x7, CDMA_D_RESERVED_Y_CFG_0_RSV_HEIGHT_SHIFT)
> +#define CDMA_D_RESERVED_Y_CFG_0_RSV_Y_INDEX_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_RESERVED_Y_CFG_0_RSV_Y_INDEX_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_RESERVED_Y_CFG_0_RSV_Y_INDEX_SHIFT)
> +
> +
> +// Register CDMA_D_BATCH_NUMBER_0
> +#define CDMA_D_BATCH_NUMBER_0 _MK_ADDR_CONST(0x3058)
> +#define CDMA_D_BATCH_NUMBER_0_BATCHES_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_BATCH_NUMBER_0_BATCHES_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_BATCH_NUMBER_0_BATCHES_SHIFT)
> +
> +
> +// Register CDMA_D_BATCH_STRIDE_0
> +#define CDMA_D_BATCH_STRIDE_0 _MK_ADDR_CONST(0x305c)
> +#define CDMA_D_BATCH_STRIDE_0_BATCH_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_BATCH_STRIDE_0_BATCH_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_BATCH_STRIDE_0_BATCH_STRIDE_SHIFT)
> +
> +
> +// Register CDMA_D_ENTRY_PER_SLICE_0
> +#define CDMA_D_ENTRY_PER_SLICE_0 _MK_ADDR_CONST(0x3060)
> +#define CDMA_D_ENTRY_PER_SLICE_0_ENTRIES_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_ENTRY_PER_SLICE_0_ENTRIES_FIELD _MK_FIELD_CONST(0x3fff, CDMA_D_ENTRY_PER_SLICE_0_ENTRIES_SHIFT)
> +
> +
> +// Register CDMA_D_FETCH_GRAIN_0
> +#define CDMA_D_FETCH_GRAIN_0 _MK_ADDR_CONST(0x3064)
> +#define CDMA_D_FETCH_GRAIN_0_GRAINS_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_FETCH_GRAIN_0_GRAINS_FIELD _MK_FIELD_CONST(0xfff, CDMA_D_FETCH_GRAIN_0_GRAINS_SHIFT)
> +
> +
> +// Register CDMA_D_WEIGHT_FORMAT_0
> +#define CDMA_D_WEIGHT_FORMAT_0 _MK_ADDR_CONST(0x3068)
> +#define CDMA_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_FIELD _MK_FIELD_CONST(0x1, CDMA_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_SHIFT)
> +#define CDMA_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_UNCOMPRESSED _MK_ENUM_CONST(0x0)
> +#define CDMA_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_COMPRESSED _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_WEIGHT_SIZE_0_0
> +#define CDMA_D_WEIGHT_SIZE_0_0 _MK_ADDR_CONST(0x306c)
> +#define CDMA_D_WEIGHT_SIZE_0_0_BYTE_PER_KERNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_SIZE_0_0_BYTE_PER_KERNEL_FIELD _MK_FIELD_CONST(0x3ffff, CDMA_D_WEIGHT_SIZE_0_0_BYTE_PER_KERNEL_SHIFT)
> +
> +
> +// Register CDMA_D_WEIGHT_SIZE_1_0
> +#define CDMA_D_WEIGHT_SIZE_1_0 _MK_ADDR_CONST(0x3070)
> +#define CDMA_D_WEIGHT_SIZE_1_0_WEIGHT_KERNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_SIZE_1_0_WEIGHT_KERNEL_FIELD _MK_FIELD_CONST(0x1fff, CDMA_D_WEIGHT_SIZE_1_0_WEIGHT_KERNEL_SHIFT)
> +
> +
> +// Register CDMA_D_WEIGHT_RAM_TYPE_0
> +#define CDMA_D_WEIGHT_RAM_TYPE_0 _MK_ADDR_CONST(0x3074)
> +#define CDMA_D_WEIGHT_RAM_TYPE_0_WEIGHT_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_RAM_TYPE_0_WEIGHT_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, CDMA_D_WEIGHT_RAM_TYPE_0_WEIGHT_RAM_TYPE_SHIFT)
> +#define CDMA_D_WEIGHT_RAM_TYPE_0_WEIGHT_RAM_TYPE_CVIF _MK_ENUM_CONST(0x0)
> +#define CDMA_D_WEIGHT_RAM_TYPE_0_WEIGHT_RAM_TYPE_MCIF _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_WEIGHT_ADDR_HIGH_0
> +#define CDMA_D_WEIGHT_ADDR_HIGH_0 _MK_ADDR_CONST(0x3078)
> +#define CDMA_D_WEIGHT_ADDR_HIGH_0_WEIGHT_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_ADDR_HIGH_0_WEIGHT_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WEIGHT_ADDR_HIGH_0_WEIGHT_ADDR_HIGH_SHIFT)
> +
> +
> +// Register CDMA_D_WEIGHT_ADDR_LOW_0
> +#define CDMA_D_WEIGHT_ADDR_LOW_0 _MK_ADDR_CONST(0x307c)
> +#define CDMA_D_WEIGHT_ADDR_LOW_0_WEIGHT_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_ADDR_LOW_0_WEIGHT_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WEIGHT_ADDR_LOW_0_WEIGHT_ADDR_LOW_SHIFT)
> +
> +
> +// Register CDMA_D_WEIGHT_BYTES_0
> +#define CDMA_D_WEIGHT_BYTES_0 _MK_ADDR_CONST(0x3080)
> +#define CDMA_D_WEIGHT_BYTES_0_WEIGHT_BYTES_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WEIGHT_BYTES_0_WEIGHT_BYTES_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WEIGHT_BYTES_0_WEIGHT_BYTES_SHIFT)
> +
> +
> +// Register CDMA_D_WGS_ADDR_HIGH_0
> +#define CDMA_D_WGS_ADDR_HIGH_0 _MK_ADDR_CONST(0x3084)
> +#define CDMA_D_WGS_ADDR_HIGH_0_WGS_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WGS_ADDR_HIGH_0_WGS_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WGS_ADDR_HIGH_0_WGS_ADDR_HIGH_SHIFT)
> +
> +
> +// Register CDMA_D_WGS_ADDR_LOW_0
> +#define CDMA_D_WGS_ADDR_LOW_0 _MK_ADDR_CONST(0x3088)
> +#define CDMA_D_WGS_ADDR_LOW_0_WGS_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WGS_ADDR_LOW_0_WGS_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WGS_ADDR_LOW_0_WGS_ADDR_LOW_SHIFT)
> +
> +
> +// Register CDMA_D_WMB_ADDR_HIGH_0
> +#define CDMA_D_WMB_ADDR_HIGH_0 _MK_ADDR_CONST(0x308c)
> +#define CDMA_D_WMB_ADDR_HIGH_0_WMB_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WMB_ADDR_HIGH_0_WMB_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WMB_ADDR_HIGH_0_WMB_ADDR_HIGH_SHIFT)
> +
> +
> +// Register CDMA_D_WMB_ADDR_LOW_0
> +#define CDMA_D_WMB_ADDR_LOW_0 _MK_ADDR_CONST(0x3090)
> +#define CDMA_D_WMB_ADDR_LOW_0_WMB_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WMB_ADDR_LOW_0_WMB_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_WMB_ADDR_LOW_0_WMB_ADDR_LOW_SHIFT)
> +
> +
> +// Register CDMA_D_WMB_BYTES_0
> +#define CDMA_D_WMB_BYTES_0 _MK_ADDR_CONST(0x3094)
> +#define CDMA_D_WMB_BYTES_0_WMB_BYTES_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_WMB_BYTES_0_WMB_BYTES_FIELD _MK_FIELD_CONST(0xfffffff, CDMA_D_WMB_BYTES_0_WMB_BYTES_SHIFT)
> +
> +
> +// Register CDMA_D_MEAN_FORMAT_0
> +#define CDMA_D_MEAN_FORMAT_0 _MK_ADDR_CONST(0x3098)
> +#define CDMA_D_MEAN_FORMAT_0_MEAN_FORMAT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_MEAN_FORMAT_0_MEAN_FORMAT_FIELD _MK_FIELD_CONST(0x1, CDMA_D_MEAN_FORMAT_0_MEAN_FORMAT_SHIFT)
> +#define CDMA_D_MEAN_FORMAT_0_MEAN_FORMAT_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_MEAN_FORMAT_0_MEAN_FORMAT_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_MEAN_GLOBAL_0_0
> +#define CDMA_D_MEAN_GLOBAL_0_0 _MK_ADDR_CONST(0x309c)
> +#define CDMA_D_MEAN_GLOBAL_0_0_MEAN_RY_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_MEAN_GLOBAL_0_0_MEAN_RY_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_MEAN_GLOBAL_0_0_MEAN_RY_SHIFT)
> +#define CDMA_D_MEAN_GLOBAL_0_0_MEAN_GU_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_MEAN_GLOBAL_0_0_MEAN_GU_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_MEAN_GLOBAL_0_0_MEAN_GU_SHIFT)
> +
> +
> +// Register CDMA_D_MEAN_GLOBAL_1_0
> +#define CDMA_D_MEAN_GLOBAL_1_0 _MK_ADDR_CONST(0x30a0)
> +#define CDMA_D_MEAN_GLOBAL_1_0_MEAN_BV_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_MEAN_GLOBAL_1_0_MEAN_BV_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_MEAN_GLOBAL_1_0_MEAN_BV_SHIFT)
> +#define CDMA_D_MEAN_GLOBAL_1_0_MEAN_AX_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_MEAN_GLOBAL_1_0_MEAN_AX_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_MEAN_GLOBAL_1_0_MEAN_AX_SHIFT)
> +
> +
> +// Register CDMA_D_CVT_CFG_0
> +#define CDMA_D_CVT_CFG_0 _MK_ADDR_CONST(0x30a4)
> +#define CDMA_D_CVT_CFG_0_CVT_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_CVT_CFG_0_CVT_EN_FIELD _MK_FIELD_CONST(0x1, CDMA_D_CVT_CFG_0_CVT_EN_SHIFT)
> +#define CDMA_D_CVT_CFG_0_CVT_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_CVT_CFG_0_CVT_EN_ENABLE _MK_ENUM_CONST(0x1)
> +#define CDMA_D_CVT_CFG_0_CVT_TRUNCATE_SHIFT _MK_SHIFT_CONST(4)
> +#define CDMA_D_CVT_CFG_0_CVT_TRUNCATE_FIELD _MK_FIELD_CONST(0x3f, CDMA_D_CVT_CFG_0_CVT_TRUNCATE_SHIFT)
> +
> +
> +// Register CDMA_D_CVT_OFFSET_0
> +#define CDMA_D_CVT_OFFSET_0 _MK_ADDR_CONST(0x30a8)
> +#define CDMA_D_CVT_OFFSET_0_CVT_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_CVT_OFFSET_0_CVT_OFFSET_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_CVT_OFFSET_0_CVT_OFFSET_SHIFT)
> +
> +
> +// Register CDMA_D_CVT_SCALE_0
> +#define CDMA_D_CVT_SCALE_0 _MK_ADDR_CONST(0x30ac)
> +#define CDMA_D_CVT_SCALE_0_CVT_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_CVT_SCALE_0_CVT_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_CVT_SCALE_0_CVT_SCALE_SHIFT)
> +
> +
> +// Register CDMA_D_CONV_STRIDE_0
> +#define CDMA_D_CONV_STRIDE_0 _MK_ADDR_CONST(0x30b0)
> +#define CDMA_D_CONV_STRIDE_0_CONV_X_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_CONV_STRIDE_0_CONV_X_STRIDE_FIELD _MK_FIELD_CONST(0x7, CDMA_D_CONV_STRIDE_0_CONV_X_STRIDE_SHIFT)
> +#define CDMA_D_CONV_STRIDE_0_CONV_Y_STRIDE_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_CONV_STRIDE_0_CONV_Y_STRIDE_FIELD _MK_FIELD_CONST(0x7, CDMA_D_CONV_STRIDE_0_CONV_Y_STRIDE_SHIFT)
> +
> +
> +// Register CDMA_D_ZERO_PADDING_0
> +#define CDMA_D_ZERO_PADDING_0 _MK_ADDR_CONST(0x30b4)
> +#define CDMA_D_ZERO_PADDING_0_PAD_LEFT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_ZERO_PADDING_0_PAD_LEFT_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_ZERO_PADDING_0_PAD_LEFT_SHIFT)
> +#define CDMA_D_ZERO_PADDING_0_PAD_RIGHT_SHIFT _MK_SHIFT_CONST(8)
> +#define CDMA_D_ZERO_PADDING_0_PAD_RIGHT_FIELD _MK_FIELD_CONST(0x3f, CDMA_D_ZERO_PADDING_0_PAD_RIGHT_SHIFT)
> +#define CDMA_D_ZERO_PADDING_0_PAD_TOP_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_ZERO_PADDING_0_PAD_TOP_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_ZERO_PADDING_0_PAD_TOP_SHIFT)
> +#define CDMA_D_ZERO_PADDING_0_PAD_BOTTOM_SHIFT _MK_SHIFT_CONST(24)
> +#define CDMA_D_ZERO_PADDING_0_PAD_BOTTOM_FIELD _MK_FIELD_CONST(0x3f, CDMA_D_ZERO_PADDING_0_PAD_BOTTOM_SHIFT)
> +
> +
> +// Register CDMA_D_ZERO_PADDING_VALUE_0
> +#define CDMA_D_ZERO_PADDING_VALUE_0 _MK_ADDR_CONST(0x30b8)
> +#define CDMA_D_ZERO_PADDING_VALUE_0_PAD_VALUE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_ZERO_PADDING_VALUE_0_PAD_VALUE_FIELD _MK_FIELD_CONST(0xffff, CDMA_D_ZERO_PADDING_VALUE_0_PAD_VALUE_SHIFT)
> +
> +
> +// Register CDMA_D_BANK_0
> +#define CDMA_D_BANK_0 _MK_ADDR_CONST(0x30bc)
> +#define CDMA_D_BANK_0_DATA_BANK_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_BANK_0_DATA_BANK_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_BANK_0_DATA_BANK_SHIFT)
> +#define CDMA_D_BANK_0_WEIGHT_BANK_SHIFT _MK_SHIFT_CONST(16)
> +#define CDMA_D_BANK_0_WEIGHT_BANK_FIELD _MK_FIELD_CONST(0x1f, CDMA_D_BANK_0_WEIGHT_BANK_SHIFT)
> +
> +
> +// Register CDMA_D_NAN_FLUSH_TO_ZERO_0
> +#define CDMA_D_NAN_FLUSH_TO_ZERO_0 _MK_ADDR_CONST(0x30c0)
> +#define CDMA_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_FIELD _MK_FIELD_CONST(0x1, CDMA_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_SHIFT)
> +#define CDMA_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDMA_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDMA_D_NAN_INPUT_DATA_NUM_0
> +#define CDMA_D_NAN_INPUT_DATA_NUM_0 _MK_ADDR_CONST(0x30c4)
> +#define CDMA_D_NAN_INPUT_DATA_NUM_0_NAN_DATA_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_NAN_INPUT_DATA_NUM_0_NAN_DATA_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_NAN_INPUT_DATA_NUM_0_NAN_DATA_NUM_SHIFT)
> +
> +
> +// Register CDMA_D_NAN_INPUT_WEIGHT_NUM_0
> +#define CDMA_D_NAN_INPUT_WEIGHT_NUM_0 _MK_ADDR_CONST(0x30c8)
> +#define CDMA_D_NAN_INPUT_WEIGHT_NUM_0_NAN_WEIGHT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_NAN_INPUT_WEIGHT_NUM_0_NAN_WEIGHT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_NAN_INPUT_WEIGHT_NUM_0_NAN_WEIGHT_NUM_SHIFT)
> +
> +
> +// Register CDMA_D_INF_INPUT_DATA_NUM_0
> +#define CDMA_D_INF_INPUT_DATA_NUM_0 _MK_ADDR_CONST(0x30cc)
> +#define CDMA_D_INF_INPUT_DATA_NUM_0_INF_DATA_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_INF_INPUT_DATA_NUM_0_INF_DATA_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_INF_INPUT_DATA_NUM_0_INF_DATA_NUM_SHIFT)
> +
> +
> +// Register CDMA_D_INF_INPUT_WEIGHT_NUM_0
> +#define CDMA_D_INF_INPUT_WEIGHT_NUM_0 _MK_ADDR_CONST(0x30d0)
> +#define CDMA_D_INF_INPUT_WEIGHT_NUM_0_INF_WEIGHT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_INF_INPUT_WEIGHT_NUM_0_INF_WEIGHT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_INF_INPUT_WEIGHT_NUM_0_INF_WEIGHT_NUM_SHIFT)
> +
> +
> +// Register CDMA_D_PERF_ENABLE_0
> +#define CDMA_D_PERF_ENABLE_0 _MK_ADDR_CONST(0x30d4)
> +#define CDMA_D_PERF_ENABLE_0_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_PERF_ENABLE_0_DMA_EN_FIELD _MK_FIELD_CONST(0x1, CDMA_D_PERF_ENABLE_0_DMA_EN_SHIFT)
> +
> +
> +// Register CDMA_D_PERF_DAT_READ_STALL_0
> +#define CDMA_D_PERF_DAT_READ_STALL_0 _MK_ADDR_CONST(0x30d8)
> +#define CDMA_D_PERF_DAT_READ_STALL_0_DAT_RD_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_PERF_DAT_READ_STALL_0_DAT_RD_STALL_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_PERF_DAT_READ_STALL_0_DAT_RD_STALL_SHIFT)
> +
> +
> +// Register CDMA_D_PERF_WT_READ_STALL_0
> +#define CDMA_D_PERF_WT_READ_STALL_0 _MK_ADDR_CONST(0x30dc)
> +#define CDMA_D_PERF_WT_READ_STALL_0_WT_RD_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_PERF_WT_READ_STALL_0_WT_RD_STALL_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_PERF_WT_READ_STALL_0_WT_RD_STALL_SHIFT)
> +
> +
> +// Register CDMA_D_PERF_DAT_READ_LATENCY_0
> +#define CDMA_D_PERF_DAT_READ_LATENCY_0 _MK_ADDR_CONST(0x30e0)
> +#define CDMA_D_PERF_DAT_READ_LATENCY_0_DAT_RD_LATENCY_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_PERF_DAT_READ_LATENCY_0_DAT_RD_LATENCY_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_PERF_DAT_READ_LATENCY_0_DAT_RD_LATENCY_SHIFT)
> +
> +
> +// Register CDMA_D_PERF_WT_READ_LATENCY_0
> +#define CDMA_D_PERF_WT_READ_LATENCY_0 _MK_ADDR_CONST(0x30e4)
> +#define CDMA_D_PERF_WT_READ_LATENCY_0_WT_RD_LATENCY_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_PERF_WT_READ_LATENCY_0_WT_RD_LATENCY_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_PERF_WT_READ_LATENCY_0_WT_RD_LATENCY_SHIFT)
> +
> +
> +// Register CDMA_D_CYA_0
> +#define CDMA_D_CYA_0 _MK_ADDR_CONST(0x30e8)
> +#define CDMA_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define CDMA_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, CDMA_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CSC_S_STATUS_0
> +#define CSC_S_STATUS_0 _MK_ADDR_CONST(0x4000)
> +#define CSC_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CSC_S_STATUS_0_STATUS_0_SHIFT)
> +#define CSC_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CSC_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CSC_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CSC_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CSC_S_STATUS_0_STATUS_1_SHIFT)
> +#define CSC_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CSC_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CSC_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CSC_S_POINTER_0
> +#define CSC_S_POINTER_0 _MK_ADDR_CONST(0x4004)
> +#define CSC_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CSC_S_POINTER_0_PRODUCER_SHIFT)
> +#define CSC_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CSC_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CSC_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CSC_S_POINTER_0_CONSUMER_SHIFT)
> +#define CSC_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CSC_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CSC_D_OP_ENABLE_0
> +#define CSC_D_OP_ENABLE_0 _MK_ADDR_CONST(0x4008)
> +#define CSC_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CSC_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CSC_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CSC_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CSC_D_MISC_CFG_0
> +#define CSC_D_MISC_CFG_0 _MK_ADDR_CONST(0x400c)
> +#define CSC_D_MISC_CFG_0_CONV_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_MISC_CFG_0_CONV_MODE_FIELD _MK_FIELD_CONST(0x1, CSC_D_MISC_CFG_0_CONV_MODE_SHIFT)
> +#define CSC_D_MISC_CFG_0_CONV_MODE_DIRECT _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_CONV_MODE_WINOGRAD _MK_ENUM_CONST(0x1)
> +#define CSC_D_MISC_CFG_0_IN_PRECISION_SHIFT _MK_SHIFT_CONST(8)
> +#define CSC_D_MISC_CFG_0_IN_PRECISION_FIELD _MK_FIELD_CONST(0x3, CSC_D_MISC_CFG_0_IN_PRECISION_SHIFT)
> +#define CSC_D_MISC_CFG_0_IN_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_IN_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CSC_D_MISC_CFG_0_IN_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define CSC_D_MISC_CFG_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(12)
> +#define CSC_D_MISC_CFG_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, CSC_D_MISC_CFG_0_PROC_PRECISION_SHIFT)
> +#define CSC_D_MISC_CFG_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CSC_D_MISC_CFG_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define CSC_D_MISC_CFG_0_DATA_REUSE_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_MISC_CFG_0_DATA_REUSE_FIELD _MK_FIELD_CONST(0x1, CSC_D_MISC_CFG_0_DATA_REUSE_SHIFT)
> +#define CSC_D_MISC_CFG_0_DATA_REUSE_DISABLE _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_DATA_REUSE_ENABLE _MK_ENUM_CONST(0x1)
> +#define CSC_D_MISC_CFG_0_WEIGHT_REUSE_SHIFT _MK_SHIFT_CONST(20)
> +#define CSC_D_MISC_CFG_0_WEIGHT_REUSE_FIELD _MK_FIELD_CONST(0x1, CSC_D_MISC_CFG_0_WEIGHT_REUSE_SHIFT)
> +#define CSC_D_MISC_CFG_0_WEIGHT_REUSE_DISABLE _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_WEIGHT_REUSE_ENABLE _MK_ENUM_CONST(0x1)
> +#define CSC_D_MISC_CFG_0_SKIP_DATA_RLS_SHIFT _MK_SHIFT_CONST(24)
> +#define CSC_D_MISC_CFG_0_SKIP_DATA_RLS_FIELD _MK_FIELD_CONST(0x1, CSC_D_MISC_CFG_0_SKIP_DATA_RLS_SHIFT)
> +#define CSC_D_MISC_CFG_0_SKIP_DATA_RLS_DISABLE _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_SKIP_DATA_RLS_ENABLE _MK_ENUM_CONST(0x1)
> +#define CSC_D_MISC_CFG_0_SKIP_WEIGHT_RLS_SHIFT _MK_SHIFT_CONST(28)
> +#define CSC_D_MISC_CFG_0_SKIP_WEIGHT_RLS_FIELD _MK_FIELD_CONST(0x1, CSC_D_MISC_CFG_0_SKIP_WEIGHT_RLS_SHIFT)
> +#define CSC_D_MISC_CFG_0_SKIP_WEIGHT_RLS_DISABLE _MK_ENUM_CONST(0x0)
> +#define CSC_D_MISC_CFG_0_SKIP_WEIGHT_RLS_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CSC_D_DATAIN_FORMAT_0
> +#define CSC_D_DATAIN_FORMAT_0 _MK_ADDR_CONST(0x4010)
> +#define CSC_D_DATAIN_FORMAT_0_DATAIN_FORMAT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_DATAIN_FORMAT_0_DATAIN_FORMAT_FIELD _MK_FIELD_CONST(0x1, CSC_D_DATAIN_FORMAT_0_DATAIN_FORMAT_SHIFT)
> +#define CSC_D_DATAIN_FORMAT_0_DATAIN_FORMAT_FEATURE _MK_ENUM_CONST(0x0)
> +#define CSC_D_DATAIN_FORMAT_0_DATAIN_FORMAT_PIXEL _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CSC_D_DATAIN_SIZE_EXT_0_0
> +#define CSC_D_DATAIN_SIZE_EXT_0_0 _MK_ADDR_CONST(0x4014)
> +#define CSC_D_DATAIN_SIZE_EXT_0_0_DATAIN_WIDTH_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_DATAIN_SIZE_EXT_0_0_DATAIN_WIDTH_EXT_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_DATAIN_SIZE_EXT_0_0_DATAIN_WIDTH_EXT_SHIFT)
> +#define CSC_D_DATAIN_SIZE_EXT_0_0_DATAIN_HEIGHT_EXT_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_DATAIN_SIZE_EXT_0_0_DATAIN_HEIGHT_EXT_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_DATAIN_SIZE_EXT_0_0_DATAIN_HEIGHT_EXT_SHIFT)
> +
> +
> +// Register CSC_D_DATAIN_SIZE_EXT_1_0
> +#define CSC_D_DATAIN_SIZE_EXT_1_0 _MK_ADDR_CONST(0x4018)
> +#define CSC_D_DATAIN_SIZE_EXT_1_0_DATAIN_CHANNEL_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_DATAIN_SIZE_EXT_1_0_DATAIN_CHANNEL_EXT_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_DATAIN_SIZE_EXT_1_0_DATAIN_CHANNEL_EXT_SHIFT)
> +
> +
> +// Register CSC_D_BATCH_NUMBER_0
> +#define CSC_D_BATCH_NUMBER_0 _MK_ADDR_CONST(0x401c)
> +#define CSC_D_BATCH_NUMBER_0_BATCHES_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_BATCH_NUMBER_0_BATCHES_FIELD _MK_FIELD_CONST(0x1f, CSC_D_BATCH_NUMBER_0_BATCHES_SHIFT)
> +
> +
> +// Register CSC_D_POST_Y_EXTENSION_0
> +#define CSC_D_POST_Y_EXTENSION_0 _MK_ADDR_CONST(0x4020)
> +#define CSC_D_POST_Y_EXTENSION_0_Y_EXTENSION_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_POST_Y_EXTENSION_0_Y_EXTENSION_FIELD _MK_FIELD_CONST(0x3, CSC_D_POST_Y_EXTENSION_0_Y_EXTENSION_SHIFT)
> +
> +
> +// Register CSC_D_ENTRY_PER_SLICE_0
> +#define CSC_D_ENTRY_PER_SLICE_0 _MK_ADDR_CONST(0x4024)
> +#define CSC_D_ENTRY_PER_SLICE_0_ENTRIES_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_ENTRY_PER_SLICE_0_ENTRIES_FIELD _MK_FIELD_CONST(0x3fff, CSC_D_ENTRY_PER_SLICE_0_ENTRIES_SHIFT)
> +
> +
> +// Register CSC_D_WEIGHT_FORMAT_0
> +#define CSC_D_WEIGHT_FORMAT_0 _MK_ADDR_CONST(0x4028)
> +#define CSC_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_FIELD _MK_FIELD_CONST(0x1, CSC_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_SHIFT)
> +#define CSC_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_UNCOMPRESSED _MK_ENUM_CONST(0x0)
> +#define CSC_D_WEIGHT_FORMAT_0_WEIGHT_FORMAT_COMPRESSED _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CSC_D_WEIGHT_SIZE_EXT_0_0
> +#define CSC_D_WEIGHT_SIZE_EXT_0_0 _MK_ADDR_CONST(0x402c)
> +#define CSC_D_WEIGHT_SIZE_EXT_0_0_WEIGHT_WIDTH_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_WEIGHT_SIZE_EXT_0_0_WEIGHT_WIDTH_EXT_FIELD _MK_FIELD_CONST(0x1f, CSC_D_WEIGHT_SIZE_EXT_0_0_WEIGHT_WIDTH_EXT_SHIFT)
> +#define CSC_D_WEIGHT_SIZE_EXT_0_0_WEIGHT_HEIGHT_EXT_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_WEIGHT_SIZE_EXT_0_0_WEIGHT_HEIGHT_EXT_FIELD _MK_FIELD_CONST(0x1f, CSC_D_WEIGHT_SIZE_EXT_0_0_WEIGHT_HEIGHT_EXT_SHIFT)
> +
> +
> +// Register CSC_D_WEIGHT_SIZE_EXT_1_0
> +#define CSC_D_WEIGHT_SIZE_EXT_1_0 _MK_ADDR_CONST(0x4030)
> +#define CSC_D_WEIGHT_SIZE_EXT_1_0_WEIGHT_CHANNEL_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_WEIGHT_SIZE_EXT_1_0_WEIGHT_CHANNEL_EXT_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_WEIGHT_SIZE_EXT_1_0_WEIGHT_CHANNEL_EXT_SHIFT)
> +#define CSC_D_WEIGHT_SIZE_EXT_1_0_WEIGHT_KERNEL_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_WEIGHT_SIZE_EXT_1_0_WEIGHT_KERNEL_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_WEIGHT_SIZE_EXT_1_0_WEIGHT_KERNEL_SHIFT)
> +
> +
> +// Register CSC_D_WEIGHT_BYTES_0
> +#define CSC_D_WEIGHT_BYTES_0 _MK_ADDR_CONST(0x4034)
> +#define CSC_D_WEIGHT_BYTES_0_WEIGHT_BYTES_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_WEIGHT_BYTES_0_WEIGHT_BYTES_FIELD _MK_FIELD_CONST(0xffffffff, CSC_D_WEIGHT_BYTES_0_WEIGHT_BYTES_SHIFT)
> +
> +
> +// Register CSC_D_WMB_BYTES_0
> +#define CSC_D_WMB_BYTES_0 _MK_ADDR_CONST(0x4038)
> +#define CSC_D_WMB_BYTES_0_WMB_BYTES_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_WMB_BYTES_0_WMB_BYTES_FIELD _MK_FIELD_CONST(0xfffffff, CSC_D_WMB_BYTES_0_WMB_BYTES_SHIFT)
> +
> +
> +// Register CSC_D_DATAOUT_SIZE_0_0
> +#define CSC_D_DATAOUT_SIZE_0_0 _MK_ADDR_CONST(0x403c)
> +#define CSC_D_DATAOUT_SIZE_0_0_DATAOUT_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_DATAOUT_SIZE_0_0_DATAOUT_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_DATAOUT_SIZE_0_0_DATAOUT_WIDTH_SHIFT)
> +#define CSC_D_DATAOUT_SIZE_0_0_DATAOUT_HEIGHT_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_DATAOUT_SIZE_0_0_DATAOUT_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_DATAOUT_SIZE_0_0_DATAOUT_HEIGHT_SHIFT)
> +
> +
> +// Register CSC_D_DATAOUT_SIZE_1_0
> +#define CSC_D_DATAOUT_SIZE_1_0 _MK_ADDR_CONST(0x4040)
> +#define CSC_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, CSC_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_SHIFT)
> +
> +
> +// Register CSC_D_ATOMICS_0
> +#define CSC_D_ATOMICS_0 _MK_ADDR_CONST(0x4044)
> +#define CSC_D_ATOMICS_0_ATOMICS_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_ATOMICS_0_ATOMICS_FIELD _MK_FIELD_CONST(0x1fffff, CSC_D_ATOMICS_0_ATOMICS_SHIFT)
> +
> +
> +// Register CSC_D_RELEASE_0
> +#define CSC_D_RELEASE_0 _MK_ADDR_CONST(0x4048)
> +#define CSC_D_RELEASE_0_RLS_SLICES_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_RELEASE_0_RLS_SLICES_FIELD _MK_FIELD_CONST(0xfff, CSC_D_RELEASE_0_RLS_SLICES_SHIFT)
> +
> +
> +// Register CSC_D_CONV_STRIDE_EXT_0
> +#define CSC_D_CONV_STRIDE_EXT_0 _MK_ADDR_CONST(0x404c)
> +#define CSC_D_CONV_STRIDE_EXT_0_CONV_X_STRIDE_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_CONV_STRIDE_EXT_0_CONV_X_STRIDE_EXT_FIELD _MK_FIELD_CONST(0x7, CSC_D_CONV_STRIDE_EXT_0_CONV_X_STRIDE_EXT_SHIFT)
> +#define CSC_D_CONV_STRIDE_EXT_0_CONV_Y_STRIDE_EXT_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_CONV_STRIDE_EXT_0_CONV_Y_STRIDE_EXT_FIELD _MK_FIELD_CONST(0x7, CSC_D_CONV_STRIDE_EXT_0_CONV_Y_STRIDE_EXT_SHIFT)
> +
> +
> +// Register CSC_D_DILATION_EXT_0
> +#define CSC_D_DILATION_EXT_0 _MK_ADDR_CONST(0x4050)
> +#define CSC_D_DILATION_EXT_0_X_DILATION_EXT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_DILATION_EXT_0_X_DILATION_EXT_FIELD _MK_FIELD_CONST(0x1f, CSC_D_DILATION_EXT_0_X_DILATION_EXT_SHIFT)
> +#define CSC_D_DILATION_EXT_0_Y_DILATION_EXT_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_DILATION_EXT_0_Y_DILATION_EXT_FIELD _MK_FIELD_CONST(0x1f, CSC_D_DILATION_EXT_0_Y_DILATION_EXT_SHIFT)
> +
> +
> +// Register CSC_D_ZERO_PADDING_0
> +#define CSC_D_ZERO_PADDING_0 _MK_ADDR_CONST(0x4054)
> +#define CSC_D_ZERO_PADDING_0_PAD_LEFT_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_ZERO_PADDING_0_PAD_LEFT_FIELD _MK_FIELD_CONST(0x1f, CSC_D_ZERO_PADDING_0_PAD_LEFT_SHIFT)
> +#define CSC_D_ZERO_PADDING_0_PAD_TOP_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_ZERO_PADDING_0_PAD_TOP_FIELD _MK_FIELD_CONST(0x1f, CSC_D_ZERO_PADDING_0_PAD_TOP_SHIFT)
> +
> +
> +// Register CSC_D_ZERO_PADDING_VALUE_0
> +#define CSC_D_ZERO_PADDING_VALUE_0 _MK_ADDR_CONST(0x4058)
> +#define CSC_D_ZERO_PADDING_VALUE_0_PAD_VALUE_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_ZERO_PADDING_VALUE_0_PAD_VALUE_FIELD _MK_FIELD_CONST(0xffff, CSC_D_ZERO_PADDING_VALUE_0_PAD_VALUE_SHIFT)
> +
> +
> +// Register CSC_D_BANK_0
> +#define CSC_D_BANK_0 _MK_ADDR_CONST(0x405c)
> +#define CSC_D_BANK_0_DATA_BANK_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_BANK_0_DATA_BANK_FIELD _MK_FIELD_CONST(0x1f, CSC_D_BANK_0_DATA_BANK_SHIFT)
> +#define CSC_D_BANK_0_WEIGHT_BANK_SHIFT _MK_SHIFT_CONST(16)
> +#define CSC_D_BANK_0_WEIGHT_BANK_FIELD _MK_FIELD_CONST(0x1f, CSC_D_BANK_0_WEIGHT_BANK_SHIFT)
> +
> +
> +// Register CSC_D_PRA_CFG_0
> +#define CSC_D_PRA_CFG_0 _MK_ADDR_CONST(0x4060)
> +#define CSC_D_PRA_CFG_0_PRA_TRUNCATE_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_PRA_CFG_0_PRA_TRUNCATE_FIELD _MK_FIELD_CONST(0x3, CSC_D_PRA_CFG_0_PRA_TRUNCATE_SHIFT)
> +
> +
> +// Register CSC_D_CYA_0
> +#define CSC_D_CYA_0 _MK_ADDR_CONST(0x4064)
> +#define CSC_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define CSC_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, CSC_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CMAC_A_S_STATUS_0
> +#define CMAC_A_S_STATUS_0 _MK_ADDR_CONST(0x5000)
> +#define CMAC_A_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_A_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CMAC_A_S_STATUS_0_STATUS_0_SHIFT)
> +#define CMAC_A_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CMAC_A_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CMAC_A_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CMAC_A_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CMAC_A_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CMAC_A_S_STATUS_0_STATUS_1_SHIFT)
> +#define CMAC_A_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CMAC_A_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CMAC_A_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CMAC_A_S_POINTER_0
> +#define CMAC_A_S_POINTER_0 _MK_ADDR_CONST(0x5004)
> +#define CMAC_A_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_A_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CMAC_A_S_POINTER_0_PRODUCER_SHIFT)
> +#define CMAC_A_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CMAC_A_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CMAC_A_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CMAC_A_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CMAC_A_S_POINTER_0_CONSUMER_SHIFT)
> +#define CMAC_A_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CMAC_A_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CMAC_A_D_OP_ENABLE_0
> +#define CMAC_A_D_OP_ENABLE_0 _MK_ADDR_CONST(0x5008)
> +#define CMAC_A_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_A_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CMAC_A_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CMAC_A_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CMAC_A_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CMAC_A_D_MISC_CFG_0
> +#define CMAC_A_D_MISC_CFG_0 _MK_ADDR_CONST(0x500c)
> +#define CMAC_A_D_MISC_CFG_0_CONV_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_A_D_MISC_CFG_0_CONV_MODE_FIELD _MK_FIELD_CONST(0x1, CMAC_A_D_MISC_CFG_0_CONV_MODE_SHIFT)
> +#define CMAC_A_D_MISC_CFG_0_CONV_MODE_DIRECT _MK_ENUM_CONST(0x0)
> +#define CMAC_A_D_MISC_CFG_0_CONV_MODE_WINOGRAD _MK_ENUM_CONST(0x1)
> +#define CMAC_A_D_MISC_CFG_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(12)
> +#define CMAC_A_D_MISC_CFG_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, CMAC_A_D_MISC_CFG_0_PROC_PRECISION_SHIFT)
> +#define CMAC_A_D_MISC_CFG_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CMAC_A_D_MISC_CFG_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CMAC_A_D_MISC_CFG_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CMAC_B_S_STATUS_0
> +#define CMAC_B_S_STATUS_0 _MK_ADDR_CONST(0x6000)
> +#define CMAC_B_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_B_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CMAC_B_S_STATUS_0_STATUS_0_SHIFT)
> +#define CMAC_B_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CMAC_B_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CMAC_B_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CMAC_B_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CMAC_B_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CMAC_B_S_STATUS_0_STATUS_1_SHIFT)
> +#define CMAC_B_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CMAC_B_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CMAC_B_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CMAC_B_S_POINTER_0
> +#define CMAC_B_S_POINTER_0 _MK_ADDR_CONST(0x6004)
> +#define CMAC_B_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_B_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CMAC_B_S_POINTER_0_PRODUCER_SHIFT)
> +#define CMAC_B_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CMAC_B_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CMAC_B_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CMAC_B_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CMAC_B_S_POINTER_0_CONSUMER_SHIFT)
> +#define CMAC_B_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CMAC_B_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CMAC_B_D_OP_ENABLE_0
> +#define CMAC_B_D_OP_ENABLE_0 _MK_ADDR_CONST(0x6008)
> +#define CMAC_B_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_B_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CMAC_B_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CMAC_B_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CMAC_B_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CMAC_B_D_MISC_CFG_0
> +#define CMAC_B_D_MISC_CFG_0 _MK_ADDR_CONST(0x600c)
> +#define CMAC_B_D_MISC_CFG_0_CONV_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define CMAC_B_D_MISC_CFG_0_CONV_MODE_FIELD _MK_FIELD_CONST(0x1, CMAC_B_D_MISC_CFG_0_CONV_MODE_SHIFT)
> +#define CMAC_B_D_MISC_CFG_0_CONV_MODE_DIRECT _MK_ENUM_CONST(0x0)
> +#define CMAC_B_D_MISC_CFG_0_CONV_MODE_WINOGRAD _MK_ENUM_CONST(0x1)
> +#define CMAC_B_D_MISC_CFG_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(12)
> +#define CMAC_B_D_MISC_CFG_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, CMAC_B_D_MISC_CFG_0_PROC_PRECISION_SHIFT)
> +#define CMAC_B_D_MISC_CFG_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CMAC_B_D_MISC_CFG_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CMAC_B_D_MISC_CFG_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CACC_S_STATUS_0
> +#define CACC_S_STATUS_0 _MK_ADDR_CONST(0x7000)
> +#define CACC_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CACC_S_STATUS_0_STATUS_0_SHIFT)
> +#define CACC_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CACC_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CACC_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CACC_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CACC_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CACC_S_STATUS_0_STATUS_1_SHIFT)
> +#define CACC_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CACC_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CACC_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CACC_S_POINTER_0
> +#define CACC_S_POINTER_0 _MK_ADDR_CONST(0x7004)
> +#define CACC_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CACC_S_POINTER_0_PRODUCER_SHIFT)
> +#define CACC_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CACC_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CACC_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CACC_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CACC_S_POINTER_0_CONSUMER_SHIFT)
> +#define CACC_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CACC_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CACC_D_OP_ENABLE_0
> +#define CACC_D_OP_ENABLE_0 _MK_ADDR_CONST(0x7008)
> +#define CACC_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CACC_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CACC_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CACC_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CACC_D_MISC_CFG_0
> +#define CACC_D_MISC_CFG_0 _MK_ADDR_CONST(0x700c)
> +#define CACC_D_MISC_CFG_0_CONV_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_MISC_CFG_0_CONV_MODE_FIELD _MK_FIELD_CONST(0x1, CACC_D_MISC_CFG_0_CONV_MODE_SHIFT)
> +#define CACC_D_MISC_CFG_0_CONV_MODE_DIRECT _MK_ENUM_CONST(0x0)
> +#define CACC_D_MISC_CFG_0_CONV_MODE_WINOGRAD _MK_ENUM_CONST(0x1)
> +#define CACC_D_MISC_CFG_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(12)
> +#define CACC_D_MISC_CFG_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, CACC_D_MISC_CFG_0_PROC_PRECISION_SHIFT)
> +#define CACC_D_MISC_CFG_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define CACC_D_MISC_CFG_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define CACC_D_MISC_CFG_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CACC_D_DATAOUT_SIZE_0_0
> +#define CACC_D_DATAOUT_SIZE_0_0 _MK_ADDR_CONST(0x7010)
> +#define CACC_D_DATAOUT_SIZE_0_0_DATAOUT_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_DATAOUT_SIZE_0_0_DATAOUT_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, CACC_D_DATAOUT_SIZE_0_0_DATAOUT_WIDTH_SHIFT)
> +#define CACC_D_DATAOUT_SIZE_0_0_DATAOUT_HEIGHT_SHIFT _MK_SHIFT_CONST(16)
> +#define CACC_D_DATAOUT_SIZE_0_0_DATAOUT_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, CACC_D_DATAOUT_SIZE_0_0_DATAOUT_HEIGHT_SHIFT)
> +
> +
> +// Register CACC_D_DATAOUT_SIZE_1_0
> +#define CACC_D_DATAOUT_SIZE_1_0 _MK_ADDR_CONST(0x7014)
> +#define CACC_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, CACC_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_SHIFT)
> +
> +
> +// Register CACC_D_DATAOUT_ADDR_0
> +#define CACC_D_DATAOUT_ADDR_0 _MK_ADDR_CONST(0x7018)
> +#define CACC_D_DATAOUT_ADDR_0_DATAOUT_ADDR_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_DATAOUT_ADDR_0_DATAOUT_ADDR_FIELD _MK_FIELD_CONST(0xffffffff, CACC_D_DATAOUT_ADDR_0_DATAOUT_ADDR_SHIFT)
> +
> +
> +// Register CACC_D_BATCH_NUMBER_0
> +#define CACC_D_BATCH_NUMBER_0 _MK_ADDR_CONST(0x701c)
> +#define CACC_D_BATCH_NUMBER_0_BATCHES_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_BATCH_NUMBER_0_BATCHES_FIELD _MK_FIELD_CONST(0x1f, CACC_D_BATCH_NUMBER_0_BATCHES_SHIFT)
> +
> +
> +// Register CACC_D_LINE_STRIDE_0
> +#define CACC_D_LINE_STRIDE_0 _MK_ADDR_CONST(0x7020)
> +#define CACC_D_LINE_STRIDE_0_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_LINE_STRIDE_0_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffff, CACC_D_LINE_STRIDE_0_LINE_STRIDE_SHIFT)
> +
> +
> +// Register CACC_D_SURF_STRIDE_0
> +#define CACC_D_SURF_STRIDE_0 _MK_ADDR_CONST(0x7024)
> +#define CACC_D_SURF_STRIDE_0_SURF_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_SURF_STRIDE_0_SURF_STRIDE_FIELD _MK_FIELD_CONST(0xffffff, CACC_D_SURF_STRIDE_0_SURF_STRIDE_SHIFT)
> +
> +
> +// Register CACC_D_DATAOUT_MAP_0
> +#define CACC_D_DATAOUT_MAP_0 _MK_ADDR_CONST(0x7028)
> +#define CACC_D_DATAOUT_MAP_0_LINE_PACKED_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_DATAOUT_MAP_0_LINE_PACKED_FIELD _MK_FIELD_CONST(0x1, CACC_D_DATAOUT_MAP_0_LINE_PACKED_SHIFT)
> +#define CACC_D_DATAOUT_MAP_0_LINE_PACKED_FALSE _MK_ENUM_CONST(0x0)
> +#define CACC_D_DATAOUT_MAP_0_LINE_PACKED_TRUE _MK_ENUM_CONST(0x1)
> +#define CACC_D_DATAOUT_MAP_0_SURF_PACKED_SHIFT _MK_SHIFT_CONST(16)
> +#define CACC_D_DATAOUT_MAP_0_SURF_PACKED_FIELD _MK_FIELD_CONST(0x1, CACC_D_DATAOUT_MAP_0_SURF_PACKED_SHIFT)
> +#define CACC_D_DATAOUT_MAP_0_SURF_PACKED_FALSE _MK_ENUM_CONST(0x0)
> +#define CACC_D_DATAOUT_MAP_0_SURF_PACKED_TRUE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CACC_D_CLIP_CFG_0
> +#define CACC_D_CLIP_CFG_0 _MK_ADDR_CONST(0x702c)
> +#define CACC_D_CLIP_CFG_0_CLIP_TRUNCATE_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_CLIP_CFG_0_CLIP_TRUNCATE_FIELD _MK_FIELD_CONST(0x1f, CACC_D_CLIP_CFG_0_CLIP_TRUNCATE_SHIFT)
> +
> +
> +// Register CACC_D_OUT_SATURATION_0
> +#define CACC_D_OUT_SATURATION_0 _MK_ADDR_CONST(0x7030)
> +#define CACC_D_OUT_SATURATION_0_SAT_COUNT_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_OUT_SATURATION_0_SAT_COUNT_FIELD _MK_FIELD_CONST(0xffffffff, CACC_D_OUT_SATURATION_0_SAT_COUNT_SHIFT)
> +
> +
> +// Register CACC_D_CYA_0
> +#define CACC_D_CYA_0 _MK_ADDR_CONST(0x7034)
> +#define CACC_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define CACC_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, CACC_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register SDP_RDMA_S_STATUS_0
> +#define SDP_RDMA_S_STATUS_0 _MK_ADDR_CONST(0x8000)
> +#define SDP_RDMA_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_S_STATUS_0_STATUS_0_SHIFT)
> +#define SDP_RDMA_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_RDMA_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_S_STATUS_0_STATUS_1_SHIFT)
> +#define SDP_RDMA_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register SDP_RDMA_S_POINTER_0
> +#define SDP_RDMA_S_POINTER_0 _MK_ADDR_CONST(0x8004)
> +#define SDP_RDMA_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_S_POINTER_0_PRODUCER_SHIFT)
> +#define SDP_RDMA_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_RDMA_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_S_POINTER_0_CONSUMER_SHIFT)
> +#define SDP_RDMA_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_OP_ENABLE_0
> +#define SDP_RDMA_D_OP_ENABLE_0 _MK_ADDR_CONST(0x8008)
> +#define SDP_RDMA_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define SDP_RDMA_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_DATA_CUBE_WIDTH_0
> +#define SDP_RDMA_D_DATA_CUBE_WIDTH_0 _MK_ADDR_CONST(0x800c)
> +#define SDP_RDMA_D_DATA_CUBE_WIDTH_0_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_DATA_CUBE_WIDTH_0_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, SDP_RDMA_D_DATA_CUBE_WIDTH_0_WIDTH_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_DATA_CUBE_HEIGHT_0
> +#define SDP_RDMA_D_DATA_CUBE_HEIGHT_0 _MK_ADDR_CONST(0x8010)
> +#define SDP_RDMA_D_DATA_CUBE_HEIGHT_0_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_DATA_CUBE_HEIGHT_0_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, SDP_RDMA_D_DATA_CUBE_HEIGHT_0_HEIGHT_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_DATA_CUBE_CHANNEL_0
> +#define SDP_RDMA_D_DATA_CUBE_CHANNEL_0 _MK_ADDR_CONST(0x8014)
> +#define SDP_RDMA_D_DATA_CUBE_CHANNEL_0_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_DATA_CUBE_CHANNEL_0_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, SDP_RDMA_D_DATA_CUBE_CHANNEL_0_CHANNEL_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_SRC_BASE_ADDR_LOW_0
> +#define SDP_RDMA_D_SRC_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0x8018)
> +#define SDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_SRC_BASE_ADDR_HIGH_0
> +#define SDP_RDMA_D_SRC_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0x801c)
> +#define SDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_SRC_LINE_STRIDE_0
> +#define SDP_RDMA_D_SRC_LINE_STRIDE_0 _MK_ADDR_CONST(0x8020)
> +#define SDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_SRC_SURFACE_STRIDE_0
> +#define SDP_RDMA_D_SRC_SURFACE_STRIDE_0 _MK_ADDR_CONST(0x8024)
> +#define SDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BRDMA_CFG_0
> +#define SDP_RDMA_D_BRDMA_CFG_0 _MK_ADDR_CONST(0x8028)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DISABLE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DISABLE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DISABLE_SHIFT)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DISABLE_NO _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DISABLE_YES _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_USE_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_USE_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_USE_SHIFT)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_USE_MUL _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_USE_ALU _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_USE_BOTH _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_SIZE_SHIFT _MK_SHIFT_CONST(3)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_SIZE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_SIZE_SHIFT)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_SIZE_ONE_BYTE _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_SIZE_TWO_BYTE _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_MODE_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_MODE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_MODE_SHIFT)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_MODE_PER_KERNEL _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_DATA_MODE_PER_ELEMENT _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_RAM_TYPE_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_BRDMA_CFG_0_BRDMA_RAM_TYPE_SHIFT)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_BRDMA_CFG_0_BRDMA_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_BS_BASE_ADDR_LOW_0
> +#define SDP_RDMA_D_BS_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0x802c)
> +#define SDP_RDMA_D_BS_BASE_ADDR_LOW_0_BS_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BS_BASE_ADDR_LOW_0_BS_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BS_BASE_ADDR_LOW_0_BS_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BS_BASE_ADDR_HIGH_0
> +#define SDP_RDMA_D_BS_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0x8030)
> +#define SDP_RDMA_D_BS_BASE_ADDR_HIGH_0_BS_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BS_BASE_ADDR_HIGH_0_BS_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BS_BASE_ADDR_HIGH_0_BS_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BS_LINE_STRIDE_0
> +#define SDP_RDMA_D_BS_LINE_STRIDE_0 _MK_ADDR_CONST(0x8034)
> +#define SDP_RDMA_D_BS_LINE_STRIDE_0_BS_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BS_LINE_STRIDE_0_BS_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BS_LINE_STRIDE_0_BS_LINE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BS_SURFACE_STRIDE_0
> +#define SDP_RDMA_D_BS_SURFACE_STRIDE_0 _MK_ADDR_CONST(0x8038)
> +#define SDP_RDMA_D_BS_SURFACE_STRIDE_0_BS_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BS_SURFACE_STRIDE_0_BS_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BS_SURFACE_STRIDE_0_BS_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BS_BATCH_STRIDE_0
> +#define SDP_RDMA_D_BS_BATCH_STRIDE_0 _MK_ADDR_CONST(0x803c)
> +#define SDP_RDMA_D_BS_BATCH_STRIDE_0_BS_BATCH_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BS_BATCH_STRIDE_0_BS_BATCH_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BS_BATCH_STRIDE_0_BS_BATCH_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_NRDMA_CFG_0
> +#define SDP_RDMA_D_NRDMA_CFG_0 _MK_ADDR_CONST(0x8040)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DISABLE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DISABLE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DISABLE_SHIFT)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DISABLE_NO _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DISABLE_YES _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_USE_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_USE_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_USE_SHIFT)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_USE_MUL _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_USE_ALU _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_USE_BOTH _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_SIZE_SHIFT _MK_SHIFT_CONST(3)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_SIZE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_SIZE_SHIFT)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_SIZE_ONE_BYTE _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_SIZE_TWO_BYTE _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_MODE_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_MODE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_MODE_SHIFT)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_MODE_PER_KERNEL _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_DATA_MODE_PER_ELEMENT _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_RAM_TYPE_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_NRDMA_CFG_0_NRDMA_RAM_TYPE_SHIFT)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_NRDMA_CFG_0_NRDMA_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_BN_BASE_ADDR_LOW_0
> +#define SDP_RDMA_D_BN_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0x8044)
> +#define SDP_RDMA_D_BN_BASE_ADDR_LOW_0_BN_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BN_BASE_ADDR_LOW_0_BN_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BN_BASE_ADDR_LOW_0_BN_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BN_BASE_ADDR_HIGH_0
> +#define SDP_RDMA_D_BN_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0x8048)
> +#define SDP_RDMA_D_BN_BASE_ADDR_HIGH_0_BN_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BN_BASE_ADDR_HIGH_0_BN_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BN_BASE_ADDR_HIGH_0_BN_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BN_LINE_STRIDE_0
> +#define SDP_RDMA_D_BN_LINE_STRIDE_0 _MK_ADDR_CONST(0x804c)
> +#define SDP_RDMA_D_BN_LINE_STRIDE_0_BN_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BN_LINE_STRIDE_0_BN_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BN_LINE_STRIDE_0_BN_LINE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BN_SURFACE_STRIDE_0
> +#define SDP_RDMA_D_BN_SURFACE_STRIDE_0 _MK_ADDR_CONST(0x8050)
> +#define SDP_RDMA_D_BN_SURFACE_STRIDE_0_BN_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BN_SURFACE_STRIDE_0_BN_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BN_SURFACE_STRIDE_0_BN_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_BN_BATCH_STRIDE_0
> +#define SDP_RDMA_D_BN_BATCH_STRIDE_0 _MK_ADDR_CONST(0x8054)
> +#define SDP_RDMA_D_BN_BATCH_STRIDE_0_BN_BATCH_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_BN_BATCH_STRIDE_0_BN_BATCH_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_BN_BATCH_STRIDE_0_BN_BATCH_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_ERDMA_CFG_0
> +#define SDP_RDMA_D_ERDMA_CFG_0 _MK_ADDR_CONST(0x8058)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DISABLE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DISABLE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DISABLE_SHIFT)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DISABLE_NO _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DISABLE_YES _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_USE_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_USE_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_USE_SHIFT)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_USE_MUL _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_USE_ALU _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_USE_BOTH _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_SIZE_SHIFT _MK_SHIFT_CONST(3)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_SIZE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_SIZE_SHIFT)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_SIZE_ONE_BYTE _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_SIZE_TWO_BYTE _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_MODE_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_MODE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_MODE_SHIFT)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_MODE_PER_KERNEL _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_DATA_MODE_PER_ELEMENT _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_RAM_TYPE_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_ERDMA_CFG_0_ERDMA_RAM_TYPE_SHIFT)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_ERDMA_CFG_0_ERDMA_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_EW_BASE_ADDR_LOW_0
> +#define SDP_RDMA_D_EW_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0x805c)
> +#define SDP_RDMA_D_EW_BASE_ADDR_LOW_0_EW_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_EW_BASE_ADDR_LOW_0_EW_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_EW_BASE_ADDR_LOW_0_EW_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_EW_BASE_ADDR_HIGH_0
> +#define SDP_RDMA_D_EW_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0x8060)
> +#define SDP_RDMA_D_EW_BASE_ADDR_HIGH_0_EW_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_EW_BASE_ADDR_HIGH_0_EW_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_EW_BASE_ADDR_HIGH_0_EW_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_EW_LINE_STRIDE_0
> +#define SDP_RDMA_D_EW_LINE_STRIDE_0 _MK_ADDR_CONST(0x8064)
> +#define SDP_RDMA_D_EW_LINE_STRIDE_0_EW_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_EW_LINE_STRIDE_0_EW_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_EW_LINE_STRIDE_0_EW_LINE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_EW_SURFACE_STRIDE_0
> +#define SDP_RDMA_D_EW_SURFACE_STRIDE_0 _MK_ADDR_CONST(0x8068)
> +#define SDP_RDMA_D_EW_SURFACE_STRIDE_0_EW_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_EW_SURFACE_STRIDE_0_EW_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_EW_SURFACE_STRIDE_0_EW_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_EW_BATCH_STRIDE_0
> +#define SDP_RDMA_D_EW_BATCH_STRIDE_0 _MK_ADDR_CONST(0x806c)
> +#define SDP_RDMA_D_EW_BATCH_STRIDE_0_EW_BATCH_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_EW_BATCH_STRIDE_0_EW_BATCH_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_EW_BATCH_STRIDE_0_EW_BATCH_STRIDE_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_FEATURE_MODE_CFG_0
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0 _MK_ADDR_CONST(0x8070)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_FLYING_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_FLYING_MODE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_FEATURE_MODE_CFG_0_FLYING_MODE_SHIFT)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_FLYING_MODE_OFF _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_FLYING_MODE_ON _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_WINOGRAD_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_WINOGRAD_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_FEATURE_MODE_CFG_0_WINOGRAD_SHIFT)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_WINOGRAD_OFF _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_WINOGRAD_ON _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_IN_PRECISION_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_IN_PRECISION_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_D_FEATURE_MODE_CFG_0_IN_PRECISION_SHIFT)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_IN_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_IN_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_IN_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_D_FEATURE_MODE_CFG_0_PROC_PRECISION_SHIFT)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_OUT_PRECISION_SHIFT _MK_SHIFT_CONST(6)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_OUT_PRECISION_FIELD _MK_FIELD_CONST(0x3, SDP_RDMA_D_FEATURE_MODE_CFG_0_OUT_PRECISION_SHIFT)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_OUT_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_OUT_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_OUT_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_BATCH_NUMBER_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_RDMA_D_FEATURE_MODE_CFG_0_BATCH_NUMBER_FIELD _MK_FIELD_CONST(0x1f, SDP_RDMA_D_FEATURE_MODE_CFG_0_BATCH_NUMBER_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_SRC_DMA_CFG_0
> +#define SDP_RDMA_D_SRC_DMA_CFG_0 _MK_ADDR_CONST(0x8074)
> +#define SDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_SHIFT)
> +#define SDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_STATUS_NAN_INPUT_NUM_0
> +#define SDP_RDMA_D_STATUS_NAN_INPUT_NUM_0 _MK_ADDR_CONST(0x8078)
> +#define SDP_RDMA_D_STATUS_NAN_INPUT_NUM_0_STATUS_NAN_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_STATUS_NAN_INPUT_NUM_0_STATUS_NAN_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_STATUS_NAN_INPUT_NUM_0_STATUS_NAN_INPUT_NUM_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_STATUS_INF_INPUT_NUM_0
> +#define SDP_RDMA_D_STATUS_INF_INPUT_NUM_0 _MK_ADDR_CONST(0x807c)
> +#define SDP_RDMA_D_STATUS_INF_INPUT_NUM_0_STATUS_INF_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_STATUS_INF_INPUT_NUM_0_STATUS_INF_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_STATUS_INF_INPUT_NUM_0_STATUS_INF_INPUT_NUM_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_PERF_ENABLE_0
> +#define SDP_RDMA_D_PERF_ENABLE_0 _MK_ADDR_CONST(0x8080)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_DMA_EN_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_PERF_ENABLE_0_PERF_DMA_EN_SHIFT)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_DMA_EN_NO _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_DMA_EN_YES _MK_ENUM_CONST(0x1)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_FIELD _MK_FIELD_CONST(0x1, SDP_RDMA_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_SHIFT)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_NO _MK_ENUM_CONST(0x0)
> +#define SDP_RDMA_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_RDMA_D_PERF_MRDMA_READ_STALL_0
> +#define SDP_RDMA_D_PERF_MRDMA_READ_STALL_0 _MK_ADDR_CONST(0x8084)
> +#define SDP_RDMA_D_PERF_MRDMA_READ_STALL_0_MRDMA_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_PERF_MRDMA_READ_STALL_0_MRDMA_STALL_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_PERF_MRDMA_READ_STALL_0_MRDMA_STALL_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_PERF_BRDMA_READ_STALL_0
> +#define SDP_RDMA_D_PERF_BRDMA_READ_STALL_0 _MK_ADDR_CONST(0x8088)
> +#define SDP_RDMA_D_PERF_BRDMA_READ_STALL_0_BRDMA_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_PERF_BRDMA_READ_STALL_0_BRDMA_STALL_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_PERF_BRDMA_READ_STALL_0_BRDMA_STALL_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_PERF_NRDMA_READ_STALL_0
> +#define SDP_RDMA_D_PERF_NRDMA_READ_STALL_0 _MK_ADDR_CONST(0x808c)
> +#define SDP_RDMA_D_PERF_NRDMA_READ_STALL_0_NRDMA_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_PERF_NRDMA_READ_STALL_0_NRDMA_STALL_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_PERF_NRDMA_READ_STALL_0_NRDMA_STALL_SHIFT)
> +
> +
> +// Register SDP_RDMA_D_PERF_ERDMA_READ_STALL_0
> +#define SDP_RDMA_D_PERF_ERDMA_READ_STALL_0 _MK_ADDR_CONST(0x8090)
> +#define SDP_RDMA_D_PERF_ERDMA_READ_STALL_0_ERDMA_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_RDMA_D_PERF_ERDMA_READ_STALL_0_ERDMA_STALL_FIELD _MK_FIELD_CONST(0xffffffff, SDP_RDMA_D_PERF_ERDMA_READ_STALL_0_ERDMA_STALL_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register SDP_S_STATUS_0
> +#define SDP_S_STATUS_0 _MK_ADDR_CONST(0x9000)
> +#define SDP_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, SDP_S_STATUS_0_STATUS_0_SHIFT)
> +#define SDP_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define SDP_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define SDP_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define SDP_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, SDP_S_STATUS_0_STATUS_1_SHIFT)
> +#define SDP_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define SDP_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define SDP_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register SDP_S_POINTER_0
> +#define SDP_S_POINTER_0 _MK_ADDR_CONST(0x9004)
> +#define SDP_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, SDP_S_POINTER_0_PRODUCER_SHIFT)
> +#define SDP_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define SDP_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define SDP_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, SDP_S_POINTER_0_CONSUMER_SHIFT)
> +#define SDP_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define SDP_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_S_LUT_ACCESS_CFG_0
> +#define SDP_S_LUT_ACCESS_CFG_0 _MK_ADDR_CONST(0x9008)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_ADDR_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_ADDR_FIELD _MK_FIELD_CONST(0x3ff, SDP_S_LUT_ACCESS_CFG_0_LUT_ADDR_SHIFT)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_FIELD _MK_FIELD_CONST(0x1, SDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_SHIFT)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_LE _MK_ENUM_CONST(0x0)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_LO _MK_ENUM_CONST(0x1)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_SHIFT _MK_SHIFT_CONST(17)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_FIELD _MK_FIELD_CONST(0x1, SDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_SHIFT)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_READ _MK_ENUM_CONST(0x0)
> +#define SDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_WRITE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_S_LUT_ACCESS_DATA_0
> +#define SDP_S_LUT_ACCESS_DATA_0 _MK_ADDR_CONST(0x900c)
> +#define SDP_S_LUT_ACCESS_DATA_0_LUT_DATA_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_ACCESS_DATA_0_LUT_DATA_FIELD _MK_FIELD_CONST(0xffff, SDP_S_LUT_ACCESS_DATA_0_LUT_DATA_SHIFT)
> +
> +
> +// Register SDP_S_LUT_CFG_0
> +#define SDP_S_LUT_CFG_0 _MK_ADDR_CONST(0x9010)
> +#define SDP_S_LUT_CFG_0_LUT_LE_FUNCTION_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_CFG_0_LUT_LE_FUNCTION_FIELD _MK_FIELD_CONST(0x1, SDP_S_LUT_CFG_0_LUT_LE_FUNCTION_SHIFT)
> +#define SDP_S_LUT_CFG_0_LUT_LE_FUNCTION_EXPONENT _MK_ENUM_CONST(0x0)
> +#define SDP_S_LUT_CFG_0_LUT_LE_FUNCTION_LINEAR _MK_ENUM_CONST(0x1)
> +#define SDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_FIELD _MK_FIELD_CONST(0x1, SDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_SHIFT)
> +#define SDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_LE _MK_ENUM_CONST(0x0)
> +#define SDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_LO _MK_ENUM_CONST(0x1)
> +#define SDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_FIELD _MK_FIELD_CONST(0x1, SDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_SHIFT)
> +#define SDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_LE _MK_ENUM_CONST(0x0)
> +#define SDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_LO _MK_ENUM_CONST(0x1)
> +#define SDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_SHIFT _MK_SHIFT_CONST(6)
> +#define SDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_FIELD _MK_FIELD_CONST(0x1, SDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_SHIFT)
> +#define SDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_LE _MK_ENUM_CONST(0x0)
> +#define SDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_LO _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_S_LUT_INFO_0
> +#define SDP_S_LUT_INFO_0 _MK_ADDR_CONST(0x9014)
> +#define SDP_S_LUT_INFO_0_LUT_LE_INDEX_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_INFO_0_LUT_LE_INDEX_OFFSET_FIELD _MK_FIELD_CONST(0xff, SDP_S_LUT_INFO_0_LUT_LE_INDEX_OFFSET_SHIFT)
> +#define SDP_S_LUT_INFO_0_LUT_LE_INDEX_SELECT_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_S_LUT_INFO_0_LUT_LE_INDEX_SELECT_FIELD _MK_FIELD_CONST(0xff, SDP_S_LUT_INFO_0_LUT_LE_INDEX_SELECT_SHIFT)
> +#define SDP_S_LUT_INFO_0_LUT_LO_INDEX_SELECT_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_S_LUT_INFO_0_LUT_LO_INDEX_SELECT_FIELD _MK_FIELD_CONST(0xff, SDP_S_LUT_INFO_0_LUT_LO_INDEX_SELECT_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LE_START_0
> +#define SDP_S_LUT_LE_START_0 _MK_ADDR_CONST(0x9018)
> +#define SDP_S_LUT_LE_START_0_LUT_LE_START_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LE_START_0_LUT_LE_START_FIELD _MK_FIELD_CONST(0xffffffff, SDP_S_LUT_LE_START_0_LUT_LE_START_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LE_END_0
> +#define SDP_S_LUT_LE_END_0 _MK_ADDR_CONST(0x901c)
> +#define SDP_S_LUT_LE_END_0_LUT_LE_END_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LE_END_0_LUT_LE_END_FIELD _MK_FIELD_CONST(0xffffffff, SDP_S_LUT_LE_END_0_LUT_LE_END_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LO_START_0
> +#define SDP_S_LUT_LO_START_0 _MK_ADDR_CONST(0x9020)
> +#define SDP_S_LUT_LO_START_0_LUT_LO_START_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LO_START_0_LUT_LO_START_FIELD _MK_FIELD_CONST(0xffffffff, SDP_S_LUT_LO_START_0_LUT_LO_START_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LO_END_0
> +#define SDP_S_LUT_LO_END_0 _MK_ADDR_CONST(0x9024)
> +#define SDP_S_LUT_LO_END_0_LUT_LO_END_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LO_END_0_LUT_LO_END_FIELD _MK_FIELD_CONST(0xffffffff, SDP_S_LUT_LO_END_0_LUT_LO_END_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LE_SLOPE_SCALE_0
> +#define SDP_S_LUT_LE_SLOPE_SCALE_0 _MK_ADDR_CONST(0x9028)
> +#define SDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_UFLOW_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_UFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_UFLOW_SCALE_SHIFT)
> +#define SDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_OFLOW_SCALE_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_OFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_OFLOW_SCALE_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LE_SLOPE_SHIFT_0
> +#define SDP_S_LUT_LE_SLOPE_SHIFT_0 _MK_ADDR_CONST(0x902c)
> +#define SDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_UFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_UFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, SDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_UFLOW_SHIFT_SHIFT)
> +#define SDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_OFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_OFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, SDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_OFLOW_SHIFT_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LO_SLOPE_SCALE_0
> +#define SDP_S_LUT_LO_SLOPE_SCALE_0 _MK_ADDR_CONST(0x9030)
> +#define SDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_UFLOW_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_UFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_UFLOW_SCALE_SHIFT)
> +#define SDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_OFLOW_SCALE_SHIFT _MK_SHIFT_CONST(16)
> +#define SDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_OFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_OFLOW_SCALE_SHIFT)
> +
> +
> +// Register SDP_S_LUT_LO_SLOPE_SHIFT_0
> +#define SDP_S_LUT_LO_SLOPE_SHIFT_0 _MK_ADDR_CONST(0x9034)
> +#define SDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_UFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_UFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, SDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_UFLOW_SHIFT_SHIFT)
> +#define SDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_OFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_OFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, SDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_OFLOW_SHIFT_SHIFT)
> +
> +
> +// Register SDP_D_OP_ENABLE_0
> +#define SDP_D_OP_ENABLE_0 _MK_ADDR_CONST(0x9038)
> +#define SDP_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, SDP_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define SDP_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define SDP_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DATA_CUBE_WIDTH_0
> +#define SDP_D_DATA_CUBE_WIDTH_0 _MK_ADDR_CONST(0x903c)
> +#define SDP_D_DATA_CUBE_WIDTH_0_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DATA_CUBE_WIDTH_0_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, SDP_D_DATA_CUBE_WIDTH_0_WIDTH_SHIFT)
> +
> +
> +// Register SDP_D_DATA_CUBE_HEIGHT_0
> +#define SDP_D_DATA_CUBE_HEIGHT_0 _MK_ADDR_CONST(0x9040)
> +#define SDP_D_DATA_CUBE_HEIGHT_0_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DATA_CUBE_HEIGHT_0_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, SDP_D_DATA_CUBE_HEIGHT_0_HEIGHT_SHIFT)
> +
> +
> +// Register SDP_D_DATA_CUBE_CHANNEL_0
> +#define SDP_D_DATA_CUBE_CHANNEL_0 _MK_ADDR_CONST(0x9044)
> +#define SDP_D_DATA_CUBE_CHANNEL_0_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DATA_CUBE_CHANNEL_0_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, SDP_D_DATA_CUBE_CHANNEL_0_CHANNEL_SHIFT)
> +
> +
> +// Register SDP_D_DST_BASE_ADDR_LOW_0
> +#define SDP_D_DST_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0x9048)
> +#define SDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register SDP_D_DST_BASE_ADDR_HIGH_0
> +#define SDP_D_DST_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0x904c)
> +#define SDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register SDP_D_DST_LINE_STRIDE_0
> +#define SDP_D_DST_LINE_STRIDE_0 _MK_ADDR_CONST(0x9050)
> +#define SDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_D_DST_SURFACE_STRIDE_0
> +#define SDP_D_DST_SURFACE_STRIDE_0 _MK_ADDR_CONST(0x9054)
> +#define SDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register SDP_D_DP_BS_CFG_0
> +#define SDP_D_DP_BS_CFG_0 _MK_ADDR_CONST(0x9058)
> +#define SDP_D_DP_BS_CFG_0_BS_BYPASS_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BS_CFG_0_BS_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_CFG_0_BS_BYPASS_SHIFT)
> +#define SDP_D_DP_BS_CFG_0_BS_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_CFG_0_BS_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_BYPASS_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_CFG_0_BS_ALU_BYPASS_SHIFT)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_ALGO_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_ALGO_FIELD _MK_FIELD_CONST(0x3, SDP_D_DP_BS_CFG_0_BS_ALU_ALGO_SHIFT)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_ALGO_MAX _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_ALGO_MIN _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_CFG_0_BS_ALU_ALGO_SUM _MK_ENUM_CONST(0x2)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_BYPASS_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_CFG_0_BS_MUL_BYPASS_SHIFT)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_PRELU_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_PRELU_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_CFG_0_BS_MUL_PRELU_SHIFT)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_PRELU_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_CFG_0_BS_MUL_PRELU_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_CFG_0_BS_RELU_BYPASS_SHIFT _MK_SHIFT_CONST(6)
> +#define SDP_D_DP_BS_CFG_0_BS_RELU_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_CFG_0_BS_RELU_BYPASS_SHIFT)
> +#define SDP_D_DP_BS_CFG_0_BS_RELU_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_CFG_0_BS_RELU_BYPASS_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DP_BS_ALU_CFG_0
> +#define SDP_D_DP_BS_ALU_CFG_0 _MK_ADDR_CONST(0x905c)
> +#define SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SRC_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SRC_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SRC_SHIFT)
> +#define SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SRC_REG _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SRC_MEM _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SHIFT_VALUE_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SHIFT_VALUE_FIELD _MK_FIELD_CONST(0x3f, SDP_D_DP_BS_ALU_CFG_0_BS_ALU_SHIFT_VALUE_SHIFT)
> +
> +
> +// Register SDP_D_DP_BS_ALU_SRC_VALUE_0
> +#define SDP_D_DP_BS_ALU_SRC_VALUE_0 _MK_ADDR_CONST(0x9060)
> +#define SDP_D_DP_BS_ALU_SRC_VALUE_0_BS_ALU_OPERAND_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BS_ALU_SRC_VALUE_0_BS_ALU_OPERAND_FIELD _MK_FIELD_CONST(0xffff, SDP_D_DP_BS_ALU_SRC_VALUE_0_BS_ALU_OPERAND_SHIFT)
> +
> +
> +// Register SDP_D_DP_BS_MUL_CFG_0
> +#define SDP_D_DP_BS_MUL_CFG_0 _MK_ADDR_CONST(0x9064)
> +#define SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SRC_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SRC_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SRC_SHIFT)
> +#define SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SRC_REG _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SRC_MEM _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SHIFT_VALUE_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SHIFT_VALUE_FIELD _MK_FIELD_CONST(0xff, SDP_D_DP_BS_MUL_CFG_0_BS_MUL_SHIFT_VALUE_SHIFT)
> +
> +
> +// Register SDP_D_DP_BS_MUL_SRC_VALUE_0
> +#define SDP_D_DP_BS_MUL_SRC_VALUE_0 _MK_ADDR_CONST(0x9068)
> +#define SDP_D_DP_BS_MUL_SRC_VALUE_0_BS_MUL_OPERAND_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BS_MUL_SRC_VALUE_0_BS_MUL_OPERAND_FIELD _MK_FIELD_CONST(0xffff, SDP_D_DP_BS_MUL_SRC_VALUE_0_BS_MUL_OPERAND_SHIFT)
> +
> +
> +// Register SDP_D_DP_BN_CFG_0
> +#define SDP_D_DP_BN_CFG_0 _MK_ADDR_CONST(0x906c)
> +#define SDP_D_DP_BN_CFG_0_BN_BYPASS_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BN_CFG_0_BN_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_CFG_0_BN_BYPASS_SHIFT)
> +#define SDP_D_DP_BN_CFG_0_BN_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_CFG_0_BN_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_BYPASS_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_CFG_0_BN_ALU_BYPASS_SHIFT)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_ALGO_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_ALGO_FIELD _MK_FIELD_CONST(0x3, SDP_D_DP_BN_CFG_0_BN_ALU_ALGO_SHIFT)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_ALGO_MAX _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_ALGO_MIN _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_CFG_0_BN_ALU_ALGO_SUM _MK_ENUM_CONST(0x2)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_BYPASS_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_CFG_0_BN_MUL_BYPASS_SHIFT)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_PRELU_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_PRELU_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_CFG_0_BN_MUL_PRELU_SHIFT)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_PRELU_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_CFG_0_BN_MUL_PRELU_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_CFG_0_BN_RELU_BYPASS_SHIFT _MK_SHIFT_CONST(6)
> +#define SDP_D_DP_BN_CFG_0_BN_RELU_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_CFG_0_BN_RELU_BYPASS_SHIFT)
> +#define SDP_D_DP_BN_CFG_0_BN_RELU_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_CFG_0_BN_RELU_BYPASS_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DP_BN_ALU_CFG_0
> +#define SDP_D_DP_BN_ALU_CFG_0 _MK_ADDR_CONST(0x9070)
> +#define SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SRC_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SRC_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SRC_SHIFT)
> +#define SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SRC_REG _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SRC_MEM _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SHIFT_VALUE_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SHIFT_VALUE_FIELD _MK_FIELD_CONST(0x3f, SDP_D_DP_BN_ALU_CFG_0_BN_ALU_SHIFT_VALUE_SHIFT)
> +
> +
> +// Register SDP_D_DP_BN_ALU_SRC_VALUE_0
> +#define SDP_D_DP_BN_ALU_SRC_VALUE_0 _MK_ADDR_CONST(0x9074)
> +#define SDP_D_DP_BN_ALU_SRC_VALUE_0_BN_ALU_OPERAND_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BN_ALU_SRC_VALUE_0_BN_ALU_OPERAND_FIELD _MK_FIELD_CONST(0xffff, SDP_D_DP_BN_ALU_SRC_VALUE_0_BN_ALU_OPERAND_SHIFT)
> +
> +
> +// Register SDP_D_DP_BN_MUL_CFG_0
> +#define SDP_D_DP_BN_MUL_CFG_0 _MK_ADDR_CONST(0x9078)
> +#define SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SRC_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SRC_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SRC_SHIFT)
> +#define SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SRC_REG _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SRC_MEM _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SHIFT_VALUE_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SHIFT_VALUE_FIELD _MK_FIELD_CONST(0xff, SDP_D_DP_BN_MUL_CFG_0_BN_MUL_SHIFT_VALUE_SHIFT)
> +
> +
> +// Register SDP_D_DP_BN_MUL_SRC_VALUE_0
> +#define SDP_D_DP_BN_MUL_SRC_VALUE_0 _MK_ADDR_CONST(0x907c)
> +#define SDP_D_DP_BN_MUL_SRC_VALUE_0_BN_MUL_OPERAND_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_BN_MUL_SRC_VALUE_0_BN_MUL_OPERAND_FIELD _MK_FIELD_CONST(0xffff, SDP_D_DP_BN_MUL_SRC_VALUE_0_BN_MUL_OPERAND_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_CFG_0
> +#define SDP_D_DP_EW_CFG_0 _MK_ADDR_CONST(0x9080)
> +#define SDP_D_DP_EW_CFG_0_EW_BYPASS_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_CFG_0_EW_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_CFG_0_EW_BYPASS_SHIFT)
> +#define SDP_D_DP_EW_CFG_0_EW_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_CFG_0_EW_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_BYPASS_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_CFG_0_EW_ALU_BYPASS_SHIFT)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_FIELD _MK_FIELD_CONST(0x3, SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_SHIFT)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_MAX _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_MIN _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_SUM _MK_ENUM_CONST(0x2)
> +#define SDP_D_DP_EW_CFG_0_EW_ALU_ALGO_EQL _MK_ENUM_CONST(0x3)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_BYPASS_SHIFT _MK_SHIFT_CONST(4)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_CFG_0_EW_MUL_BYPASS_SHIFT)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_BYPASS_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_PRELU_SHIFT _MK_SHIFT_CONST(5)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_PRELU_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_CFG_0_EW_MUL_PRELU_SHIFT)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_PRELU_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_CFG_0_EW_MUL_PRELU_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_CFG_0_EW_LUT_BYPASS_SHIFT _MK_SHIFT_CONST(6)
> +#define SDP_D_DP_EW_CFG_0_EW_LUT_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_CFG_0_EW_LUT_BYPASS_SHIFT)
> +#define SDP_D_DP_EW_CFG_0_EW_LUT_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_CFG_0_EW_LUT_BYPASS_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DP_EW_ALU_CFG_0
> +#define SDP_D_DP_EW_ALU_CFG_0 _MK_ADDR_CONST(0x9084)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_SRC_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_SRC_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_ALU_CFG_0_EW_ALU_SRC_SHIFT)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_SRC_REG _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_SRC_MEM _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_CVT_BYPASS_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_CVT_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_ALU_CFG_0_EW_ALU_CVT_BYPASS_SHIFT)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_CVT_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_ALU_CFG_0_EW_ALU_CVT_BYPASS_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DP_EW_ALU_SRC_VALUE_0
> +#define SDP_D_DP_EW_ALU_SRC_VALUE_0 _MK_ADDR_CONST(0x9088)
> +#define SDP_D_DP_EW_ALU_SRC_VALUE_0_EW_ALU_OPERAND_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_ALU_SRC_VALUE_0_EW_ALU_OPERAND_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DP_EW_ALU_SRC_VALUE_0_EW_ALU_OPERAND_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_ALU_CVT_OFFSET_VALUE_0
> +#define SDP_D_DP_EW_ALU_CVT_OFFSET_VALUE_0 _MK_ADDR_CONST(0x908c)
> +#define SDP_D_DP_EW_ALU_CVT_OFFSET_VALUE_0_EW_ALU_CVT_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_ALU_CVT_OFFSET_VALUE_0_EW_ALU_CVT_OFFSET_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DP_EW_ALU_CVT_OFFSET_VALUE_0_EW_ALU_CVT_OFFSET_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_ALU_CVT_SCALE_VALUE_0
> +#define SDP_D_DP_EW_ALU_CVT_SCALE_VALUE_0 _MK_ADDR_CONST(0x9090)
> +#define SDP_D_DP_EW_ALU_CVT_SCALE_VALUE_0_EW_ALU_CVT_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_ALU_CVT_SCALE_VALUE_0_EW_ALU_CVT_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_D_DP_EW_ALU_CVT_SCALE_VALUE_0_EW_ALU_CVT_SCALE_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_ALU_CVT_TRUNCATE_VALUE_0
> +#define SDP_D_DP_EW_ALU_CVT_TRUNCATE_VALUE_0 _MK_ADDR_CONST(0x9094)
> +#define SDP_D_DP_EW_ALU_CVT_TRUNCATE_VALUE_0_EW_ALU_CVT_TRUNCATE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_ALU_CVT_TRUNCATE_VALUE_0_EW_ALU_CVT_TRUNCATE_FIELD _MK_FIELD_CONST(0x3f, SDP_D_DP_EW_ALU_CVT_TRUNCATE_VALUE_0_EW_ALU_CVT_TRUNCATE_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_MUL_CFG_0
> +#define SDP_D_DP_EW_MUL_CFG_0 _MK_ADDR_CONST(0x9098)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_SRC_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_SRC_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_MUL_CFG_0_EW_MUL_SRC_SHIFT)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_SRC_REG _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_SRC_MEM _MK_ENUM_CONST(0x1)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_CVT_BYPASS_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_CVT_BYPASS_FIELD _MK_FIELD_CONST(0x1, SDP_D_DP_EW_MUL_CFG_0_EW_MUL_CVT_BYPASS_SHIFT)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_CVT_BYPASS_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_DP_EW_MUL_CFG_0_EW_MUL_CVT_BYPASS_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DP_EW_MUL_SRC_VALUE_0
> +#define SDP_D_DP_EW_MUL_SRC_VALUE_0 _MK_ADDR_CONST(0x909c)
> +#define SDP_D_DP_EW_MUL_SRC_VALUE_0_EW_MUL_OPERAND_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_MUL_SRC_VALUE_0_EW_MUL_OPERAND_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DP_EW_MUL_SRC_VALUE_0_EW_MUL_OPERAND_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_MUL_CVT_OFFSET_VALUE_0
> +#define SDP_D_DP_EW_MUL_CVT_OFFSET_VALUE_0 _MK_ADDR_CONST(0x90a0)
> +#define SDP_D_DP_EW_MUL_CVT_OFFSET_VALUE_0_EW_MUL_CVT_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_MUL_CVT_OFFSET_VALUE_0_EW_MUL_CVT_OFFSET_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DP_EW_MUL_CVT_OFFSET_VALUE_0_EW_MUL_CVT_OFFSET_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_MUL_CVT_SCALE_VALUE_0
> +#define SDP_D_DP_EW_MUL_CVT_SCALE_VALUE_0 _MK_ADDR_CONST(0x90a4)
> +#define SDP_D_DP_EW_MUL_CVT_SCALE_VALUE_0_EW_MUL_CVT_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_MUL_CVT_SCALE_VALUE_0_EW_MUL_CVT_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_D_DP_EW_MUL_CVT_SCALE_VALUE_0_EW_MUL_CVT_SCALE_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_MUL_CVT_TRUNCATE_VALUE_0
> +#define SDP_D_DP_EW_MUL_CVT_TRUNCATE_VALUE_0 _MK_ADDR_CONST(0x90a8)
> +#define SDP_D_DP_EW_MUL_CVT_TRUNCATE_VALUE_0_EW_MUL_CVT_TRUNCATE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_MUL_CVT_TRUNCATE_VALUE_0_EW_MUL_CVT_TRUNCATE_FIELD _MK_FIELD_CONST(0x3f, SDP_D_DP_EW_MUL_CVT_TRUNCATE_VALUE_0_EW_MUL_CVT_TRUNCATE_SHIFT)
> +
> +
> +// Register SDP_D_DP_EW_TRUNCATE_VALUE_0
> +#define SDP_D_DP_EW_TRUNCATE_VALUE_0 _MK_ADDR_CONST(0x90ac)
> +#define SDP_D_DP_EW_TRUNCATE_VALUE_0_EW_TRUNCATE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DP_EW_TRUNCATE_VALUE_0_EW_TRUNCATE_FIELD _MK_FIELD_CONST(0x3ff, SDP_D_DP_EW_TRUNCATE_VALUE_0_EW_TRUNCATE_SHIFT)
> +
> +
> +// Register SDP_D_FEATURE_MODE_CFG_0
> +#define SDP_D_FEATURE_MODE_CFG_0 _MK_ADDR_CONST(0x90b0)
> +#define SDP_D_FEATURE_MODE_CFG_0_FLYING_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_FEATURE_MODE_CFG_0_FLYING_MODE_FIELD _MK_FIELD_CONST(0x1, SDP_D_FEATURE_MODE_CFG_0_FLYING_MODE_SHIFT)
> +#define SDP_D_FEATURE_MODE_CFG_0_FLYING_MODE_OFF _MK_ENUM_CONST(0x0)
> +#define SDP_D_FEATURE_MODE_CFG_0_FLYING_MODE_ON _MK_ENUM_CONST(0x1)
> +#define SDP_D_FEATURE_MODE_CFG_0_OUTPUT_DST_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_FEATURE_MODE_CFG_0_OUTPUT_DST_FIELD _MK_FIELD_CONST(0x1, SDP_D_FEATURE_MODE_CFG_0_OUTPUT_DST_SHIFT)
> +#define SDP_D_FEATURE_MODE_CFG_0_OUTPUT_DST_MEM _MK_ENUM_CONST(0x0)
> +#define SDP_D_FEATURE_MODE_CFG_0_OUTPUT_DST_PDP _MK_ENUM_CONST(0x1)
> +#define SDP_D_FEATURE_MODE_CFG_0_WINOGRAD_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_D_FEATURE_MODE_CFG_0_WINOGRAD_FIELD _MK_FIELD_CONST(0x1, SDP_D_FEATURE_MODE_CFG_0_WINOGRAD_SHIFT)
> +#define SDP_D_FEATURE_MODE_CFG_0_WINOGRAD_OFF _MK_ENUM_CONST(0x0)
> +#define SDP_D_FEATURE_MODE_CFG_0_WINOGRAD_ON _MK_ENUM_CONST(0x1)
> +#define SDP_D_FEATURE_MODE_CFG_0_NAN_TO_ZERO_SHIFT _MK_SHIFT_CONST(3)
> +#define SDP_D_FEATURE_MODE_CFG_0_NAN_TO_ZERO_FIELD _MK_FIELD_CONST(0x1, SDP_D_FEATURE_MODE_CFG_0_NAN_TO_ZERO_SHIFT)
> +#define SDP_D_FEATURE_MODE_CFG_0_NAN_TO_ZERO_DISABLE _MK_ENUM_CONST(0x0)
> +#define SDP_D_FEATURE_MODE_CFG_0_NAN_TO_ZERO_ENABLE _MK_ENUM_CONST(0x1)
> +#define SDP_D_FEATURE_MODE_CFG_0_BATCH_NUMBER_SHIFT _MK_SHIFT_CONST(8)
> +#define SDP_D_FEATURE_MODE_CFG_0_BATCH_NUMBER_FIELD _MK_FIELD_CONST(0x1f, SDP_D_FEATURE_MODE_CFG_0_BATCH_NUMBER_SHIFT)
> +
> +
> +// Register SDP_D_DST_DMA_CFG_0
> +#define SDP_D_DST_DMA_CFG_0 _MK_ADDR_CONST(0x90b4)
> +#define SDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, SDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_SHIFT)
> +#define SDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define SDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_DST_BATCH_STRIDE_0
> +#define SDP_D_DST_BATCH_STRIDE_0 _MK_ADDR_CONST(0x90b8)
> +#define SDP_D_DST_BATCH_STRIDE_0_DST_BATCH_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DST_BATCH_STRIDE_0_DST_BATCH_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_DST_BATCH_STRIDE_0_DST_BATCH_STRIDE_SHIFT)
> +
> +
> +// Register SDP_D_DATA_FORMAT_0
> +#define SDP_D_DATA_FORMAT_0 _MK_ADDR_CONST(0x90bc)
> +#define SDP_D_DATA_FORMAT_0_PROC_PRECISION_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_DATA_FORMAT_0_PROC_PRECISION_FIELD _MK_FIELD_CONST(0x3, SDP_D_DATA_FORMAT_0_PROC_PRECISION_SHIFT)
> +#define SDP_D_DATA_FORMAT_0_PROC_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define SDP_D_DATA_FORMAT_0_PROC_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define SDP_D_DATA_FORMAT_0_PROC_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +#define SDP_D_DATA_FORMAT_0_OUT_PRECISION_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_D_DATA_FORMAT_0_OUT_PRECISION_FIELD _MK_FIELD_CONST(0x3, SDP_D_DATA_FORMAT_0_OUT_PRECISION_SHIFT)
> +#define SDP_D_DATA_FORMAT_0_OUT_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define SDP_D_DATA_FORMAT_0_OUT_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define SDP_D_DATA_FORMAT_0_OUT_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register SDP_D_CVT_OFFSET_0
> +#define SDP_D_CVT_OFFSET_0 _MK_ADDR_CONST(0x90c0)
> +#define SDP_D_CVT_OFFSET_0_CVT_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_CVT_OFFSET_0_CVT_OFFSET_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_CVT_OFFSET_0_CVT_OFFSET_SHIFT)
> +
> +
> +// Register SDP_D_CVT_SCALE_0
> +#define SDP_D_CVT_SCALE_0 _MK_ADDR_CONST(0x90c4)
> +#define SDP_D_CVT_SCALE_0_CVT_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_CVT_SCALE_0_CVT_SCALE_FIELD _MK_FIELD_CONST(0xffff, SDP_D_CVT_SCALE_0_CVT_SCALE_SHIFT)
> +
> +
> +// Register SDP_D_CVT_SHIFT_0
> +#define SDP_D_CVT_SHIFT_0 _MK_ADDR_CONST(0x90c8)
> +#define SDP_D_CVT_SHIFT_0_CVT_SHIFT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_CVT_SHIFT_0_CVT_SHIFT_FIELD _MK_FIELD_CONST(0x3f, SDP_D_CVT_SHIFT_0_CVT_SHIFT_SHIFT)
> +
> +
> +// Register SDP_D_STATUS_0
> +#define SDP_D_STATUS_0 _MK_ADDR_CONST(0x90cc)
> +#define SDP_D_STATUS_0_STATUS_UNEQUAL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_STATUS_0_STATUS_UNEQUAL_FIELD _MK_FIELD_CONST(0x1, SDP_D_STATUS_0_STATUS_UNEQUAL_SHIFT)
> +
> +
> +// Register SDP_D_STATUS_NAN_INPUT_NUM_0
> +#define SDP_D_STATUS_NAN_INPUT_NUM_0 _MK_ADDR_CONST(0x90d0)
> +#define SDP_D_STATUS_NAN_INPUT_NUM_0_STATUS_NAN_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_STATUS_NAN_INPUT_NUM_0_STATUS_NAN_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_STATUS_NAN_INPUT_NUM_0_STATUS_NAN_INPUT_NUM_SHIFT)
> +
> +
> +// Register SDP_D_STATUS_INF_INPUT_NUM_0
> +#define SDP_D_STATUS_INF_INPUT_NUM_0 _MK_ADDR_CONST(0x90d4)
> +#define SDP_D_STATUS_INF_INPUT_NUM_0_STATUS_INF_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_STATUS_INF_INPUT_NUM_0_STATUS_INF_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_STATUS_INF_INPUT_NUM_0_STATUS_INF_INPUT_NUM_SHIFT)
> +
> +
> +// Register SDP_D_STATUS_NAN_OUTPUT_NUM_0
> +#define SDP_D_STATUS_NAN_OUTPUT_NUM_0 _MK_ADDR_CONST(0x90d8)
> +#define SDP_D_STATUS_NAN_OUTPUT_NUM_0_STATUS_NAN_OUTPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_STATUS_NAN_OUTPUT_NUM_0_STATUS_NAN_OUTPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_STATUS_NAN_OUTPUT_NUM_0_STATUS_NAN_OUTPUT_NUM_SHIFT)
> +
> +
> +// Register SDP_D_PERF_ENABLE_0
> +#define SDP_D_PERF_ENABLE_0 _MK_ADDR_CONST(0x90dc)
> +#define SDP_D_PERF_ENABLE_0_PERF_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_ENABLE_0_PERF_DMA_EN_FIELD _MK_FIELD_CONST(0x1, SDP_D_PERF_ENABLE_0_PERF_DMA_EN_SHIFT)
> +#define SDP_D_PERF_ENABLE_0_PERF_DMA_EN_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_PERF_ENABLE_0_PERF_DMA_EN_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_PERF_ENABLE_0_PERF_LUT_EN_SHIFT _MK_SHIFT_CONST(1)
> +#define SDP_D_PERF_ENABLE_0_PERF_LUT_EN_FIELD _MK_FIELD_CONST(0x1, SDP_D_PERF_ENABLE_0_PERF_LUT_EN_SHIFT)
> +#define SDP_D_PERF_ENABLE_0_PERF_LUT_EN_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_PERF_ENABLE_0_PERF_LUT_EN_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_PERF_ENABLE_0_PERF_SAT_EN_SHIFT _MK_SHIFT_CONST(2)
> +#define SDP_D_PERF_ENABLE_0_PERF_SAT_EN_FIELD _MK_FIELD_CONST(0x1, SDP_D_PERF_ENABLE_0_PERF_SAT_EN_SHIFT)
> +#define SDP_D_PERF_ENABLE_0_PERF_SAT_EN_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_PERF_ENABLE_0_PERF_SAT_EN_YES _MK_ENUM_CONST(0x1)
> +#define SDP_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_SHIFT _MK_SHIFT_CONST(3)
> +#define SDP_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_FIELD _MK_FIELD_CONST(0x1, SDP_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_SHIFT)
> +#define SDP_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_NO _MK_ENUM_CONST(0x0)
> +#define SDP_D_PERF_ENABLE_0_PERF_NAN_INF_COUNT_EN_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register SDP_D_PERF_WDMA_WRITE_STALL_0
> +#define SDP_D_PERF_WDMA_WRITE_STALL_0 _MK_ADDR_CONST(0x90e0)
> +#define SDP_D_PERF_WDMA_WRITE_STALL_0_WDMA_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_WDMA_WRITE_STALL_0_WDMA_STALL_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_WDMA_WRITE_STALL_0_WDMA_STALL_SHIFT)
> +
> +
> +// Register SDP_D_PERF_LUT_UFLOW_0
> +#define SDP_D_PERF_LUT_UFLOW_0 _MK_ADDR_CONST(0x90e4)
> +#define SDP_D_PERF_LUT_UFLOW_0_LUT_UFLOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_LUT_UFLOW_0_LUT_UFLOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_LUT_UFLOW_0_LUT_UFLOW_SHIFT)
> +
> +
> +// Register SDP_D_PERF_LUT_OFLOW_0
> +#define SDP_D_PERF_LUT_OFLOW_0 _MK_ADDR_CONST(0x90e8)
> +#define SDP_D_PERF_LUT_OFLOW_0_LUT_OFLOW_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_LUT_OFLOW_0_LUT_OFLOW_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_LUT_OFLOW_0_LUT_OFLOW_SHIFT)
> +
> +
> +// Register SDP_D_PERF_OUT_SATURATION_0
> +#define SDP_D_PERF_OUT_SATURATION_0 _MK_ADDR_CONST(0x90ec)
> +#define SDP_D_PERF_OUT_SATURATION_0_OUT_SATURATION_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_OUT_SATURATION_0_OUT_SATURATION_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_OUT_SATURATION_0_OUT_SATURATION_SHIFT)
> +
> +
> +// Register SDP_D_PERF_LUT_HYBRID_0
> +#define SDP_D_PERF_LUT_HYBRID_0 _MK_ADDR_CONST(0x90f0)
> +#define SDP_D_PERF_LUT_HYBRID_0_LUT_HYBRID_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_LUT_HYBRID_0_LUT_HYBRID_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_LUT_HYBRID_0_LUT_HYBRID_SHIFT)
> +
> +
> +// Register SDP_D_PERF_LUT_LE_HIT_0
> +#define SDP_D_PERF_LUT_LE_HIT_0 _MK_ADDR_CONST(0x90f4)
> +#define SDP_D_PERF_LUT_LE_HIT_0_LUT_LE_HIT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_LUT_LE_HIT_0_LUT_LE_HIT_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_LUT_LE_HIT_0_LUT_LE_HIT_SHIFT)
> +
> +
> +// Register SDP_D_PERF_LUT_LO_HIT_0
> +#define SDP_D_PERF_LUT_LO_HIT_0 _MK_ADDR_CONST(0x90f8)
> +#define SDP_D_PERF_LUT_LO_HIT_0_LUT_LO_HIT_SHIFT _MK_SHIFT_CONST(0)
> +#define SDP_D_PERF_LUT_LO_HIT_0_LUT_LO_HIT_FIELD _MK_FIELD_CONST(0xffffffff, SDP_D_PERF_LUT_LO_HIT_0_LUT_LO_HIT_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register PDP_RDMA_S_STATUS_0
> +#define PDP_RDMA_S_STATUS_0 _MK_ADDR_CONST(0xa000)
> +#define PDP_RDMA_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, PDP_RDMA_S_STATUS_0_STATUS_0_SHIFT)
> +#define PDP_RDMA_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define PDP_RDMA_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define PDP_RDMA_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define PDP_RDMA_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, PDP_RDMA_S_STATUS_0_STATUS_1_SHIFT)
> +#define PDP_RDMA_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define PDP_RDMA_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register PDP_RDMA_S_POINTER_0
> +#define PDP_RDMA_S_POINTER_0 _MK_ADDR_CONST(0xa004)
> +#define PDP_RDMA_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, PDP_RDMA_S_POINTER_0_PRODUCER_SHIFT)
> +#define PDP_RDMA_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define PDP_RDMA_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define PDP_RDMA_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, PDP_RDMA_S_POINTER_0_CONSUMER_SHIFT)
> +#define PDP_RDMA_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_RDMA_D_OP_ENABLE_0
> +#define PDP_RDMA_D_OP_ENABLE_0 _MK_ADDR_CONST(0xa008)
> +#define PDP_RDMA_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, PDP_RDMA_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define PDP_RDMA_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_RDMA_D_DATA_CUBE_IN_WIDTH_0
> +#define PDP_RDMA_D_DATA_CUBE_IN_WIDTH_0 _MK_ADDR_CONST(0xa00c)
> +#define PDP_RDMA_D_DATA_CUBE_IN_WIDTH_0_CUBE_IN_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_DATA_CUBE_IN_WIDTH_0_CUBE_IN_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, PDP_RDMA_D_DATA_CUBE_IN_WIDTH_0_CUBE_IN_WIDTH_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_DATA_CUBE_IN_HEIGHT_0
> +#define PDP_RDMA_D_DATA_CUBE_IN_HEIGHT_0 _MK_ADDR_CONST(0xa010)
> +#define PDP_RDMA_D_DATA_CUBE_IN_HEIGHT_0_CUBE_IN_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_DATA_CUBE_IN_HEIGHT_0_CUBE_IN_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, PDP_RDMA_D_DATA_CUBE_IN_HEIGHT_0_CUBE_IN_HEIGHT_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_DATA_CUBE_IN_CHANNEL_0
> +#define PDP_RDMA_D_DATA_CUBE_IN_CHANNEL_0 _MK_ADDR_CONST(0xa014)
> +#define PDP_RDMA_D_DATA_CUBE_IN_CHANNEL_0_CUBE_IN_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_DATA_CUBE_IN_CHANNEL_0_CUBE_IN_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, PDP_RDMA_D_DATA_CUBE_IN_CHANNEL_0_CUBE_IN_CHANNEL_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_FLYING_MODE_0
> +#define PDP_RDMA_D_FLYING_MODE_0 _MK_ADDR_CONST(0xa018)
> +#define PDP_RDMA_D_FLYING_MODE_0_FLYING_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_FLYING_MODE_0_FLYING_MODE_FIELD _MK_FIELD_CONST(0x1, PDP_RDMA_D_FLYING_MODE_0_FLYING_MODE_SHIFT)
> +#define PDP_RDMA_D_FLYING_MODE_0_FLYING_MODE_ON_FLYING _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_D_FLYING_MODE_0_FLYING_MODE_OFF_FLYING _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_RDMA_D_SRC_BASE_ADDR_LOW_0
> +#define PDP_RDMA_D_SRC_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0xa01c)
> +#define PDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, PDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_SRC_BASE_ADDR_HIGH_0
> +#define PDP_RDMA_D_SRC_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0xa020)
> +#define PDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, PDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_SRC_LINE_STRIDE_0
> +#define PDP_RDMA_D_SRC_LINE_STRIDE_0 _MK_ADDR_CONST(0xa024)
> +#define PDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, PDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_SRC_SURFACE_STRIDE_0
> +#define PDP_RDMA_D_SRC_SURFACE_STRIDE_0 _MK_ADDR_CONST(0xa028)
> +#define PDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, PDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_SRC_RAM_CFG_0
> +#define PDP_RDMA_D_SRC_RAM_CFG_0 _MK_ADDR_CONST(0xa02c)
> +#define PDP_RDMA_D_SRC_RAM_CFG_0_SRC_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_SRC_RAM_CFG_0_SRC_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, PDP_RDMA_D_SRC_RAM_CFG_0_SRC_RAM_TYPE_SHIFT)
> +#define PDP_RDMA_D_SRC_RAM_CFG_0_SRC_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_D_SRC_RAM_CFG_0_SRC_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_RDMA_D_DATA_FORMAT_0
> +#define PDP_RDMA_D_DATA_FORMAT_0 _MK_ADDR_CONST(0xa030)
> +#define PDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_FIELD _MK_FIELD_CONST(0x3, PDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_SHIFT)
> +#define PDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_INT8 _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_INT16 _MK_ENUM_CONST(0x1)
> +#define PDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register PDP_RDMA_D_OPERATION_MODE_CFG_0
> +#define PDP_RDMA_D_OPERATION_MODE_CFG_0 _MK_ADDR_CONST(0xa034)
> +#define PDP_RDMA_D_OPERATION_MODE_CFG_0_SPLIT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_OPERATION_MODE_CFG_0_SPLIT_NUM_FIELD _MK_FIELD_CONST(0xff, PDP_RDMA_D_OPERATION_MODE_CFG_0_SPLIT_NUM_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_POOLING_KERNEL_CFG_0
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0 _MK_ADDR_CONST(0xa038)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_FIELD _MK_FIELD_CONST(0xf, PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_SHIFT)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_1 _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_2 _MK_ENUM_CONST(0x1)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_3 _MK_ENUM_CONST(0x2)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_4 _MK_ENUM_CONST(0x3)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_5 _MK_ENUM_CONST(0x4)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_6 _MK_ENUM_CONST(0x5)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_7 _MK_ENUM_CONST(0x6)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_8 _MK_ENUM_CONST(0x7)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_WIDTH_SHIFT _MK_SHIFT_CONST(4)
> +#define PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_WIDTH_FIELD _MK_FIELD_CONST(0xf, PDP_RDMA_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_WIDTH_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_POOLING_PADDING_CFG_0
> +#define PDP_RDMA_D_POOLING_PADDING_CFG_0 _MK_ADDR_CONST(0xa03c)
> +#define PDP_RDMA_D_POOLING_PADDING_CFG_0_PAD_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_POOLING_PADDING_CFG_0_PAD_WIDTH_FIELD _MK_FIELD_CONST(0xf, PDP_RDMA_D_POOLING_PADDING_CFG_0_PAD_WIDTH_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_PARTIAL_WIDTH_IN_0
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0 _MK_ADDR_CONST(0xa040)
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_FIRST_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_FIRST_FIELD _MK_FIELD_CONST(0x3ff, PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_FIRST_SHIFT)
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_LAST_SHIFT _MK_SHIFT_CONST(10)
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_LAST_FIELD _MK_FIELD_CONST(0x3ff, PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_LAST_SHIFT)
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_MID_SHIFT _MK_SHIFT_CONST(20)
> +#define PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_MID_FIELD _MK_FIELD_CONST(0x3ff, PDP_RDMA_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_MID_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_PERF_ENABLE_0
> +#define PDP_RDMA_D_PERF_ENABLE_0 _MK_ADDR_CONST(0xa044)
> +#define PDP_RDMA_D_PERF_ENABLE_0_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_PERF_ENABLE_0_DMA_EN_FIELD _MK_FIELD_CONST(0x1, PDP_RDMA_D_PERF_ENABLE_0_DMA_EN_SHIFT)
> +#define PDP_RDMA_D_PERF_ENABLE_0_DMA_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define PDP_RDMA_D_PERF_ENABLE_0_DMA_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_RDMA_D_PERF_READ_STALL_0
> +#define PDP_RDMA_D_PERF_READ_STALL_0 _MK_ADDR_CONST(0xa048)
> +#define PDP_RDMA_D_PERF_READ_STALL_0_PERF_READ_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_PERF_READ_STALL_0_PERF_READ_STALL_FIELD _MK_FIELD_CONST(0xffffffff, PDP_RDMA_D_PERF_READ_STALL_0_PERF_READ_STALL_SHIFT)
> +
> +
> +// Register PDP_RDMA_D_CYA_0
> +#define PDP_RDMA_D_CYA_0 _MK_ADDR_CONST(0xa04c)
> +#define PDP_RDMA_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_RDMA_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, PDP_RDMA_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register PDP_S_STATUS_0
> +#define PDP_S_STATUS_0 _MK_ADDR_CONST(0xb000)
> +#define PDP_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, PDP_S_STATUS_0_STATUS_0_SHIFT)
> +#define PDP_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define PDP_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define PDP_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define PDP_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define PDP_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, PDP_S_STATUS_0_STATUS_1_SHIFT)
> +#define PDP_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define PDP_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define PDP_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register PDP_S_POINTER_0
> +#define PDP_S_POINTER_0 _MK_ADDR_CONST(0xb004)
> +#define PDP_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, PDP_S_POINTER_0_PRODUCER_SHIFT)
> +#define PDP_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define PDP_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define PDP_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define PDP_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, PDP_S_POINTER_0_CONSUMER_SHIFT)
> +#define PDP_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define PDP_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_D_OP_ENABLE_0
> +#define PDP_D_OP_ENABLE_0 _MK_ADDR_CONST(0xb008)
> +#define PDP_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, PDP_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define PDP_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define PDP_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_D_DATA_CUBE_IN_WIDTH_0
> +#define PDP_D_DATA_CUBE_IN_WIDTH_0 _MK_ADDR_CONST(0xb00c)
> +#define PDP_D_DATA_CUBE_IN_WIDTH_0_CUBE_IN_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_CUBE_IN_WIDTH_0_CUBE_IN_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, PDP_D_DATA_CUBE_IN_WIDTH_0_CUBE_IN_WIDTH_SHIFT)
> +
> +
> +// Register PDP_D_DATA_CUBE_IN_HEIGHT_0
> +#define PDP_D_DATA_CUBE_IN_HEIGHT_0 _MK_ADDR_CONST(0xb010)
> +#define PDP_D_DATA_CUBE_IN_HEIGHT_0_CUBE_IN_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_CUBE_IN_HEIGHT_0_CUBE_IN_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, PDP_D_DATA_CUBE_IN_HEIGHT_0_CUBE_IN_HEIGHT_SHIFT)
> +
> +
> +// Register PDP_D_DATA_CUBE_IN_CHANNEL_0
> +#define PDP_D_DATA_CUBE_IN_CHANNEL_0 _MK_ADDR_CONST(0xb014)
> +#define PDP_D_DATA_CUBE_IN_CHANNEL_0_CUBE_IN_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_CUBE_IN_CHANNEL_0_CUBE_IN_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, PDP_D_DATA_CUBE_IN_CHANNEL_0_CUBE_IN_CHANNEL_SHIFT)
> +
> +
> +// Register PDP_D_DATA_CUBE_OUT_WIDTH_0
> +#define PDP_D_DATA_CUBE_OUT_WIDTH_0 _MK_ADDR_CONST(0xb018)
> +#define PDP_D_DATA_CUBE_OUT_WIDTH_0_CUBE_OUT_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_CUBE_OUT_WIDTH_0_CUBE_OUT_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, PDP_D_DATA_CUBE_OUT_WIDTH_0_CUBE_OUT_WIDTH_SHIFT)
> +
> +
> +// Register PDP_D_DATA_CUBE_OUT_HEIGHT_0
> +#define PDP_D_DATA_CUBE_OUT_HEIGHT_0 _MK_ADDR_CONST(0xb01c)
> +#define PDP_D_DATA_CUBE_OUT_HEIGHT_0_CUBE_OUT_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_CUBE_OUT_HEIGHT_0_CUBE_OUT_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, PDP_D_DATA_CUBE_OUT_HEIGHT_0_CUBE_OUT_HEIGHT_SHIFT)
> +
> +
> +// Register PDP_D_DATA_CUBE_OUT_CHANNEL_0
> +#define PDP_D_DATA_CUBE_OUT_CHANNEL_0 _MK_ADDR_CONST(0xb020)
> +#define PDP_D_DATA_CUBE_OUT_CHANNEL_0_CUBE_OUT_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_CUBE_OUT_CHANNEL_0_CUBE_OUT_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, PDP_D_DATA_CUBE_OUT_CHANNEL_0_CUBE_OUT_CHANNEL_SHIFT)
> +
> +
> +// Register PDP_D_OPERATION_MODE_CFG_0
> +#define PDP_D_OPERATION_MODE_CFG_0 _MK_ADDR_CONST(0xb024)
> +#define PDP_D_OPERATION_MODE_CFG_0_POOLING_METHOD_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_OPERATION_MODE_CFG_0_POOLING_METHOD_FIELD _MK_FIELD_CONST(0x3, PDP_D_OPERATION_MODE_CFG_0_POOLING_METHOD_SHIFT)
> +#define PDP_D_OPERATION_MODE_CFG_0_POOLING_METHOD_POOLING_METHOD_AVERAGE _MK_ENUM_CONST(0x0)
> +#define PDP_D_OPERATION_MODE_CFG_0_POOLING_METHOD_POOLING_METHOD_MAX _MK_ENUM_CONST(0x1)
> +#define PDP_D_OPERATION_MODE_CFG_0_POOLING_METHOD_POOLING_METHOD_MIN _MK_ENUM_CONST(0x2)
> +#define PDP_D_OPERATION_MODE_CFG_0_FLYING_MODE_SHIFT _MK_SHIFT_CONST(4)
> +#define PDP_D_OPERATION_MODE_CFG_0_FLYING_MODE_FIELD _MK_FIELD_CONST(0x1, PDP_D_OPERATION_MODE_CFG_0_FLYING_MODE_SHIFT)
> +#define PDP_D_OPERATION_MODE_CFG_0_FLYING_MODE_ON_FLYING _MK_ENUM_CONST(0x0)
> +#define PDP_D_OPERATION_MODE_CFG_0_FLYING_MODE_OFF_FLYING _MK_ENUM_CONST(0x1)
> +#define PDP_D_OPERATION_MODE_CFG_0_SPLIT_NUM_SHIFT _MK_SHIFT_CONST(8)
> +#define PDP_D_OPERATION_MODE_CFG_0_SPLIT_NUM_FIELD _MK_FIELD_CONST(0xff, PDP_D_OPERATION_MODE_CFG_0_SPLIT_NUM_SHIFT)
> +
> +
> +// Register PDP_D_NAN_FLUSH_TO_ZERO_0
> +#define PDP_D_NAN_FLUSH_TO_ZERO_0 _MK_ADDR_CONST(0xb028)
> +#define PDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_FIELD _MK_FIELD_CONST(0x1, PDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_SHIFT)
> +#define PDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_DISABLE _MK_ENUM_CONST(0x0)
> +#define PDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_D_PARTIAL_WIDTH_IN_0
> +#define PDP_D_PARTIAL_WIDTH_IN_0 _MK_ADDR_CONST(0xb02c)
> +#define PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_FIRST_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_FIRST_FIELD _MK_FIELD_CONST(0x3ff, PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_FIRST_SHIFT)
> +#define PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_LAST_SHIFT _MK_SHIFT_CONST(10)
> +#define PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_LAST_FIELD _MK_FIELD_CONST(0x3ff, PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_LAST_SHIFT)
> +#define PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_MID_SHIFT _MK_SHIFT_CONST(20)
> +#define PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_MID_FIELD _MK_FIELD_CONST(0x3ff, PDP_D_PARTIAL_WIDTH_IN_0_PARTIAL_WIDTH_IN_MID_SHIFT)
> +
> +
> +// Register PDP_D_PARTIAL_WIDTH_OUT_0
> +#define PDP_D_PARTIAL_WIDTH_OUT_0 _MK_ADDR_CONST(0xb030)
> +#define PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_FIRST_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_FIRST_FIELD _MK_FIELD_CONST(0x3ff, PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_FIRST_SHIFT)
> +#define PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_LAST_SHIFT _MK_SHIFT_CONST(10)
> +#define PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_LAST_FIELD _MK_FIELD_CONST(0x3ff, PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_LAST_SHIFT)
> +#define PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_MID_SHIFT _MK_SHIFT_CONST(20)
> +#define PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_MID_FIELD _MK_FIELD_CONST(0x3ff, PDP_D_PARTIAL_WIDTH_OUT_0_PARTIAL_WIDTH_OUT_MID_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_KERNEL_CFG_0
> +#define PDP_D_POOLING_KERNEL_CFG_0 _MK_ADDR_CONST(0xb034)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_FIELD _MK_FIELD_CONST(0xf, PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_SHIFT)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_1 _MK_ENUM_CONST(0x0)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_2 _MK_ENUM_CONST(0x1)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_3 _MK_ENUM_CONST(0x2)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_4 _MK_ENUM_CONST(0x3)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_5 _MK_ENUM_CONST(0x4)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_6 _MK_ENUM_CONST(0x5)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_7 _MK_ENUM_CONST(0x6)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_WIDTH_KERNEL_WIDTH_8 _MK_ENUM_CONST(0x7)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_SHIFT _MK_SHIFT_CONST(8)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_FIELD _MK_FIELD_CONST(0xf, PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_SHIFT)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_1 _MK_ENUM_CONST(0x0)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_2 _MK_ENUM_CONST(0x1)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_3 _MK_ENUM_CONST(0x2)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_4 _MK_ENUM_CONST(0x3)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_5 _MK_ENUM_CONST(0x4)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_6 _MK_ENUM_CONST(0x5)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_7 _MK_ENUM_CONST(0x6)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_HEIGHT_KERNEL_HEIGHT_8 _MK_ENUM_CONST(0x7)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_WIDTH_SHIFT _MK_SHIFT_CONST(16)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_WIDTH_FIELD _MK_FIELD_CONST(0xf, PDP_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_WIDTH_SHIFT)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_HEIGHT_SHIFT _MK_SHIFT_CONST(20)
> +#define PDP_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_HEIGHT_FIELD _MK_FIELD_CONST(0xf, PDP_D_POOLING_KERNEL_CFG_0_KERNEL_STRIDE_HEIGHT_SHIFT)
> +
> +
> +// Register PDP_D_RECIP_KERNEL_WIDTH_0
> +#define PDP_D_RECIP_KERNEL_WIDTH_0 _MK_ADDR_CONST(0xb038)
> +#define PDP_D_RECIP_KERNEL_WIDTH_0_RECIP_KERNEL_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_RECIP_KERNEL_WIDTH_0_RECIP_KERNEL_WIDTH_FIELD _MK_FIELD_CONST(0x1ffff, PDP_D_RECIP_KERNEL_WIDTH_0_RECIP_KERNEL_WIDTH_SHIFT)
> +
> +
> +// Register PDP_D_RECIP_KERNEL_HEIGHT_0
> +#define PDP_D_RECIP_KERNEL_HEIGHT_0 _MK_ADDR_CONST(0xb03c)
> +#define PDP_D_RECIP_KERNEL_HEIGHT_0_RECIP_KERNEL_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_RECIP_KERNEL_HEIGHT_0_RECIP_KERNEL_HEIGHT_FIELD _MK_FIELD_CONST(0x1ffff, PDP_D_RECIP_KERNEL_HEIGHT_0_RECIP_KERNEL_HEIGHT_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_CFG_0
> +#define PDP_D_POOLING_PADDING_CFG_0 _MK_ADDR_CONST(0xb040)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_LEFT_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_LEFT_FIELD _MK_FIELD_CONST(0x7, PDP_D_POOLING_PADDING_CFG_0_PAD_LEFT_SHIFT)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_TOP_SHIFT _MK_SHIFT_CONST(4)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_TOP_FIELD _MK_FIELD_CONST(0x7, PDP_D_POOLING_PADDING_CFG_0_PAD_TOP_SHIFT)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_RIGHT_SHIFT _MK_SHIFT_CONST(8)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_RIGHT_FIELD _MK_FIELD_CONST(0x7, PDP_D_POOLING_PADDING_CFG_0_PAD_RIGHT_SHIFT)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_BOTTOM_SHIFT _MK_SHIFT_CONST(12)
> +#define PDP_D_POOLING_PADDING_CFG_0_PAD_BOTTOM_FIELD _MK_FIELD_CONST(0x7, PDP_D_POOLING_PADDING_CFG_0_PAD_BOTTOM_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_1_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_1_CFG_0 _MK_ADDR_CONST(0xb044)
> +#define PDP_D_POOLING_PADDING_VALUE_1_CFG_0_PAD_VALUE_1X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_1_CFG_0_PAD_VALUE_1X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_1_CFG_0_PAD_VALUE_1X_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_2_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_2_CFG_0 _MK_ADDR_CONST(0xb048)
> +#define PDP_D_POOLING_PADDING_VALUE_2_CFG_0_PAD_VALUE_2X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_2_CFG_0_PAD_VALUE_2X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_2_CFG_0_PAD_VALUE_2X_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_3_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_3_CFG_0 _MK_ADDR_CONST(0xb04c)
> +#define PDP_D_POOLING_PADDING_VALUE_3_CFG_0_PAD_VALUE_3X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_3_CFG_0_PAD_VALUE_3X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_3_CFG_0_PAD_VALUE_3X_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_4_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_4_CFG_0 _MK_ADDR_CONST(0xb050)
> +#define PDP_D_POOLING_PADDING_VALUE_4_CFG_0_PAD_VALUE_4X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_4_CFG_0_PAD_VALUE_4X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_4_CFG_0_PAD_VALUE_4X_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_5_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_5_CFG_0 _MK_ADDR_CONST(0xb054)
> +#define PDP_D_POOLING_PADDING_VALUE_5_CFG_0_PAD_VALUE_5X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_5_CFG_0_PAD_VALUE_5X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_5_CFG_0_PAD_VALUE_5X_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_6_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_6_CFG_0 _MK_ADDR_CONST(0xb058)
> +#define PDP_D_POOLING_PADDING_VALUE_6_CFG_0_PAD_VALUE_6X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_6_CFG_0_PAD_VALUE_6X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_6_CFG_0_PAD_VALUE_6X_SHIFT)
> +
> +
> +// Register PDP_D_POOLING_PADDING_VALUE_7_CFG_0
> +#define PDP_D_POOLING_PADDING_VALUE_7_CFG_0 _MK_ADDR_CONST(0xb05c)
> +#define PDP_D_POOLING_PADDING_VALUE_7_CFG_0_PAD_VALUE_7X_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_POOLING_PADDING_VALUE_7_CFG_0_PAD_VALUE_7X_FIELD _MK_FIELD_CONST(0x7ffff, PDP_D_POOLING_PADDING_VALUE_7_CFG_0_PAD_VALUE_7X_SHIFT)
> +
> +
> +// Register PDP_D_SRC_BASE_ADDR_LOW_0
> +#define PDP_D_SRC_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0xb060)
> +#define PDP_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register PDP_D_SRC_BASE_ADDR_HIGH_0
> +#define PDP_D_SRC_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0xb064)
> +#define PDP_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register PDP_D_SRC_LINE_STRIDE_0
> +#define PDP_D_SRC_LINE_STRIDE_0 _MK_ADDR_CONST(0xb068)
> +#define PDP_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT)
> +
> +
> +// Register PDP_D_SRC_SURFACE_STRIDE_0
> +#define PDP_D_SRC_SURFACE_STRIDE_0 _MK_ADDR_CONST(0xb06c)
> +#define PDP_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register PDP_D_DST_BASE_ADDR_LOW_0
> +#define PDP_D_DST_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0xb070)
> +#define PDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register PDP_D_DST_BASE_ADDR_HIGH_0
> +#define PDP_D_DST_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0xb074)
> +#define PDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register PDP_D_DST_LINE_STRIDE_0
> +#define PDP_D_DST_LINE_STRIDE_0 _MK_ADDR_CONST(0xb078)
> +#define PDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_SHIFT)
> +
> +
> +// Register PDP_D_DST_SURFACE_STRIDE_0
> +#define PDP_D_DST_SURFACE_STRIDE_0 _MK_ADDR_CONST(0xb07c)
> +#define PDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register PDP_D_DST_RAM_CFG_0
> +#define PDP_D_DST_RAM_CFG_0 _MK_ADDR_CONST(0xb080)
> +#define PDP_D_DST_RAM_CFG_0_DST_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DST_RAM_CFG_0_DST_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, PDP_D_DST_RAM_CFG_0_DST_RAM_TYPE_SHIFT)
> +#define PDP_D_DST_RAM_CFG_0_DST_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define PDP_D_DST_RAM_CFG_0_DST_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_D_DATA_FORMAT_0
> +#define PDP_D_DATA_FORMAT_0 _MK_ADDR_CONST(0xb084)
> +#define PDP_D_DATA_FORMAT_0_INPUT_DATA_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_DATA_FORMAT_0_INPUT_DATA_FIELD _MK_FIELD_CONST(0x3, PDP_D_DATA_FORMAT_0_INPUT_DATA_SHIFT)
> +#define PDP_D_DATA_FORMAT_0_INPUT_DATA_INT8 _MK_ENUM_CONST(0x0)
> +#define PDP_D_DATA_FORMAT_0_INPUT_DATA_INT16 _MK_ENUM_CONST(0x1)
> +#define PDP_D_DATA_FORMAT_0_INPUT_DATA_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register PDP_D_INF_INPUT_NUM_0
> +#define PDP_D_INF_INPUT_NUM_0 _MK_ADDR_CONST(0xb088)
> +#define PDP_D_INF_INPUT_NUM_0_INF_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_INF_INPUT_NUM_0_INF_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_INF_INPUT_NUM_0_INF_INPUT_NUM_SHIFT)
> +
> +
> +// Register PDP_D_NAN_INPUT_NUM_0
> +#define PDP_D_NAN_INPUT_NUM_0 _MK_ADDR_CONST(0xb08c)
> +#define PDP_D_NAN_INPUT_NUM_0_NAN_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_NAN_INPUT_NUM_0_NAN_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_NAN_INPUT_NUM_0_NAN_INPUT_NUM_SHIFT)
> +
> +
> +// Register PDP_D_NAN_OUTPUT_NUM_0
> +#define PDP_D_NAN_OUTPUT_NUM_0 _MK_ADDR_CONST(0xb090)
> +#define PDP_D_NAN_OUTPUT_NUM_0_NAN_OUTPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_NAN_OUTPUT_NUM_0_NAN_OUTPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_NAN_OUTPUT_NUM_0_NAN_OUTPUT_NUM_SHIFT)
> +
> +
> +// Register PDP_D_PERF_ENABLE_0
> +#define PDP_D_PERF_ENABLE_0 _MK_ADDR_CONST(0xb094)
> +#define PDP_D_PERF_ENABLE_0_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_PERF_ENABLE_0_DMA_EN_FIELD _MK_FIELD_CONST(0x1, PDP_D_PERF_ENABLE_0_DMA_EN_SHIFT)
> +#define PDP_D_PERF_ENABLE_0_DMA_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define PDP_D_PERF_ENABLE_0_DMA_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register PDP_D_PERF_WRITE_STALL_0
> +#define PDP_D_PERF_WRITE_STALL_0 _MK_ADDR_CONST(0xb098)
> +#define PDP_D_PERF_WRITE_STALL_0_PERF_WRITE_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_PERF_WRITE_STALL_0_PERF_WRITE_STALL_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_PERF_WRITE_STALL_0_PERF_WRITE_STALL_SHIFT)
> +
> +
> +// Register PDP_D_CYA_0
> +#define PDP_D_CYA_0 _MK_ADDR_CONST(0xb09c)
> +#define PDP_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define PDP_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, PDP_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CDP_RDMA_S_STATUS_0
> +#define CDP_RDMA_S_STATUS_0 _MK_ADDR_CONST(0xc000)
> +#define CDP_RDMA_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CDP_RDMA_S_STATUS_0_STATUS_0_SHIFT)
> +#define CDP_RDMA_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CDP_RDMA_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CDP_RDMA_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_RDMA_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CDP_RDMA_S_STATUS_0_STATUS_1_SHIFT)
> +#define CDP_RDMA_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CDP_RDMA_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CDP_RDMA_S_POINTER_0
> +#define CDP_RDMA_S_POINTER_0 _MK_ADDR_CONST(0xc004)
> +#define CDP_RDMA_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CDP_RDMA_S_POINTER_0_PRODUCER_SHIFT)
> +#define CDP_RDMA_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CDP_RDMA_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_RDMA_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CDP_RDMA_S_POINTER_0_CONSUMER_SHIFT)
> +#define CDP_RDMA_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_RDMA_D_OP_ENABLE_0
> +#define CDP_RDMA_D_OP_ENABLE_0 _MK_ADDR_CONST(0xc008)
> +#define CDP_RDMA_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CDP_RDMA_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CDP_RDMA_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_RDMA_D_DATA_CUBE_WIDTH_0
> +#define CDP_RDMA_D_DATA_CUBE_WIDTH_0 _MK_ADDR_CONST(0xc00c)
> +#define CDP_RDMA_D_DATA_CUBE_WIDTH_0_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_DATA_CUBE_WIDTH_0_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, CDP_RDMA_D_DATA_CUBE_WIDTH_0_WIDTH_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_DATA_CUBE_HEIGHT_0
> +#define CDP_RDMA_D_DATA_CUBE_HEIGHT_0 _MK_ADDR_CONST(0xc010)
> +#define CDP_RDMA_D_DATA_CUBE_HEIGHT_0_HEIGHT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_DATA_CUBE_HEIGHT_0_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, CDP_RDMA_D_DATA_CUBE_HEIGHT_0_HEIGHT_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_DATA_CUBE_CHANNEL_0
> +#define CDP_RDMA_D_DATA_CUBE_CHANNEL_0 _MK_ADDR_CONST(0xc014)
> +#define CDP_RDMA_D_DATA_CUBE_CHANNEL_0_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_DATA_CUBE_CHANNEL_0_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, CDP_RDMA_D_DATA_CUBE_CHANNEL_0_CHANNEL_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_SRC_BASE_ADDR_LOW_0
> +#define CDP_RDMA_D_SRC_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0xc018)
> +#define CDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_RDMA_D_SRC_BASE_ADDR_LOW_0_SRC_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_SRC_BASE_ADDR_HIGH_0
> +#define CDP_RDMA_D_SRC_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0xc01c)
> +#define CDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, CDP_RDMA_D_SRC_BASE_ADDR_HIGH_0_SRC_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_SRC_LINE_STRIDE_0
> +#define CDP_RDMA_D_SRC_LINE_STRIDE_0 _MK_ADDR_CONST(0xc020)
> +#define CDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDP_RDMA_D_SRC_LINE_STRIDE_0_SRC_LINE_STRIDE_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_SRC_SURFACE_STRIDE_0
> +#define CDP_RDMA_D_SRC_SURFACE_STRIDE_0 _MK_ADDR_CONST(0xc024)
> +#define CDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDP_RDMA_D_SRC_SURFACE_STRIDE_0_SRC_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_SRC_DMA_CFG_0
> +#define CDP_RDMA_D_SRC_DMA_CFG_0 _MK_ADDR_CONST(0xc028)
> +#define CDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, CDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_SHIFT)
> +#define CDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_D_SRC_DMA_CFG_0_SRC_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_RDMA_D_SRC_COMPRESSION_EN_0
> +#define CDP_RDMA_D_SRC_COMPRESSION_EN_0 _MK_ADDR_CONST(0xc02c)
> +#define CDP_RDMA_D_SRC_COMPRESSION_EN_0_SRC_COMPRESSION_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_SRC_COMPRESSION_EN_0_SRC_COMPRESSION_EN_FIELD _MK_FIELD_CONST(0x1, CDP_RDMA_D_SRC_COMPRESSION_EN_0_SRC_COMPRESSION_EN_SHIFT)
> +#define CDP_RDMA_D_SRC_COMPRESSION_EN_0_SRC_COMPRESSION_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_D_SRC_COMPRESSION_EN_0_SRC_COMPRESSION_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_RDMA_D_OPERATION_MODE_0
> +#define CDP_RDMA_D_OPERATION_MODE_0 _MK_ADDR_CONST(0xc030)
> +#define CDP_RDMA_D_OPERATION_MODE_0_OPERATION_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_OPERATION_MODE_0_OPERATION_MODE_FIELD _MK_FIELD_CONST(0x3, CDP_RDMA_D_OPERATION_MODE_0_OPERATION_MODE_SHIFT)
> +#define CDP_RDMA_D_OPERATION_MODE_0_OPERATION_MODE_READPHILE _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_D_OPERATION_MODE_0_OPERATION_MODE_WRITEPHILE _MK_ENUM_CONST(0x1)
> +#define CDP_RDMA_D_OPERATION_MODE_0_OPERATION_MODE_ORDINARY _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CDP_RDMA_D_DATA_FORMAT_0
> +#define CDP_RDMA_D_DATA_FORMAT_0 _MK_ADDR_CONST(0xc034)
> +#define CDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_FIELD _MK_FIELD_CONST(0x3, CDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_SHIFT)
> +#define CDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_INT8 _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_INT16 _MK_ENUM_CONST(0x1)
> +#define CDP_RDMA_D_DATA_FORMAT_0_INPUT_DATA_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CDP_RDMA_D_PERF_ENABLE_0
> +#define CDP_RDMA_D_PERF_ENABLE_0 _MK_ADDR_CONST(0xc038)
> +#define CDP_RDMA_D_PERF_ENABLE_0_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_PERF_ENABLE_0_DMA_EN_FIELD _MK_FIELD_CONST(0x1, CDP_RDMA_D_PERF_ENABLE_0_DMA_EN_SHIFT)
> +#define CDP_RDMA_D_PERF_ENABLE_0_DMA_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_RDMA_D_PERF_ENABLE_0_DMA_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_RDMA_D_PERF_READ_STALL_0
> +#define CDP_RDMA_D_PERF_READ_STALL_0 _MK_ADDR_CONST(0xc03c)
> +#define CDP_RDMA_D_PERF_READ_STALL_0_PERF_READ_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_PERF_READ_STALL_0_PERF_READ_STALL_FIELD _MK_FIELD_CONST(0xffffffff, CDP_RDMA_D_PERF_READ_STALL_0_PERF_READ_STALL_SHIFT)
> +
> +
> +// Register CDP_RDMA_D_CYA_0
> +#define CDP_RDMA_D_CYA_0 _MK_ADDR_CONST(0xc040)
> +#define CDP_RDMA_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_RDMA_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, CDP_RDMA_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register CDP_S_STATUS_0
> +#define CDP_S_STATUS_0 _MK_ADDR_CONST(0xd000)
> +#define CDP_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, CDP_S_STATUS_0_STATUS_0_SHIFT)
> +#define CDP_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define CDP_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define CDP_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define CDP_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, CDP_S_STATUS_0_STATUS_1_SHIFT)
> +#define CDP_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define CDP_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define CDP_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CDP_S_POINTER_0
> +#define CDP_S_POINTER_0 _MK_ADDR_CONST(0xd004)
> +#define CDP_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, CDP_S_POINTER_0_PRODUCER_SHIFT)
> +#define CDP_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CDP_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define CDP_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, CDP_S_POINTER_0_CONSUMER_SHIFT)
> +#define CDP_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define CDP_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_S_LUT_ACCESS_CFG_0
> +#define CDP_S_LUT_ACCESS_CFG_0 _MK_ADDR_CONST(0xd008)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_ADDR_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_ADDR_FIELD _MK_FIELD_CONST(0x3ff, CDP_S_LUT_ACCESS_CFG_0_LUT_ADDR_SHIFT)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_FIELD _MK_FIELD_CONST(0x1, CDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_SHIFT)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_LE _MK_ENUM_CONST(0x0)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_TABLE_ID_LO _MK_ENUM_CONST(0x1)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_SHIFT _MK_SHIFT_CONST(17)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_FIELD _MK_FIELD_CONST(0x1, CDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_SHIFT)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_READ _MK_ENUM_CONST(0x0)
> +#define CDP_S_LUT_ACCESS_CFG_0_LUT_ACCESS_TYPE_WRITE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_S_LUT_ACCESS_DATA_0
> +#define CDP_S_LUT_ACCESS_DATA_0 _MK_ADDR_CONST(0xd00c)
> +#define CDP_S_LUT_ACCESS_DATA_0_LUT_DATA_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_ACCESS_DATA_0_LUT_DATA_FIELD _MK_FIELD_CONST(0xffff, CDP_S_LUT_ACCESS_DATA_0_LUT_DATA_SHIFT)
> +
> +
> +// Register CDP_S_LUT_CFG_0
> +#define CDP_S_LUT_CFG_0 _MK_ADDR_CONST(0xd010)
> +#define CDP_S_LUT_CFG_0_LUT_LE_FUNCTION_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_CFG_0_LUT_LE_FUNCTION_FIELD _MK_FIELD_CONST(0x1, CDP_S_LUT_CFG_0_LUT_LE_FUNCTION_SHIFT)
> +#define CDP_S_LUT_CFG_0_LUT_LE_FUNCTION_EXPONENT _MK_ENUM_CONST(0x0)
> +#define CDP_S_LUT_CFG_0_LUT_LE_FUNCTION_LINEAR _MK_ENUM_CONST(0x1)
> +#define CDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_SHIFT _MK_SHIFT_CONST(4)
> +#define CDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_FIELD _MK_FIELD_CONST(0x1, CDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_SHIFT)
> +#define CDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_LE _MK_ENUM_CONST(0x0)
> +#define CDP_S_LUT_CFG_0_LUT_UFLOW_PRIORITY_LO _MK_ENUM_CONST(0x1)
> +#define CDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_SHIFT _MK_SHIFT_CONST(5)
> +#define CDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_FIELD _MK_FIELD_CONST(0x1, CDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_SHIFT)
> +#define CDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_LE _MK_ENUM_CONST(0x0)
> +#define CDP_S_LUT_CFG_0_LUT_OFLOW_PRIORITY_LO _MK_ENUM_CONST(0x1)
> +#define CDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_SHIFT _MK_SHIFT_CONST(6)
> +#define CDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_FIELD _MK_FIELD_CONST(0x1, CDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_SHIFT)
> +#define CDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_LE _MK_ENUM_CONST(0x0)
> +#define CDP_S_LUT_CFG_0_LUT_HYBRID_PRIORITY_LO _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_S_LUT_INFO_0
> +#define CDP_S_LUT_INFO_0 _MK_ADDR_CONST(0xd014)
> +#define CDP_S_LUT_INFO_0_LUT_LE_INDEX_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_INFO_0_LUT_LE_INDEX_OFFSET_FIELD _MK_FIELD_CONST(0xff, CDP_S_LUT_INFO_0_LUT_LE_INDEX_OFFSET_SHIFT)
> +#define CDP_S_LUT_INFO_0_LUT_LE_INDEX_SELECT_SHIFT _MK_SHIFT_CONST(8)
> +#define CDP_S_LUT_INFO_0_LUT_LE_INDEX_SELECT_FIELD _MK_FIELD_CONST(0xff, CDP_S_LUT_INFO_0_LUT_LE_INDEX_SELECT_SHIFT)
> +#define CDP_S_LUT_INFO_0_LUT_LO_INDEX_SELECT_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_S_LUT_INFO_0_LUT_LO_INDEX_SELECT_FIELD _MK_FIELD_CONST(0xff, CDP_S_LUT_INFO_0_LUT_LO_INDEX_SELECT_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LE_START_LOW_0
> +#define CDP_S_LUT_LE_START_LOW_0 _MK_ADDR_CONST(0xd018)
> +#define CDP_S_LUT_LE_START_LOW_0_LUT_LE_START_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LE_START_LOW_0_LUT_LE_START_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_S_LUT_LE_START_LOW_0_LUT_LE_START_LOW_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LE_START_HIGH_0
> +#define CDP_S_LUT_LE_START_HIGH_0 _MK_ADDR_CONST(0xd01c)
> +#define CDP_S_LUT_LE_START_HIGH_0_LUT_LE_START_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LE_START_HIGH_0_LUT_LE_START_HIGH_FIELD _MK_FIELD_CONST(0x3f, CDP_S_LUT_LE_START_HIGH_0_LUT_LE_START_HIGH_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LE_END_LOW_0
> +#define CDP_S_LUT_LE_END_LOW_0 _MK_ADDR_CONST(0xd020)
> +#define CDP_S_LUT_LE_END_LOW_0_LUT_LE_END_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LE_END_LOW_0_LUT_LE_END_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_S_LUT_LE_END_LOW_0_LUT_LE_END_LOW_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LE_END_HIGH_0
> +#define CDP_S_LUT_LE_END_HIGH_0 _MK_ADDR_CONST(0xd024)
> +#define CDP_S_LUT_LE_END_HIGH_0_LUT_LE_END_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LE_END_HIGH_0_LUT_LE_END_HIGH_FIELD _MK_FIELD_CONST(0x3f, CDP_S_LUT_LE_END_HIGH_0_LUT_LE_END_HIGH_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LO_START_LOW_0
> +#define CDP_S_LUT_LO_START_LOW_0 _MK_ADDR_CONST(0xd028)
> +#define CDP_S_LUT_LO_START_LOW_0_LUT_LO_START_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LO_START_LOW_0_LUT_LO_START_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_S_LUT_LO_START_LOW_0_LUT_LO_START_LOW_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LO_START_HIGH_0
> +#define CDP_S_LUT_LO_START_HIGH_0 _MK_ADDR_CONST(0xd02c)
> +#define CDP_S_LUT_LO_START_HIGH_0_LUT_LO_START_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LO_START_HIGH_0_LUT_LO_START_HIGH_FIELD _MK_FIELD_CONST(0x3f, CDP_S_LUT_LO_START_HIGH_0_LUT_LO_START_HIGH_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LO_END_LOW_0
> +#define CDP_S_LUT_LO_END_LOW_0 _MK_ADDR_CONST(0xd030)
> +#define CDP_S_LUT_LO_END_LOW_0_LUT_LO_END_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LO_END_LOW_0_LUT_LO_END_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_S_LUT_LO_END_LOW_0_LUT_LO_END_LOW_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LO_END_HIGH_0
> +#define CDP_S_LUT_LO_END_HIGH_0 _MK_ADDR_CONST(0xd034)
> +#define CDP_S_LUT_LO_END_HIGH_0_LUT_LO_END_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LO_END_HIGH_0_LUT_LO_END_HIGH_FIELD _MK_FIELD_CONST(0x3f, CDP_S_LUT_LO_END_HIGH_0_LUT_LO_END_HIGH_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LE_SLOPE_SCALE_0
> +#define CDP_S_LUT_LE_SLOPE_SCALE_0 _MK_ADDR_CONST(0xd038)
> +#define CDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_UFLOW_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_UFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_UFLOW_SCALE_SHIFT)
> +#define CDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_OFLOW_SCALE_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_OFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDP_S_LUT_LE_SLOPE_SCALE_0_LUT_LE_SLOPE_OFLOW_SCALE_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LE_SLOPE_SHIFT_0
> +#define CDP_S_LUT_LE_SLOPE_SHIFT_0 _MK_ADDR_CONST(0xd03c)
> +#define CDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_UFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_UFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, CDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_UFLOW_SHIFT_SHIFT)
> +#define CDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_OFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(5)
> +#define CDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_OFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, CDP_S_LUT_LE_SLOPE_SHIFT_0_LUT_LE_SLOPE_OFLOW_SHIFT_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LO_SLOPE_SCALE_0
> +#define CDP_S_LUT_LO_SLOPE_SCALE_0 _MK_ADDR_CONST(0xd040)
> +#define CDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_UFLOW_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_UFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_UFLOW_SCALE_SHIFT)
> +#define CDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_OFLOW_SCALE_SHIFT _MK_SHIFT_CONST(16)
> +#define CDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_OFLOW_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDP_S_LUT_LO_SLOPE_SCALE_0_LUT_LO_SLOPE_OFLOW_SCALE_SHIFT)
> +
> +
> +// Register CDP_S_LUT_LO_SLOPE_SHIFT_0
> +#define CDP_S_LUT_LO_SLOPE_SHIFT_0 _MK_ADDR_CONST(0xd044)
> +#define CDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_UFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_UFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, CDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_UFLOW_SHIFT_SHIFT)
> +#define CDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_OFLOW_SHIFT_SHIFT _MK_SHIFT_CONST(5)
> +#define CDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_OFLOW_SHIFT_FIELD _MK_FIELD_CONST(0x1f, CDP_S_LUT_LO_SLOPE_SHIFT_0_LUT_LO_SLOPE_OFLOW_SHIFT_SHIFT)
> +
> +
> +// Register CDP_D_OP_ENABLE_0
> +#define CDP_D_OP_ENABLE_0 _MK_ADDR_CONST(0xd048)
> +#define CDP_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, CDP_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define CDP_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_D_FUNC_BYPASS_0
> +#define CDP_D_FUNC_BYPASS_0 _MK_ADDR_CONST(0xd04c)
> +#define CDP_D_FUNC_BYPASS_0_SQSUM_BYPASS_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_FUNC_BYPASS_0_SQSUM_BYPASS_FIELD _MK_FIELD_CONST(0x1, CDP_D_FUNC_BYPASS_0_SQSUM_BYPASS_SHIFT)
> +#define CDP_D_FUNC_BYPASS_0_SQSUM_BYPASS_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_FUNC_BYPASS_0_SQSUM_BYPASS_ENABLE _MK_ENUM_CONST(0x1)
> +#define CDP_D_FUNC_BYPASS_0_MUL_BYPASS_SHIFT _MK_SHIFT_CONST(1)
> +#define CDP_D_FUNC_BYPASS_0_MUL_BYPASS_FIELD _MK_FIELD_CONST(0x1, CDP_D_FUNC_BYPASS_0_MUL_BYPASS_SHIFT)
> +#define CDP_D_FUNC_BYPASS_0_MUL_BYPASS_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_FUNC_BYPASS_0_MUL_BYPASS_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_D_DST_BASE_ADDR_LOW_0
> +#define CDP_D_DST_BASE_ADDR_LOW_0 _MK_ADDR_CONST(0xd050)
> +#define CDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_DST_BASE_ADDR_LOW_0_DST_BASE_ADDR_LOW_SHIFT)
> +
> +
> +// Register CDP_D_DST_BASE_ADDR_HIGH_0
> +#define CDP_D_DST_BASE_ADDR_HIGH_0 _MK_ADDR_CONST(0xd054)
> +#define CDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_DST_BASE_ADDR_HIGH_0_DST_BASE_ADDR_HIGH_SHIFT)
> +
> +
> +// Register CDP_D_DST_LINE_STRIDE_0
> +#define CDP_D_DST_LINE_STRIDE_0 _MK_ADDR_CONST(0xd058)
> +#define CDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_DST_LINE_STRIDE_0_DST_LINE_STRIDE_SHIFT)
> +
> +
> +// Register CDP_D_DST_SURFACE_STRIDE_0
> +#define CDP_D_DST_SURFACE_STRIDE_0 _MK_ADDR_CONST(0xd05c)
> +#define CDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_DST_SURFACE_STRIDE_0_DST_SURFACE_STRIDE_SHIFT)
> +
> +
> +// Register CDP_D_DST_DMA_CFG_0
> +#define CDP_D_DST_DMA_CFG_0 _MK_ADDR_CONST(0xd060)
> +#define CDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, CDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_SHIFT)
> +#define CDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_CV _MK_ENUM_CONST(0x0)
> +#define CDP_D_DST_DMA_CFG_0_DST_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_D_DST_COMPRESSION_EN_0
> +#define CDP_D_DST_COMPRESSION_EN_0 _MK_ADDR_CONST(0xd064)
> +#define CDP_D_DST_COMPRESSION_EN_0_DST_COMPRESSION_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DST_COMPRESSION_EN_0_DST_COMPRESSION_EN_FIELD _MK_FIELD_CONST(0x1, CDP_D_DST_COMPRESSION_EN_0_DST_COMPRESSION_EN_SHIFT)
> +#define CDP_D_DST_COMPRESSION_EN_0_DST_COMPRESSION_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_DST_COMPRESSION_EN_0_DST_COMPRESSION_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_D_DATA_FORMAT_0
> +#define CDP_D_DATA_FORMAT_0 _MK_ADDR_CONST(0xd068)
> +#define CDP_D_DATA_FORMAT_0_INPUT_DATA_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATA_FORMAT_0_INPUT_DATA_TYPE_FIELD _MK_FIELD_CONST(0x3, CDP_D_DATA_FORMAT_0_INPUT_DATA_TYPE_SHIFT)
> +#define CDP_D_DATA_FORMAT_0_INPUT_DATA_TYPE_INT8 _MK_ENUM_CONST(0x0)
> +#define CDP_D_DATA_FORMAT_0_INPUT_DATA_TYPE_INT16 _MK_ENUM_CONST(0x1)
> +#define CDP_D_DATA_FORMAT_0_INPUT_DATA_TYPE_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register CDP_D_NAN_FLUSH_TO_ZERO_0
> +#define CDP_D_NAN_FLUSH_TO_ZERO_0 _MK_ADDR_CONST(0xd06c)
> +#define CDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_FIELD _MK_FIELD_CONST(0x1, CDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_SHIFT)
> +#define CDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_NAN_FLUSH_TO_ZERO_0_NAN_TO_ZERO_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_D_LRN_CFG_0
> +#define CDP_D_LRN_CFG_0 _MK_ADDR_CONST(0xd070)
> +#define CDP_D_LRN_CFG_0_NORMALZ_LEN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_LRN_CFG_0_NORMALZ_LEN_FIELD _MK_FIELD_CONST(0x3, CDP_D_LRN_CFG_0_NORMALZ_LEN_SHIFT)
> +#define CDP_D_LRN_CFG_0_NORMALZ_LEN_LEN3 _MK_ENUM_CONST(0x0)
> +#define CDP_D_LRN_CFG_0_NORMALZ_LEN_LEN5 _MK_ENUM_CONST(0x1)
> +#define CDP_D_LRN_CFG_0_NORMALZ_LEN_LEN7 _MK_ENUM_CONST(0x2)
> +#define CDP_D_LRN_CFG_0_NORMALZ_LEN_LEN9 _MK_ENUM_CONST(0x3)
> +
> +
> +// Register CDP_D_DATIN_OFFSET_0
> +#define CDP_D_DATIN_OFFSET_0 _MK_ADDR_CONST(0xd074)
> +#define CDP_D_DATIN_OFFSET_0_DATIN_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATIN_OFFSET_0_DATIN_OFFSET_FIELD _MK_FIELD_CONST(0xffff, CDP_D_DATIN_OFFSET_0_DATIN_OFFSET_SHIFT)
> +
> +
> +// Register CDP_D_DATIN_SCALE_0
> +#define CDP_D_DATIN_SCALE_0 _MK_ADDR_CONST(0xd078)
> +#define CDP_D_DATIN_SCALE_0_DATIN_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATIN_SCALE_0_DATIN_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDP_D_DATIN_SCALE_0_DATIN_SCALE_SHIFT)
> +
> +
> +// Register CDP_D_DATIN_SHIFTER_0
> +#define CDP_D_DATIN_SHIFTER_0 _MK_ADDR_CONST(0xd07c)
> +#define CDP_D_DATIN_SHIFTER_0_DATIN_SHIFTER_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATIN_SHIFTER_0_DATIN_SHIFTER_FIELD _MK_FIELD_CONST(0x1f, CDP_D_DATIN_SHIFTER_0_DATIN_SHIFTER_SHIFT)
> +
> +
> +// Register CDP_D_DATOUT_OFFSET_0
> +#define CDP_D_DATOUT_OFFSET_0 _MK_ADDR_CONST(0xd080)
> +#define CDP_D_DATOUT_OFFSET_0_DATOUT_OFFSET_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATOUT_OFFSET_0_DATOUT_OFFSET_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_DATOUT_OFFSET_0_DATOUT_OFFSET_SHIFT)
> +
> +
> +// Register CDP_D_DATOUT_SCALE_0
> +#define CDP_D_DATOUT_SCALE_0 _MK_ADDR_CONST(0xd084)
> +#define CDP_D_DATOUT_SCALE_0_DATOUT_SCALE_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATOUT_SCALE_0_DATOUT_SCALE_FIELD _MK_FIELD_CONST(0xffff, CDP_D_DATOUT_SCALE_0_DATOUT_SCALE_SHIFT)
> +
> +
> +// Register CDP_D_DATOUT_SHIFTER_0
> +#define CDP_D_DATOUT_SHIFTER_0 _MK_ADDR_CONST(0xd088)
> +#define CDP_D_DATOUT_SHIFTER_0_DATOUT_SHIFTER_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_DATOUT_SHIFTER_0_DATOUT_SHIFTER_FIELD _MK_FIELD_CONST(0x3f, CDP_D_DATOUT_SHIFTER_0_DATOUT_SHIFTER_SHIFT)
> +
> +
> +// Register CDP_D_NAN_INPUT_NUM_0
> +#define CDP_D_NAN_INPUT_NUM_0 _MK_ADDR_CONST(0xd08c)
> +#define CDP_D_NAN_INPUT_NUM_0_NAN_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_NAN_INPUT_NUM_0_NAN_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_NAN_INPUT_NUM_0_NAN_INPUT_NUM_SHIFT)
> +
> +
> +// Register CDP_D_INF_INPUT_NUM_0
> +#define CDP_D_INF_INPUT_NUM_0 _MK_ADDR_CONST(0xd090)
> +#define CDP_D_INF_INPUT_NUM_0_INF_INPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_INF_INPUT_NUM_0_INF_INPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_INF_INPUT_NUM_0_INF_INPUT_NUM_SHIFT)
> +
> +
> +// Register CDP_D_NAN_OUTPUT_NUM_0
> +#define CDP_D_NAN_OUTPUT_NUM_0 _MK_ADDR_CONST(0xd094)
> +#define CDP_D_NAN_OUTPUT_NUM_0_NAN_OUTPUT_NUM_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_NAN_OUTPUT_NUM_0_NAN_OUTPUT_NUM_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_NAN_OUTPUT_NUM_0_NAN_OUTPUT_NUM_SHIFT)
> +
> +
> +// Register CDP_D_OUT_SATURATION_0
> +#define CDP_D_OUT_SATURATION_0 _MK_ADDR_CONST(0xd098)
> +#define CDP_D_OUT_SATURATION_0_OUT_SATURATION_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_OUT_SATURATION_0_OUT_SATURATION_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_OUT_SATURATION_0_OUT_SATURATION_SHIFT)
> +
> +
> +// Register CDP_D_PERF_ENABLE_0
> +#define CDP_D_PERF_ENABLE_0 _MK_ADDR_CONST(0xd09c)
> +#define CDP_D_PERF_ENABLE_0_DMA_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_ENABLE_0_DMA_EN_FIELD _MK_FIELD_CONST(0x1, CDP_D_PERF_ENABLE_0_DMA_EN_SHIFT)
> +#define CDP_D_PERF_ENABLE_0_DMA_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_PERF_ENABLE_0_DMA_EN_ENABLE _MK_ENUM_CONST(0x1)
> +#define CDP_D_PERF_ENABLE_0_LUT_EN_SHIFT _MK_SHIFT_CONST(1)
> +#define CDP_D_PERF_ENABLE_0_LUT_EN_FIELD _MK_FIELD_CONST(0x1, CDP_D_PERF_ENABLE_0_LUT_EN_SHIFT)
> +#define CDP_D_PERF_ENABLE_0_LUT_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define CDP_D_PERF_ENABLE_0_LUT_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register CDP_D_PERF_WRITE_STALL_0
> +#define CDP_D_PERF_WRITE_STALL_0 _MK_ADDR_CONST(0xd0a0)
> +#define CDP_D_PERF_WRITE_STALL_0_PERF_WRITE_STALL_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_WRITE_STALL_0_PERF_WRITE_STALL_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_PERF_WRITE_STALL_0_PERF_WRITE_STALL_SHIFT)
> +
> +
> +// Register CDP_D_PERF_LUT_UFLOW_0
> +#define CDP_D_PERF_LUT_UFLOW_0 _MK_ADDR_CONST(0xd0a4)
> +#define CDP_D_PERF_LUT_UFLOW_0_PERF_LUT_UFLOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_LUT_UFLOW_0_PERF_LUT_UFLOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_PERF_LUT_UFLOW_0_PERF_LUT_UFLOW_SHIFT)
> +
> +
> +// Register CDP_D_PERF_LUT_OFLOW_0
> +#define CDP_D_PERF_LUT_OFLOW_0 _MK_ADDR_CONST(0xd0a8)
> +#define CDP_D_PERF_LUT_OFLOW_0_PERF_LUT_OFLOW_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_LUT_OFLOW_0_PERF_LUT_OFLOW_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_PERF_LUT_OFLOW_0_PERF_LUT_OFLOW_SHIFT)
> +
> +
> +// Register CDP_D_PERF_LUT_HYBRID_0
> +#define CDP_D_PERF_LUT_HYBRID_0 _MK_ADDR_CONST(0xd0ac)
> +#define CDP_D_PERF_LUT_HYBRID_0_PERF_LUT_HYBRID_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_LUT_HYBRID_0_PERF_LUT_HYBRID_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_PERF_LUT_HYBRID_0_PERF_LUT_HYBRID_SHIFT)
> +
> +
> +// Register CDP_D_PERF_LUT_LE_HIT_0
> +#define CDP_D_PERF_LUT_LE_HIT_0 _MK_ADDR_CONST(0xd0b0)
> +#define CDP_D_PERF_LUT_LE_HIT_0_PERF_LUT_LE_HIT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_LUT_LE_HIT_0_PERF_LUT_LE_HIT_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_PERF_LUT_LE_HIT_0_PERF_LUT_LE_HIT_SHIFT)
> +
> +
> +// Register CDP_D_PERF_LUT_LO_HIT_0
> +#define CDP_D_PERF_LUT_LO_HIT_0 _MK_ADDR_CONST(0xd0b4)
> +#define CDP_D_PERF_LUT_LO_HIT_0_PERF_LUT_LO_HIT_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_PERF_LUT_LO_HIT_0_PERF_LUT_LO_HIT_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_PERF_LUT_LO_HIT_0_PERF_LUT_LO_HIT_SHIFT)
> +
> +
> +// Register CDP_D_CYA_0
> +#define CDP_D_CYA_0 _MK_ADDR_CONST(0xd0b8)
> +#define CDP_D_CYA_0_CYA_SHIFT _MK_SHIFT_CONST(0)
> +#define CDP_D_CYA_0_CYA_FIELD _MK_FIELD_CONST(0xffffffff, CDP_D_CYA_0_CYA_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register NVDLA_GEC_FEATURE_0
> +#define NVDLA_GEC_FEATURE_0 _MK_ADDR_CONST(0xe000)
> +#define NVDLA_GEC_FEATURE_0_NUM_ERR_SLICES_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_FEATURE_0_NUM_ERR_SLICES_FIELD _MK_FIELD_CONST(0x3f, NVDLA_GEC_FEATURE_0_NUM_ERR_SLICES_SHIFT)
> +#define NVDLA_GEC_FEATURE_0_NUM_ERR_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_FEATURE_0_NUM_ERR_FIELD _MK_FIELD_CONST(0xffff, NVDLA_GEC_FEATURE_0_NUM_ERR_SHIFT)
> +
> +
> +// Register NVDLA_GEC_SWRESET_0
> +#define NVDLA_GEC_SWRESET_0 _MK_ADDR_CONST(0xe004)
> +#define NVDLA_GEC_SWRESET_0_SWRST_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_SWRESET_0_SWRST_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_SWRESET_0_SWRST_SHIFT)
> +
> +
> +// Register NVDLA_GEC_MISSIONERR_TYPE_0
> +#define NVDLA_GEC_MISSIONERR_TYPE_0 _MK_ADDR_CONST(0xe008)
> +#define NVDLA_GEC_MISSIONERR_TYPE_0_CODE_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_MISSIONERR_TYPE_0_CODE_FIELD _MK_FIELD_CONST(0x3f, NVDLA_GEC_MISSIONERR_TYPE_0_CODE_SHIFT)
> +
> +
> +// Register NVDLA_GEC_CURRENT_COUNTER_VALUE_0
> +#define NVDLA_GEC_CURRENT_COUNTER_VALUE_0 _MK_ADDR_CONST(0xe00c)
> +#define NVDLA_GEC_CURRENT_COUNTER_VALUE_0_VALUE_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_CURRENT_COUNTER_VALUE_0_VALUE_FIELD _MK_FIELD_CONST(0x1ff, NVDLA_GEC_CURRENT_COUNTER_VALUE_0_VALUE_SHIFT)
> +
> +
> +// Register NVDLA_GEC_MISSIONERR_INDEX_0
> +#define NVDLA_GEC_MISSIONERR_INDEX_0 _MK_ADDR_CONST(0xe014)
> +#define NVDLA_GEC_MISSIONERR_INDEX_0_IDX_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_MISSIONERR_INDEX_0_IDX_FIELD _MK_FIELD_CONST(0x7f, NVDLA_GEC_MISSIONERR_INDEX_0_IDX_SHIFT)
> +
> +
> +// Register NVDLA_GEC_CORRECTABLE_THRESHOLD_0
> +#define NVDLA_GEC_CORRECTABLE_THRESHOLD_0 _MK_ADDR_CONST(0xe018)
> +#define NVDLA_GEC_CORRECTABLE_THRESHOLD_0_COUNT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_CORRECTABLE_THRESHOLD_0_COUNT_FIELD _MK_FIELD_CONST(0xff, NVDLA_GEC_CORRECTABLE_THRESHOLD_0_COUNT_SHIFT)
> +
> +
> +// Register NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0
> +#define NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0 _MK_ADDR_CONST(0xe01c)
> +#define NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0_VALUE_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0_VALUE_FIELD _MK_FIELD_CONST(0xff, NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0_VALUE_SHIFT)
> +#define NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0_VALUE_LOCK _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_MISSIONERR_INJECT_UNLOCK_0_VALUE_UNLOCK _MK_ENUM_CONST(0xe1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0 _MK_ADDR_CONST(0xe030)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR0_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR0_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR1_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR1_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR2_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR2_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR3_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR3_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR4_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR4_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR5_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR5_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR6_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR6_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR7_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR7_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR8_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR8_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR9_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR9_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR10_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR10_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR11_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR11_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR12_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR12_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR13_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR13_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR14_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR14_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR15_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR15_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR16_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR16_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR17_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR17_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR18_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR18_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR19_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR19_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR20_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR20_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR21_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR21_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR22_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR22_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR23_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR23_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR24_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR24_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR25_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR25_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR26_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR26_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR27_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR27_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR28_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR28_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR29_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR29_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR30_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR30_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR31_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR31_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_ENABLE_0_ERR31_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0 _MK_ADDR_CONST(0xe034)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR0_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR0_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR1_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR1_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR2_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR2_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR3_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR3_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR4_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR4_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR5_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR5_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR6_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR6_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR7_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR7_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR8_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR8_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR9_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR9_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR10_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR10_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR11_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR11_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR12_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR12_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR13_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR13_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR14_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR14_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR15_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR15_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR16_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR16_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR17_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR17_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR18_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR18_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR19_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR19_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR20_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR20_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR21_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR21_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR22_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR22_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR23_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR23_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR24_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR24_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR25_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR25_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR26_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR26_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR27_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR27_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR28_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR28_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR29_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR29_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR30_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR30_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR31_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR31_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_FORCE_0_ERR31_FORCE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0 _MK_ADDR_CONST(0xe038)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_STATUS_0_ERR31_SHIFT)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0 _MK_ADDR_CONST(0xe03c)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR0_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR0_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR1_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR1_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR2_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR2_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR3_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR3_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR4_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR4_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR5_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR5_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR6_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR6_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR7_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR7_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR8_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR8_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR15_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR15_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR16_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR16_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR17_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR17_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR18_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR18_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR19_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR19_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR20_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR20_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR21_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR21_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR22_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR22_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR23_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR23_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR24_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR24_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR25_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR25_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR26_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR26_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR27_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR27_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR28_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR28_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR29_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR29_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR30_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR30_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR31_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR31_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_MISSIONERR_INJECT_0_ERR31_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0 _MK_ADDR_CONST(0xe040)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR0_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR0_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR1_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR1_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR2_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR2_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR3_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR3_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR4_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR4_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR5_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR5_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR6_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR6_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR7_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR7_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR8_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR8_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR9_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR9_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR10_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR10_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR11_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR11_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR12_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR12_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR13_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR13_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR14_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR14_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR15_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR15_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR16_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR16_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR17_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR17_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR18_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR18_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR19_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR19_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR20_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR20_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR21_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR21_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR22_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR22_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR23_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR23_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR24_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR24_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR25_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR25_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR26_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR26_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR27_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR27_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR28_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR28_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR29_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR29_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR30_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR30_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR31_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR31_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_ENABLE_0_ERR31_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0 _MK_ADDR_CONST(0xe044)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR0_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR0_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR1_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR1_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR2_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR2_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR3_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR3_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR4_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR4_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR5_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR5_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR6_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR6_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR7_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR7_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR8_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR8_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR9_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR9_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR10_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR10_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR11_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR11_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR12_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR12_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR13_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR13_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR14_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR14_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR15_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR15_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR16_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR16_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR17_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR17_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR18_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR18_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR19_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR19_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR20_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR20_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR21_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR21_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR22_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR22_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR23_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR23_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR24_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR24_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR25_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR25_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR26_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR26_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR27_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR27_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR28_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR28_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR29_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR29_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR30_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR30_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR31_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR31_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_FORCE_0_ERR31_FORCE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0 _MK_ADDR_CONST(0xe048)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_LATENTERR_STATUS_0_ERR31_SHIFT)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0 _MK_ADDR_CONST(0xe050)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR0_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR0_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR0_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR0_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR0_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR1_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR1_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR1_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR1_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR1_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR2_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR2_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR2_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR2_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR2_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR3_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR3_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR3_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR3_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR3_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR4_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR4_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR4_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR4_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR4_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR5_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR5_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR5_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR5_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR5_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR6_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR6_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR6_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR6_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR6_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR7_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR7_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR7_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR7_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR7_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR8_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR8_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR8_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR8_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR8_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR9_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR9_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR9_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR9_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR9_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR10_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR10_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR10_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR10_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR10_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR11_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR11_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR11_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR11_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR11_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR12_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR12_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR12_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR12_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR12_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR13_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR13_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR13_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR13_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR13_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR14_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR14_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR14_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR14_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR14_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR15_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR15_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR15_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR15_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR15_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR16_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR16_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR16_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR16_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR16_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR17_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR17_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR17_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR17_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR17_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR18_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR18_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR18_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR18_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR18_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR19_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR19_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR19_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR19_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR19_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR20_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR20_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR20_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR20_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR20_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR21_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR21_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR21_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR21_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR21_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR22_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR22_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR22_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR22_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR22_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR23_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR23_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR23_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR23_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR23_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR24_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR24_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR24_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR24_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR24_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR25_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR25_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR25_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR25_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR25_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR26_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR26_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR26_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR26_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR26_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR27_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR27_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR27_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR27_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR27_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR28_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR28_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR28_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR28_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR28_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR29_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR29_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR29_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR29_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR29_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR30_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR30_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR30_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR30_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR30_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR31_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR31_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR31_SHIFT)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR31_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE0_COUNTER_RELOAD_0_ERR31_RELOAD _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0 _MK_ADDR_CONST(0xe060)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR32_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR32_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR33_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR33_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR34_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR34_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR35_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR35_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR36_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR36_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR37_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR37_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR38_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR38_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR39_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR39_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR40_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR40_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR41_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR41_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR42_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR42_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR43_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR43_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR44_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR44_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR45_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR45_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR46_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR46_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR47_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR47_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR48_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR48_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR49_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR49_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR50_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR50_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR51_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR51_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR52_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR52_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR53_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR53_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR54_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR54_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR55_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR55_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR56_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR56_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR57_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR57_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR58_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR58_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR59_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR59_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR60_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR60_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR61_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR61_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR62_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR62_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR63_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ENABLE_0_ERR63_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0 _MK_ADDR_CONST(0xe064)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR32_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR32_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR33_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR33_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR34_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR34_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR35_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR35_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR36_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR36_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR37_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR37_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR38_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR38_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR39_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR39_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR40_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR40_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR41_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR41_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR42_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR42_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR43_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR43_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR44_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR44_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR45_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR45_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR46_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR46_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR47_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR47_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR48_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR48_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR49_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR49_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR50_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR50_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR51_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR51_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR52_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR52_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR53_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR53_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR54_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR54_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR55_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR55_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR56_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR56_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR57_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR57_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR58_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR58_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR59_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR59_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR60_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR60_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR61_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR61_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR62_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR62_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR63_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_FORCE_0_ERR63_FORCE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0 _MK_ADDR_CONST(0xe068)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_STATUS_0_ERR63_SHIFT)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0 _MK_ADDR_CONST(0xe06c)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR32_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR32_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR33_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR33_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR34_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR34_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR35_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR35_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR36_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR36_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR37_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR37_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR38_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR38_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR39_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR39_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR40_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR40_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR41_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR41_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR42_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR42_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR43_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR43_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR44_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR44_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR45_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR45_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR46_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR46_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR47_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR47_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR48_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR48_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR49_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR49_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR50_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR50_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR51_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR51_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR52_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR52_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR53_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR53_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR54_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR54_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR55_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR55_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR56_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR56_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR57_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR57_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR58_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR58_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR59_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR59_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR60_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR60_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR61_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR61_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR62_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR62_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR63_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_INJECT_0_ERR63_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0 _MK_ADDR_CONST(0xe070)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR32_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR32_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR33_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR33_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR34_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR34_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR35_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR35_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR36_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR36_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR37_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR37_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR38_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR38_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR39_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR39_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR40_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR40_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR41_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR41_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR42_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR42_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR43_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR43_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR44_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR44_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR45_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR45_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR46_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR46_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR47_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR47_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR48_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR48_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR49_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR49_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR50_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR50_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR51_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR51_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR52_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR52_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR53_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR53_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR54_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR54_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR55_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR55_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR56_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR56_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR57_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR57_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR58_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR58_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR59_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR59_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR60_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR60_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR61_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR61_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR62_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR62_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR63_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_ENABLE_0_ERR63_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0 _MK_ADDR_CONST(0xe074)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR32_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR32_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR33_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR33_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR34_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR34_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR35_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR35_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR36_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR36_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR37_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR37_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR38_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR38_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR39_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR39_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR40_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR40_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR41_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR41_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR42_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR42_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR43_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR43_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR44_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR44_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR45_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR45_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR46_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR46_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR47_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR47_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR48_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR48_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR49_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR49_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR50_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR50_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR51_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR51_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR52_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR52_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR53_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR53_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR54_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR54_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR55_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR55_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR56_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR56_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR57_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR57_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR58_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR58_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR59_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR59_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR60_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR60_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR61_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR61_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR62_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR62_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR63_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_FORCE_0_ERR63_FORCE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0 _MK_ADDR_CONST(0xe078)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_LATENTERR_STATUS_0_ERR63_SHIFT)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0 _MK_ADDR_CONST(0xe080)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR32_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR32_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR32_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR32_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR32_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR33_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR33_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR33_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR33_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR33_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR34_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR34_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR34_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR34_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR34_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR35_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR35_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR35_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR35_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR35_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR36_SHIFT _MK_SHIFT_CONST(4)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR36_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR36_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR36_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR36_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR37_SHIFT _MK_SHIFT_CONST(5)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR37_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR37_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR37_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR37_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR38_SHIFT _MK_SHIFT_CONST(6)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR38_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR38_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR38_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR38_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR39_SHIFT _MK_SHIFT_CONST(7)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR39_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR39_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR39_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR39_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR40_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR40_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR40_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR40_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR40_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR41_SHIFT _MK_SHIFT_CONST(9)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR41_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR41_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR41_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR41_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR42_SHIFT _MK_SHIFT_CONST(10)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR42_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR42_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR42_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR42_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR43_SHIFT _MK_SHIFT_CONST(11)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR43_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR43_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR43_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR43_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR44_SHIFT _MK_SHIFT_CONST(12)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR44_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR44_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR44_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR44_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR45_SHIFT _MK_SHIFT_CONST(13)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR45_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR45_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR45_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR45_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR46_SHIFT _MK_SHIFT_CONST(14)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR46_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR46_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR46_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR46_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR47_SHIFT _MK_SHIFT_CONST(15)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR47_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR47_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR47_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR47_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR48_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR48_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR48_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR48_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR48_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR49_SHIFT _MK_SHIFT_CONST(17)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR49_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR49_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR49_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR49_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR50_SHIFT _MK_SHIFT_CONST(18)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR50_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR50_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR50_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR50_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR51_SHIFT _MK_SHIFT_CONST(19)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR51_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR51_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR51_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR51_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR52_SHIFT _MK_SHIFT_CONST(20)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR52_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR52_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR52_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR52_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR53_SHIFT _MK_SHIFT_CONST(21)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR53_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR53_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR53_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR53_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR54_SHIFT _MK_SHIFT_CONST(22)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR54_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR54_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR54_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR54_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR55_SHIFT _MK_SHIFT_CONST(23)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR55_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR55_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR55_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR55_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR56_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR56_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR56_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR56_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR56_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR57_SHIFT _MK_SHIFT_CONST(25)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR57_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR57_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR57_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR57_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR58_SHIFT _MK_SHIFT_CONST(26)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR58_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR58_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR58_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR58_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR59_SHIFT _MK_SHIFT_CONST(27)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR59_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR59_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR59_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR59_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR60_SHIFT _MK_SHIFT_CONST(28)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR60_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR60_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR60_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR60_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR61_SHIFT _MK_SHIFT_CONST(29)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR61_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR61_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR61_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR61_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR62_SHIFT _MK_SHIFT_CONST(30)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR62_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR62_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR62_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR62_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR63_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_COUNTER_RELOAD_0_ERR63_RELOAD _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0 _MK_ADDR_CONST(0xe084)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0_ERR63_SHIFT _MK_SHIFT_CONST(31)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0_ERR63_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0_ERR63_SHIFT)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0_ERR63_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE1_MISSIONERR_ECC_CORRECTION_DIS_0_ERR63_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0 _MK_ADDR_CONST(0xe090)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR64_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR64_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR65_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR65_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR66_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR66_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR67_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR67_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_ENABLE_0_ERR67_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0 _MK_ADDR_CONST(0xe094)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR64_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR64_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR65_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR65_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR66_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR66_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR67_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR67_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_FORCE_0_ERR67_FORCE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0 _MK_ADDR_CONST(0xe098)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_STATUS_0_ERR67_SHIFT)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0 _MK_ADDR_CONST(0xe09c)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR64_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR64_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR65_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_MISSIONERR_INJECT_0_ERR65_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0 _MK_ADDR_CONST(0xe0a0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR64_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR64_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR65_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR65_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR66_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR66_ENABLE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR67_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR67_DISABLE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_ENABLE_0_ERR67_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0 _MK_ADDR_CONST(0xe0a4)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR64_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR64_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR65_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR65_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR66_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR66_FORCE _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR67_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR67_NOFORCE _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_FORCE_0_ERR67_FORCE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0 _MK_ADDR_CONST(0xe0a8)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_LATENTERR_STATUS_0_ERR67_SHIFT)
> +
> +
> +// Register NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0 _MK_ADDR_CONST(0xe0b0)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR64_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR64_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR64_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR64_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR64_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR65_SHIFT _MK_SHIFT_CONST(1)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR65_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR65_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR65_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR65_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR66_SHIFT _MK_SHIFT_CONST(2)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR66_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR66_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR66_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR66_RELOAD _MK_ENUM_CONST(0x1)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR67_SHIFT _MK_SHIFT_CONST(3)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR67_FIELD _MK_FIELD_CONST(0x1, NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR67_SHIFT)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR67_NORELOAD _MK_ENUM_CONST(0x0)
> +#define NVDLA_GEC_ERRSLICE2_COUNTER_RELOAD_0_ERR67_RELOAD _MK_ENUM_CONST(0x1)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register NVDLA_CVIF_CFG_RD_WEIGHT_0_0
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0 _MK_ADDR_CONST(0xf000)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_BDMA_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_BDMA_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_BDMA_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_SDP_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_SDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_SDP_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_PDP_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_PDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_PDP_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_CDP_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_CDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_0_0_RD_WEIGHT_CDP_SHIFT)
> +
> +
> +// Register NVDLA_CVIF_CFG_RD_WEIGHT_1_0
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0 _MK_ADDR_CONST(0xf004)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_B_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_B_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_B_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_N_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_N_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_N_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_E_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_E_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_SDP_E_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_CDMA_DAT_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_CDMA_DAT_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_1_0_RD_WEIGHT_CDMA_DAT_SHIFT)
> +
> +
> +// Register NVDLA_CVIF_CFG_RD_WEIGHT_2_0
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0 _MK_ADDR_CONST(0xf008)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_CDMA_WT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_CDMA_WT_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_CDMA_WT_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RBK_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RBK_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RBK_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_1_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_1_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_1_SHIFT)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_0_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_0_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_RD_WEIGHT_2_0_RD_WEIGHT_RSV_0_SHIFT)
> +
> +
> +// Register NVDLA_CVIF_CFG_WR_WEIGHT_0_0
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0 _MK_ADDR_CONST(0xf00c)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_BDMA_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_BDMA_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_BDMA_SHIFT)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_SDP_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_SDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_SDP_SHIFT)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_PDP_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_PDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_PDP_SHIFT)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_CDP_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_CDP_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_0_0_WR_WEIGHT_CDP_SHIFT)
> +
> +
> +// Register NVDLA_CVIF_CFG_WR_WEIGHT_1_0
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0 _MK_ADDR_CONST(0xf010)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RBK_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RBK_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RBK_SHIFT)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_2_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_2_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_2_SHIFT)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_1_SHIFT _MK_SHIFT_CONST(16)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_1_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_1_SHIFT)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_0_SHIFT _MK_SHIFT_CONST(24)
> +#define NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_0_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_WR_WEIGHT_1_0_WR_WEIGHT_RSV_0_SHIFT)
> +
> +
> +// Register NVDLA_CVIF_CFG_OUTSTANDING_CNT_0
> +#define NVDLA_CVIF_CFG_OUTSTANDING_CNT_0 _MK_ADDR_CONST(0xf014)
> +#define NVDLA_CVIF_CFG_OUTSTANDING_CNT_0_RD_OS_CNT_SHIFT _MK_SHIFT_CONST(0)
> +#define NVDLA_CVIF_CFG_OUTSTANDING_CNT_0_RD_OS_CNT_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_OUTSTANDING_CNT_0_RD_OS_CNT_SHIFT)
> +#define NVDLA_CVIF_CFG_OUTSTANDING_CNT_0_WR_OS_CNT_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_CFG_OUTSTANDING_CNT_0_WR_OS_CNT_FIELD _MK_FIELD_CONST(0xff, NVDLA_CVIF_CFG_OUTSTANDING_CNT_0_WR_OS_CNT_SHIFT)
> +
> +
> +// Register NVDLA_CVIF_STATUS_0
> +#define NVDLA_CVIF_STATUS_0 _MK_ADDR_CONST(0xf018)
> +#define NVDLA_CVIF_STATUS_0_IDLE_SHIFT _MK_SHIFT_CONST(8)
> +#define NVDLA_CVIF_STATUS_0_IDLE_FIELD _MK_FIELD_CONST(0x1, NVDLA_CVIF_STATUS_0_IDLE_SHIFT)
> +#define NVDLA_CVIF_STATUS_0_IDLE_NO _MK_ENUM_CONST(0x0)
> +#define NVDLA_CVIF_STATUS_0_IDLE_YES _MK_ENUM_CONST(0x1)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register BDMA_CFG_SRC_ADDR_LOW_0
> +#define BDMA_CFG_SRC_ADDR_LOW_0 _MK_ADDR_CONST(0x10000)
> +#define BDMA_CFG_SRC_ADDR_LOW_0_V32_SHIFT _MK_SHIFT_CONST(5)
> +#define BDMA_CFG_SRC_ADDR_LOW_0_V32_FIELD _MK_FIELD_CONST(0x7ffffff, BDMA_CFG_SRC_ADDR_LOW_0_V32_SHIFT)
> +
> +
> +// Register BDMA_CFG_SRC_ADDR_HIGH_0
> +#define BDMA_CFG_SRC_ADDR_HIGH_0 _MK_ADDR_CONST(0x10004)
> +#define BDMA_CFG_SRC_ADDR_HIGH_0_V8_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_SRC_ADDR_HIGH_0_V8_FIELD _MK_FIELD_CONST(0xffffffff, BDMA_CFG_SRC_ADDR_HIGH_0_V8_SHIFT)
> +
> +
> +// Register BDMA_CFG_DST_ADDR_LOW_0
> +#define BDMA_CFG_DST_ADDR_LOW_0 _MK_ADDR_CONST(0x10008)
> +#define BDMA_CFG_DST_ADDR_LOW_0_V32_SHIFT _MK_SHIFT_CONST(5)
> +#define BDMA_CFG_DST_ADDR_LOW_0_V32_FIELD _MK_FIELD_CONST(0x7ffffff, BDMA_CFG_DST_ADDR_LOW_0_V32_SHIFT)
> +
> +
> +// Register BDMA_CFG_DST_ADDR_HIGH_0
> +#define BDMA_CFG_DST_ADDR_HIGH_0 _MK_ADDR_CONST(0x1000c)
> +#define BDMA_CFG_DST_ADDR_HIGH_0_V8_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_DST_ADDR_HIGH_0_V8_FIELD _MK_FIELD_CONST(0xffffffff, BDMA_CFG_DST_ADDR_HIGH_0_V8_SHIFT)
> +
> +
> +// Register BDMA_CFG_LINE_0
> +#define BDMA_CFG_LINE_0 _MK_ADDR_CONST(0x10010)
> +#define BDMA_CFG_LINE_0_SIZE_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_LINE_0_SIZE_FIELD _MK_FIELD_CONST(0x1fff, BDMA_CFG_LINE_0_SIZE_SHIFT)
> +
> +
> +// Register BDMA_CFG_CMD_0
> +#define BDMA_CFG_CMD_0 _MK_ADDR_CONST(0x10014)
> +#define BDMA_CFG_CMD_0_SRC_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_CMD_0_SRC_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, BDMA_CFG_CMD_0_SRC_RAM_TYPE_SHIFT)
> +#define BDMA_CFG_CMD_0_SRC_RAM_TYPE_CVSRAM _MK_ENUM_CONST(0x0)
> +#define BDMA_CFG_CMD_0_SRC_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +#define BDMA_CFG_CMD_0_DST_RAM_TYPE_SHIFT _MK_SHIFT_CONST(1)
> +#define BDMA_CFG_CMD_0_DST_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, BDMA_CFG_CMD_0_DST_RAM_TYPE_SHIFT)
> +#define BDMA_CFG_CMD_0_DST_RAM_TYPE_CVSRAM _MK_ENUM_CONST(0x0)
> +#define BDMA_CFG_CMD_0_DST_RAM_TYPE_MC _MK_ENUM_CONST(0x1)
> +
> +
> +// Register BDMA_CFG_LINE_REPEAT_0
> +#define BDMA_CFG_LINE_REPEAT_0 _MK_ADDR_CONST(0x10018)
> +#define BDMA_CFG_LINE_REPEAT_0_NUMBER_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_LINE_REPEAT_0_NUMBER_FIELD _MK_FIELD_CONST(0xffffff, BDMA_CFG_LINE_REPEAT_0_NUMBER_SHIFT)
> +
> +
> +// Register BDMA_CFG_SRC_LINE_0
> +#define BDMA_CFG_SRC_LINE_0 _MK_ADDR_CONST(0x1001c)
> +#define BDMA_CFG_SRC_LINE_0_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define BDMA_CFG_SRC_LINE_0_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, BDMA_CFG_SRC_LINE_0_STRIDE_SHIFT)
> +
> +
> +// Register BDMA_CFG_DST_LINE_0
> +#define BDMA_CFG_DST_LINE_0 _MK_ADDR_CONST(0x10020)
> +#define BDMA_CFG_DST_LINE_0_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define BDMA_CFG_DST_LINE_0_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, BDMA_CFG_DST_LINE_0_STRIDE_SHIFT)
> +
> +
> +// Register BDMA_CFG_SURF_REPEAT_0
> +#define BDMA_CFG_SURF_REPEAT_0 _MK_ADDR_CONST(0x10024)
> +#define BDMA_CFG_SURF_REPEAT_0_NUMBER_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_SURF_REPEAT_0_NUMBER_FIELD _MK_FIELD_CONST(0xffffff, BDMA_CFG_SURF_REPEAT_0_NUMBER_SHIFT)
> +
> +
> +// Register BDMA_CFG_SRC_SURF_0
> +#define BDMA_CFG_SRC_SURF_0 _MK_ADDR_CONST(0x10028)
> +#define BDMA_CFG_SRC_SURF_0_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define BDMA_CFG_SRC_SURF_0_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, BDMA_CFG_SRC_SURF_0_STRIDE_SHIFT)
> +
> +
> +// Register BDMA_CFG_DST_SURF_0
> +#define BDMA_CFG_DST_SURF_0 _MK_ADDR_CONST(0x1002c)
> +#define BDMA_CFG_DST_SURF_0_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define BDMA_CFG_DST_SURF_0_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, BDMA_CFG_DST_SURF_0_STRIDE_SHIFT)
> +
> +
> +// Register BDMA_CFG_OP_0
> +#define BDMA_CFG_OP_0 _MK_ADDR_CONST(0x10030)
> +#define BDMA_CFG_OP_0_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_OP_0_EN_FIELD _MK_FIELD_CONST(0x1, BDMA_CFG_OP_0_EN_SHIFT)
> +#define BDMA_CFG_OP_0_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define BDMA_CFG_OP_0_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register BDMA_CFG_LAUNCH0_0
> +#define BDMA_CFG_LAUNCH0_0 _MK_ADDR_CONST(0x10034)
> +#define BDMA_CFG_LAUNCH0_0_GRP0_LAUNCH_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_LAUNCH0_0_GRP0_LAUNCH_FIELD _MK_FIELD_CONST(0x1, BDMA_CFG_LAUNCH0_0_GRP0_LAUNCH_SHIFT)
> +#define BDMA_CFG_LAUNCH0_0_GRP0_LAUNCH_NO _MK_ENUM_CONST(0x0)
> +#define BDMA_CFG_LAUNCH0_0_GRP0_LAUNCH_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register BDMA_CFG_LAUNCH1_0
> +#define BDMA_CFG_LAUNCH1_0 _MK_ADDR_CONST(0x10038)
> +#define BDMA_CFG_LAUNCH1_0_GRP1_LAUNCH_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_LAUNCH1_0_GRP1_LAUNCH_FIELD _MK_FIELD_CONST(0x1, BDMA_CFG_LAUNCH1_0_GRP1_LAUNCH_SHIFT)
> +#define BDMA_CFG_LAUNCH1_0_GRP1_LAUNCH_NO _MK_ENUM_CONST(0x0)
> +#define BDMA_CFG_LAUNCH1_0_GRP1_LAUNCH_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register BDMA_CFG_STATUS_0
> +#define BDMA_CFG_STATUS_0 _MK_ADDR_CONST(0x1003c)
> +#define BDMA_CFG_STATUS_0_STALL_COUNT_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_CFG_STATUS_0_STALL_COUNT_EN_FIELD _MK_FIELD_CONST(0x1, BDMA_CFG_STATUS_0_STALL_COUNT_EN_SHIFT)
> +#define BDMA_CFG_STATUS_0_STALL_COUNT_EN_NO _MK_ENUM_CONST(0x0)
> +#define BDMA_CFG_STATUS_0_STALL_COUNT_EN_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register BDMA_STATUS_0
> +#define BDMA_STATUS_0 _MK_ADDR_CONST(0x10040)
> +#define BDMA_STATUS_0_FREE_SLOT_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_STATUS_0_FREE_SLOT_FIELD _MK_FIELD_CONST(0xff, BDMA_STATUS_0_FREE_SLOT_SHIFT)
> +#define BDMA_STATUS_0_IDLE_SHIFT _MK_SHIFT_CONST(8)
> +#define BDMA_STATUS_0_IDLE_FIELD _MK_FIELD_CONST(0x1, BDMA_STATUS_0_IDLE_SHIFT)
> +#define BDMA_STATUS_0_IDLE_NO _MK_ENUM_CONST(0x0)
> +#define BDMA_STATUS_0_IDLE_YES _MK_ENUM_CONST(0x1)
> +#define BDMA_STATUS_0_GRP0_BUSY_SHIFT _MK_SHIFT_CONST(9)
> +#define BDMA_STATUS_0_GRP0_BUSY_FIELD _MK_FIELD_CONST(0x1, BDMA_STATUS_0_GRP0_BUSY_SHIFT)
> +#define BDMA_STATUS_0_GRP0_BUSY_NO _MK_ENUM_CONST(0x0)
> +#define BDMA_STATUS_0_GRP0_BUSY_YES _MK_ENUM_CONST(0x1)
> +#define BDMA_STATUS_0_GRP1_BUSY_SHIFT _MK_SHIFT_CONST(10)
> +#define BDMA_STATUS_0_GRP1_BUSY_FIELD _MK_FIELD_CONST(0x1, BDMA_STATUS_0_GRP1_BUSY_SHIFT)
> +#define BDMA_STATUS_0_GRP1_BUSY_NO _MK_ENUM_CONST(0x0)
> +#define BDMA_STATUS_0_GRP1_BUSY_YES _MK_ENUM_CONST(0x1)
> +
> +
> +// Register BDMA_STATUS_GRP0_READ_STALL_0
> +#define BDMA_STATUS_GRP0_READ_STALL_0 _MK_ADDR_CONST(0x10044)
> +#define BDMA_STATUS_GRP0_READ_STALL_0_COUNT_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_STATUS_GRP0_READ_STALL_0_COUNT_FIELD _MK_FIELD_CONST(0xffffffff, BDMA_STATUS_GRP0_READ_STALL_0_COUNT_SHIFT)
> +
> +
> +// Register BDMA_STATUS_GRP0_WRITE_STALL_0
> +#define BDMA_STATUS_GRP0_WRITE_STALL_0 _MK_ADDR_CONST(0x10048)
> +#define BDMA_STATUS_GRP0_WRITE_STALL_0_COUNT_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_STATUS_GRP0_WRITE_STALL_0_COUNT_FIELD _MK_FIELD_CONST(0xffffffff, BDMA_STATUS_GRP0_WRITE_STALL_0_COUNT_SHIFT)
> +
> +
> +// Register BDMA_STATUS_GRP1_READ_STALL_0
> +#define BDMA_STATUS_GRP1_READ_STALL_0 _MK_ADDR_CONST(0x1004c)
> +#define BDMA_STATUS_GRP1_READ_STALL_0_COUNT_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_STATUS_GRP1_READ_STALL_0_COUNT_FIELD _MK_FIELD_CONST(0xffffffff, BDMA_STATUS_GRP1_READ_STALL_0_COUNT_SHIFT)
> +
> +
> +// Register BDMA_STATUS_GRP1_WRITE_STALL_0
> +#define BDMA_STATUS_GRP1_WRITE_STALL_0 _MK_ADDR_CONST(0x10050)
> +#define BDMA_STATUS_GRP1_WRITE_STALL_0_COUNT_SHIFT _MK_SHIFT_CONST(0)
> +#define BDMA_STATUS_GRP1_WRITE_STALL_0_COUNT_FIELD _MK_FIELD_CONST(0xffffffff, BDMA_STATUS_GRP1_WRITE_STALL_0_COUNT_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +// Register RBK_S_STATUS_0
> +#define RBK_S_STATUS_0 _MK_ADDR_CONST(0x11000)
> +#define RBK_S_STATUS_0_STATUS_0_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_S_STATUS_0_STATUS_0_FIELD _MK_FIELD_CONST(0x3, RBK_S_STATUS_0_STATUS_0_SHIFT)
> +#define RBK_S_STATUS_0_STATUS_0_IDLE _MK_ENUM_CONST(0x0)
> +#define RBK_S_STATUS_0_STATUS_0_RUNNING _MK_ENUM_CONST(0x1)
> +#define RBK_S_STATUS_0_STATUS_0_PENDING _MK_ENUM_CONST(0x2)
> +#define RBK_S_STATUS_0_STATUS_1_SHIFT _MK_SHIFT_CONST(16)
> +#define RBK_S_STATUS_0_STATUS_1_FIELD _MK_FIELD_CONST(0x3, RBK_S_STATUS_0_STATUS_1_SHIFT)
> +#define RBK_S_STATUS_0_STATUS_1_IDLE _MK_ENUM_CONST(0x0)
> +#define RBK_S_STATUS_0_STATUS_1_RUNNING _MK_ENUM_CONST(0x1)
> +#define RBK_S_STATUS_0_STATUS_1_PENDING _MK_ENUM_CONST(0x2)
> +
> +
> +// Register RBK_S_POINTER_0
> +#define RBK_S_POINTER_0 _MK_ADDR_CONST(0x11004)
> +#define RBK_S_POINTER_0_PRODUCER_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_S_POINTER_0_PRODUCER_FIELD _MK_FIELD_CONST(0x1, RBK_S_POINTER_0_PRODUCER_SHIFT)
> +#define RBK_S_POINTER_0_PRODUCER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define RBK_S_POINTER_0_PRODUCER_GROUP_1 _MK_ENUM_CONST(0x1)
> +#define RBK_S_POINTER_0_CONSUMER_SHIFT _MK_SHIFT_CONST(16)
> +#define RBK_S_POINTER_0_CONSUMER_FIELD _MK_FIELD_CONST(0x1, RBK_S_POINTER_0_CONSUMER_SHIFT)
> +#define RBK_S_POINTER_0_CONSUMER_GROUP_0 _MK_ENUM_CONST(0x0)
> +#define RBK_S_POINTER_0_CONSUMER_GROUP_1 _MK_ENUM_CONST(0x1)
> +
> +
> +// Register RBK_D_OP_ENABLE_0
> +#define RBK_D_OP_ENABLE_0 _MK_ADDR_CONST(0x11008)
> +#define RBK_D_OP_ENABLE_0_OP_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_OP_ENABLE_0_OP_EN_FIELD _MK_FIELD_CONST(0x1, RBK_D_OP_ENABLE_0_OP_EN_SHIFT)
> +#define RBK_D_OP_ENABLE_0_OP_EN_DISABLE _MK_ENUM_CONST(0x0)
> +#define RBK_D_OP_ENABLE_0_OP_EN_ENABLE _MK_ENUM_CONST(0x1)
> +
> +
> +// Register RBK_D_MISC_CFG_0
> +#define RBK_D_MISC_CFG_0 _MK_ADDR_CONST(0x1100c)
> +#define RBK_D_MISC_CFG_0_RUBIK_MODE_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_MISC_CFG_0_RUBIK_MODE_FIELD _MK_FIELD_CONST(0x3, RBK_D_MISC_CFG_0_RUBIK_MODE_SHIFT)
> +#define RBK_D_MISC_CFG_0_RUBIK_MODE_CONTRACT _MK_ENUM_CONST(0x0)
> +#define RBK_D_MISC_CFG_0_RUBIK_MODE_SPLIT _MK_ENUM_CONST(0x1)
> +#define RBK_D_MISC_CFG_0_RUBIK_MODE_MERGE _MK_ENUM_CONST(0x2)
> +#define RBK_D_MISC_CFG_0_IN_PRECISION_SHIFT _MK_SHIFT_CONST(8)
> +#define RBK_D_MISC_CFG_0_IN_PRECISION_FIELD _MK_FIELD_CONST(0x3, RBK_D_MISC_CFG_0_IN_PRECISION_SHIFT)
> +#define RBK_D_MISC_CFG_0_IN_PRECISION_INT8 _MK_ENUM_CONST(0x0)
> +#define RBK_D_MISC_CFG_0_IN_PRECISION_INT16 _MK_ENUM_CONST(0x1)
> +#define RBK_D_MISC_CFG_0_IN_PRECISION_FP16 _MK_ENUM_CONST(0x2)
> +
> +
> +// Register RBK_D_DAIN_RAM_TYPE_0
> +#define RBK_D_DAIN_RAM_TYPE_0 _MK_ADDR_CONST(0x11010)
> +#define RBK_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, RBK_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_SHIFT)
> +#define RBK_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_CVIF _MK_ENUM_CONST(0x0)
> +#define RBK_D_DAIN_RAM_TYPE_0_DATAIN_RAM_TYPE_MCIF _MK_ENUM_CONST(0x1)
> +
> +
> +// Register RBK_D_DATAIN_SIZE_0_0
> +#define RBK_D_DATAIN_SIZE_0_0 _MK_ADDR_CONST(0x11014)
> +#define RBK_D_DATAIN_SIZE_0_0_DATAIN_WIDTH_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DATAIN_SIZE_0_0_DATAIN_WIDTH_FIELD _MK_FIELD_CONST(0x1fff, RBK_D_DATAIN_SIZE_0_0_DATAIN_WIDTH_SHIFT)
> +#define RBK_D_DATAIN_SIZE_0_0_DATAIN_HEIGHT_SHIFT _MK_SHIFT_CONST(16)
> +#define RBK_D_DATAIN_SIZE_0_0_DATAIN_HEIGHT_FIELD _MK_FIELD_CONST(0x1fff, RBK_D_DATAIN_SIZE_0_0_DATAIN_HEIGHT_SHIFT)
> +
> +
> +// Register RBK_D_DATAIN_SIZE_1_0
> +#define RBK_D_DATAIN_SIZE_1_0 _MK_ADDR_CONST(0x11018)
> +#define RBK_D_DATAIN_SIZE_1_0_DATAIN_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DATAIN_SIZE_1_0_DATAIN_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, RBK_D_DATAIN_SIZE_1_0_DATAIN_CHANNEL_SHIFT)
> +
> +
> +// Register RBK_D_DAIN_ADDR_HIGH_0
> +#define RBK_D_DAIN_ADDR_HIGH_0 _MK_ADDR_CONST(0x1101c)
> +#define RBK_D_DAIN_ADDR_HIGH_0_DAIN_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DAIN_ADDR_HIGH_0_DAIN_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, RBK_D_DAIN_ADDR_HIGH_0_DAIN_ADDR_HIGH_SHIFT)
> +
> +
> +// Register RBK_D_DAIN_ADDR_LOW_0
> +#define RBK_D_DAIN_ADDR_LOW_0 _MK_ADDR_CONST(0x11020)
> +#define RBK_D_DAIN_ADDR_LOW_0_DAIN_ADDR_LOW_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAIN_ADDR_LOW_0_DAIN_ADDR_LOW_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAIN_ADDR_LOW_0_DAIN_ADDR_LOW_SHIFT)
> +
> +
> +// Register RBK_D_DAIN_LINE_STRIDE_0
> +#define RBK_D_DAIN_LINE_STRIDE_0 _MK_ADDR_CONST(0x11024)
> +#define RBK_D_DAIN_LINE_STRIDE_0_DAIN_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAIN_LINE_STRIDE_0_DAIN_LINE_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAIN_LINE_STRIDE_0_DAIN_LINE_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_DAIN_SURF_STRIDE_0
> +#define RBK_D_DAIN_SURF_STRIDE_0 _MK_ADDR_CONST(0x11028)
> +#define RBK_D_DAIN_SURF_STRIDE_0_DAIN_SURF_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAIN_SURF_STRIDE_0_DAIN_SURF_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAIN_SURF_STRIDE_0_DAIN_SURF_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_DAIN_PLANAR_STRIDE_0
> +#define RBK_D_DAIN_PLANAR_STRIDE_0 _MK_ADDR_CONST(0x1102c)
> +#define RBK_D_DAIN_PLANAR_STRIDE_0_DAIN_PLANAR_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAIN_PLANAR_STRIDE_0_DAIN_PLANAR_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAIN_PLANAR_STRIDE_0_DAIN_PLANAR_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_DAOUT_RAM_TYPE_0
> +#define RBK_D_DAOUT_RAM_TYPE_0 _MK_ADDR_CONST(0x11030)
> +#define RBK_D_DAOUT_RAM_TYPE_0_DATAOUT_RAM_TYPE_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DAOUT_RAM_TYPE_0_DATAOUT_RAM_TYPE_FIELD _MK_FIELD_CONST(0x1, RBK_D_DAOUT_RAM_TYPE_0_DATAOUT_RAM_TYPE_SHIFT)
> +#define RBK_D_DAOUT_RAM_TYPE_0_DATAOUT_RAM_TYPE_CVIF _MK_ENUM_CONST(0x0)
> +#define RBK_D_DAOUT_RAM_TYPE_0_DATAOUT_RAM_TYPE_MCIF _MK_ENUM_CONST(0x1)
> +
> +
> +// Register RBK_D_DATAOUT_SIZE_1_0
> +#define RBK_D_DATAOUT_SIZE_1_0 _MK_ADDR_CONST(0x11034)
> +#define RBK_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_FIELD _MK_FIELD_CONST(0x1fff, RBK_D_DATAOUT_SIZE_1_0_DATAOUT_CHANNEL_SHIFT)
> +
> +
> +// Register RBK_D_DAOUT_ADDR_HIGH_0
> +#define RBK_D_DAOUT_ADDR_HIGH_0 _MK_ADDR_CONST(0x11038)
> +#define RBK_D_DAOUT_ADDR_HIGH_0_DAOUT_ADDR_HIGH_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DAOUT_ADDR_HIGH_0_DAOUT_ADDR_HIGH_FIELD _MK_FIELD_CONST(0xffffffff, RBK_D_DAOUT_ADDR_HIGH_0_DAOUT_ADDR_HIGH_SHIFT)
> +
> +
> +// Register RBK_D_DAOUT_ADDR_LOW_0
> +#define RBK_D_DAOUT_ADDR_LOW_0 _MK_ADDR_CONST(0x1103c)
> +#define RBK_D_DAOUT_ADDR_LOW_0_DAOUT_ADDR_LOW_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAOUT_ADDR_LOW_0_DAOUT_ADDR_LOW_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAOUT_ADDR_LOW_0_DAOUT_ADDR_LOW_SHIFT)
> +
> +
> +// Register RBK_D_DAOUT_LINE_STRIDE_0
> +#define RBK_D_DAOUT_LINE_STRIDE_0 _MK_ADDR_CONST(0x11040)
> +#define RBK_D_DAOUT_LINE_STRIDE_0_DAOUT_LINE_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAOUT_LINE_STRIDE_0_DAOUT_LINE_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAOUT_LINE_STRIDE_0_DAOUT_LINE_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_CONTRACT_STRIDE_0_0
> +#define RBK_D_CONTRACT_STRIDE_0_0 _MK_ADDR_CONST(0x11044)
> +#define RBK_D_CONTRACT_STRIDE_0_0_CONTRACT_STRIDE_0_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_CONTRACT_STRIDE_0_0_CONTRACT_STRIDE_0_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_CONTRACT_STRIDE_0_0_CONTRACT_STRIDE_0_SHIFT)
> +
> +
> +// Register RBK_D_CONTRACT_STRIDE_1_0
> +#define RBK_D_CONTRACT_STRIDE_1_0 _MK_ADDR_CONST(0x11048)
> +#define RBK_D_CONTRACT_STRIDE_1_0_CONTRACT_STRIDE_1_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_CONTRACT_STRIDE_1_0_CONTRACT_STRIDE_1_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_CONTRACT_STRIDE_1_0_CONTRACT_STRIDE_1_SHIFT)
> +
> +
> +// Register RBK_D_DAOUT_SURF_STRIDE_0
> +#define RBK_D_DAOUT_SURF_STRIDE_0 _MK_ADDR_CONST(0x1104c)
> +#define RBK_D_DAOUT_SURF_STRIDE_0_DAOUT_SURF_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAOUT_SURF_STRIDE_0_DAOUT_SURF_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAOUT_SURF_STRIDE_0_DAOUT_SURF_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_DAOUT_PLANAR_STRIDE_0
> +#define RBK_D_DAOUT_PLANAR_STRIDE_0 _MK_ADDR_CONST(0x11050)
> +#define RBK_D_DAOUT_PLANAR_STRIDE_0_DAOUT_PLANAR_STRIDE_SHIFT _MK_SHIFT_CONST(5)
> +#define RBK_D_DAOUT_PLANAR_STRIDE_0_DAOUT_PLANAR_STRIDE_FIELD _MK_FIELD_CONST(0x7ffffff, RBK_D_DAOUT_PLANAR_STRIDE_0_DAOUT_PLANAR_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_DECONV_STRIDE_0
> +#define RBK_D_DECONV_STRIDE_0 _MK_ADDR_CONST(0x11054)
> +#define RBK_D_DECONV_STRIDE_0_DECONV_X_STRIDE_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_DECONV_STRIDE_0_DECONV_X_STRIDE_FIELD _MK_FIELD_CONST(0x1f, RBK_D_DECONV_STRIDE_0_DECONV_X_STRIDE_SHIFT)
> +#define RBK_D_DECONV_STRIDE_0_DECONV_Y_STRIDE_SHIFT _MK_SHIFT_CONST(16)
> +#define RBK_D_DECONV_STRIDE_0_DECONV_Y_STRIDE_FIELD _MK_FIELD_CONST(0x1f, RBK_D_DECONV_STRIDE_0_DECONV_Y_STRIDE_SHIFT)
> +
> +
> +// Register RBK_D_PERF_ENABLE_0
> +#define RBK_D_PERF_ENABLE_0 _MK_ADDR_CONST(0x11058)
> +#define RBK_D_PERF_ENABLE_0_PERF_EN_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_PERF_ENABLE_0_PERF_EN_FIELD _MK_FIELD_CONST(0x1, RBK_D_PERF_ENABLE_0_PERF_EN_SHIFT)
> +
> +
> +// Register RBK_D_PERF_READ_STALL_0
> +#define RBK_D_PERF_READ_STALL_0 _MK_ADDR_CONST(0x1105c)
> +#define RBK_D_PERF_READ_STALL_0_RD_STALL_CNT_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_PERF_READ_STALL_0_RD_STALL_CNT_FIELD _MK_FIELD_CONST(0xffffffff, RBK_D_PERF_READ_STALL_0_RD_STALL_CNT_SHIFT)
> +
> +
> +// Register RBK_D_PERF_WRITE_STALL_0
> +#define RBK_D_PERF_WRITE_STALL_0 _MK_ADDR_CONST(0x11060)
> +#define RBK_D_PERF_WRITE_STALL_0_WR_STALL_CNT_SHIFT _MK_SHIFT_CONST(0)
> +#define RBK_D_PERF_WRITE_STALL_0_WR_STALL_CNT_FIELD _MK_FIELD_CONST(0xffffffff, RBK_D_PERF_WRITE_STALL_0_WR_STALL_CNT_SHIFT)
> +
> +
> +
> +// To satisfy various compilers and platforms,
> +// we let users control the types and syntax of certain constants, using macros.
> +#ifndef _MK_SHIFT_CONST
> + #define _MK_SHIFT_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_MASK_CONST
> + #define _MK_MASK_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_ENUM_CONST
> + #define _MK_ENUM_CONST(_constant_) (_constant_ ## UL)
> +#endif
> +#ifndef _MK_ADDR_CONST
> + #define _MK_ADDR_CONST(_constant_) _constant_
> +#endif
> +#ifndef _MK_FIELD_CONST
> + #define _MK_FIELD_CONST(_mask_, _shift_) (_MK_MASK_CONST(_mask_) << _MK_SHIFT_CONST(_shift_))
> +#endif
> +
> +
> +
> +//
> +// ADDRESS SPACES
> +//
> +
> +#define BASE_ADDRESS_NVDLA_CFGROM 0x0
> +#define BASE_ADDRESS_NVDLA_GLB 0x1000
> +#define BASE_ADDRESS_NVDLA_MCIF 0x2000
> +#define BASE_ADDRESS_NVDLA_CDMA 0x3000
> +#define BASE_ADDRESS_NVDLA_CSC 0x4000
> +#define BASE_ADDRESS_NVDLA_CMAC_A 0x5000
> +#define BASE_ADDRESS_NVDLA_CMAC_B 0x6000
> +#define BASE_ADDRESS_NVDLA_CACC 0x7000
> +#define BASE_ADDRESS_NVDLA_SDP_RDMA 0x8000
> +#define BASE_ADDRESS_NVDLA_SDP 0x9000
> +#define BASE_ADDRESS_NVDLA_PDP_RDMA 0xa000
> +#define BASE_ADDRESS_NVDLA_PDP 0xb000
> +#define BASE_ADDRESS_NVDLA_CDP_RDMA 0xc000
> +#define BASE_ADDRESS_NVDLA_CDP 0xd000
> +#define BASE_ADDRESS_NVDLA_GEC 0xe000
> +#define BASE_ADDRESS_NVDLA_CVIF 0xf000
> +#define BASE_ADDRESS_NVDLA_BDMA 0x10000
> +#define BASE_ADDRESS_NVDLA_RBK 0x11000
> +
> +#endif
> diff --git a/drivers/gpu/drm/nvdla/nvdla_rubik.c b/drivers/gpu/drm/nvdla/nvdla_rubik.c
> new file mode 100644
> index 000000000000..3bfb3b0cb786
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_rubik.c
> @@ -0,0 +1,217 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_engine.h"
> +
> +static uint8_t map_rubik_mode[] = {
> + FIELD_ENUM(RBK_D_MISC_CFG_0, RUBIK_MODE, CONTRACT),
> + FIELD_ENUM(RBK_D_MISC_CFG_0, RUBIK_MODE, SPLIT),
> + FIELD_ENUM(RBK_D_MISC_CFG_0, RUBIK_MODE, MERGE),
> +};
> +
> +static uint8_t map_ram_type[] = {
> + FIELD_ENUM(RBK_D_DAIN_RAM_TYPE_0, DATAIN_RAM_TYPE, MCIF),
> + FIELD_ENUM(RBK_D_DAIN_RAM_TYPE_0, DATAIN_RAM_TYPE, CVIF),
> +};
> +
> +static uint8_t map_precision[] = {
> + FIELD_ENUM(RBK_D_MISC_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(RBK_D_MISC_CFG_0, IN_PRECISION, INT16),
> + FIELD_ENUM(RBK_D_MISC_CFG_0, IN_PRECISION, FP16),
> +};
> +
> +static uint8_t map_bpe[] = {
> + BPE_PRECISION_INT8,
> + BPE_PRECISION_INT16,
> + BPE_PRECISION_FP16,
> +};
> +
> +void
> +dla_rubik_set_producer(struct dla_engine *engine, int32_t group_id, int32_t __unused)
> +{
> + uint32_t reg;
> +
> + /**
> + * set producer pointer for all sub-modules
> + */
> + reg = group_id << SHIFT(RBK_S_POINTER_0, PRODUCER);
> + rubik_reg_write(engine, S_POINTER, reg);
> +}
> +
> +int
> +dla_rubik_enable(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + uint32_t reg;
> +
> + /**
> + * enable all sub-modules
> + */
> + reg = FIELD_ENUM(RBK_D_OP_ENABLE_0, OP_EN, ENABLE);
> + rubik_reg_write(engine, D_OP_ENABLE, reg);
> +
> + return 0;
> +}
> +
> +void
> +dla_rubik_rdma_check(struct dla_processor_group *group)
> +{
> + group->is_rdma_needed = 0;
> +}
> +
> +static int32_t
> +processor_rubik_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + uint32_t reg, high, low;
> + uint64_t input_address = 0;
> + uint64_t output_address = 0;
> + struct dla_rubik_op_desc *rubik_op;
> + struct dla_rubik_surface_desc *rubik_surface;
> +
> + rubik_op = &group->operation_desc->rubik_op;
> + rubik_surface = &group->surface_desc->rubik_surface;
> +
> + /* Argument check */
> + ASSERT_GOTO((rubik_surface->src_data.type != DLA_MEM_HW),
> + ret, -EINVAL, exit);
> + ASSERT_GOTO((rubik_surface->dst_data.type != DLA_MEM_HW),
> + ret, -EINVAL, exit);
> +
> + /* get the addresses from task descriptor */
> + ret = dla_read_input_address(engine, &rubik_surface->src_data,
> + &input_address,
> + group->op_desc->index,
> + group->roi_index,
> + 1);
> + if (ret)
> + goto exit;
> +
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + rubik_surface->dst_data.address,
> + rubik_surface->dst_data.offset,
> + (void *)&output_address,
> + DESTINATION_DMA);
> +
> + /* config rubik */
> + reg = (((uint32_t)map_rubik_mode[rubik_op->mode]) <<
> + SHIFT(RBK_D_MISC_CFG_0, RUBIK_MODE)) |
> + (((uint32_t)map_precision[rubik_op->precision]) <<
> + SHIFT(RBK_D_MISC_CFG_0, IN_PRECISION));
> + rubik_reg_write(engine, D_MISC_CFG, reg);
> + reg = (((uint32_t)map_ram_type[rubik_surface->src_data.type]) <<
> + SHIFT(RBK_D_DAIN_RAM_TYPE_0, DATAIN_RAM_TYPE));
> + rubik_reg_write(engine, D_DAIN_RAM_TYPE, reg);
> + reg = ((rubik_surface->src_data.width-1) <<
> + SHIFT(RBK_D_DATAIN_SIZE_0_0, DATAIN_WIDTH)) |
> + ((rubik_surface->src_data.height-1) <<
> + SHIFT(RBK_D_DATAIN_SIZE_0_0, DATAIN_HEIGHT));
> + rubik_reg_write(engine, D_DATAIN_SIZE_0, reg);
> + reg = ((rubik_surface->src_data.channel-1) <<
> + SHIFT(RBK_D_DATAIN_SIZE_1_0, DATAIN_CHANNEL));
> + rubik_reg_write(engine, D_DATAIN_SIZE_1, reg);
> +
> + high = upper_32_bits(input_address);
> + low = lower_32_bits(input_address);
> + rubik_reg_write(engine, D_DAIN_ADDR_LOW, low);
> + rubik_reg_write(engine, D_DAIN_ADDR_HIGH, high);
> + if (rubik_op->mode == RUBIK_MODE_MERGE) {
> + ASSERT_GOTO((rubik_surface->src_data.plane_stride != 0),
> + ret, -EINVAL, exit);
> + ASSERT_GOTO(((rubik_surface->src_data.plane_stride&0x1F) == 0),
> + ret, -EINVAL, exit);
> + rubik_reg_write(engine, D_DAIN_PLANAR_STRIDE,
> + rubik_surface->src_data.plane_stride);
> + } else {
> + rubik_reg_write(engine, D_DAIN_SURF_STRIDE,
> + rubik_surface->src_data.surf_stride);
> + }
> + rubik_reg_write(engine, D_DAIN_LINE_STRIDE,
> + rubik_surface->src_data.line_stride);
> +
> + reg = (((uint32_t)map_ram_type[rubik_surface->dst_data.type]) <<
> + SHIFT(RBK_D_DAOUT_RAM_TYPE_0, DATAOUT_RAM_TYPE));
> + rubik_reg_write(engine, D_DAOUT_RAM_TYPE, reg);
> + reg = ((rubik_surface->dst_data.channel-1) <<
> + SHIFT(RBK_D_DATAOUT_SIZE_1_0, DATAOUT_CHANNEL));
> + rubik_reg_write(engine, D_DATAOUT_SIZE_1, reg);
> +
> + high = upper_32_bits(output_address);
> + low = lower_32_bits(output_address);
> + rubik_reg_write(engine, D_DAOUT_ADDR_LOW, low);
> + rubik_reg_write(engine, D_DAOUT_ADDR_HIGH, high);
> +
> + rubik_reg_write(engine, D_DAOUT_LINE_STRIDE,
> + rubik_surface->dst_data.line_stride);
> + if (rubik_op->mode != RUBIK_MODE_SPLIT) {
> + rubik_reg_write(engine, D_DAOUT_SURF_STRIDE,
> + rubik_surface->dst_data.surf_stride);
> + if (rubik_op->mode == RUBIK_MODE_CONTRACT) {
> + reg = ((rubik_surface->dst_data.channel *
> + map_bpe[rubik_op->precision] + 31) >> 5) *
> + rubik_surface->src_data.surf_stride;
> + rubik_reg_write(engine, D_CONTRACT_STRIDE_0, reg);
> +
> + reg = rubik_op->stride_y *
> + rubik_surface->dst_data.line_stride;
> + rubik_reg_write(engine, D_CONTRACT_STRIDE_1, reg);
> +
> + reg = (((uint32_t)(rubik_op->stride_x-1)) <<
> + SHIFT(RBK_D_DECONV_STRIDE_0, DECONV_X_STRIDE)) |
> + (((uint32_t)(rubik_op->stride_y-1)) <<
> + SHIFT(RBK_D_DECONV_STRIDE_0, DECONV_Y_STRIDE));
> + rubik_reg_write(engine, D_DECONV_STRIDE, reg);
> + }
> + } else {
> + rubik_reg_write(engine, D_DAOUT_PLANAR_STRIDE,
> + rubik_surface->dst_data.plane_stride);
> + }
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_rubik_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + return 1;
> +}
> +
> +void
> +dla_rubik_dump_config(struct dla_processor_group *group)
> +{
> + struct dla_rubik_op_desc *rubik_op;
> + struct dla_rubik_surface_desc *rubik_surface;
> +
> + rubik_surface = &group->surface_desc->rubik_surface;
> + rubik_op = &group->operation_desc->rubik_op;
> +}
> +
> +int
> +dla_rubik_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> +
> + if (!engine->config_data->rubik_enable) {
> + pr_err("RUBIK is not supported for this configuration\n");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + dla_enable_intr(engine, MASK(GLB_S_INTR_MASK_0, RUBIK_DONE_MASK1) |
> + MASK(GLB_S_INTR_MASK_0, RUBIK_DONE_MASK0));
> +
> + ret = processor_rubik_program(engine, group);
> + if (ret)
> + goto exit;
> +
> +exit:
> + return ret;
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_sched.h b/drivers/gpu/drm/nvdla/nvdla_sched.h
> new file mode 100644
> index 000000000000..d3a198127006
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_sched.h
> @@ -0,0 +1,52 @@
> +/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION.
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#ifndef __NVDLA_SCHED_H_
> +#define __NVDLA_SCHED_H_
> +
> +struct dla_task {
> + /* platform specific data to communicate with portability layer */
> + void *task_data;
> + /* task state */
> + uint32_t state;
> + /* Task base address */
> + uint64_t base;
> + /* start address of a list of dla_operation_container */
> + uint64_t operation_desc_addr;
> + /* start address of a list of dla_surface_container */
> + uint64_t surface_desc_addr;
> + /* start address of a list of dla_common_op_desc */
> + uint64_t dependency_graph_addr;
> + /* start address of a list of dla_lut_param */
> + uint64_t lut_data_addr;
> + /*
> + * start address of a list of dla_roi_desc,
> + * the first one is dla_roi_array_desc
> + * valid when network.dynamic_roi is true
> + */
> + uint64_t roi_array_addr;
> + /* start address of a list of dla_surface_container */
> + uint64_t surface_addr;
> + /* start address of a list of dla_stat_container */
> + uint64_t stat_data_addr;
> +} __packed __aligned(256);
> +
> +/**
> + * @brief Configuration parameters supported by the engine
> + *
> + * atom_size Memory smallest access size
> + * bdma_enable Defines whether bdma is supported
> + * rubik_enable Defines whether rubik is supported
> + * weight_compress_support Defines whether weight data compression is supported
> + */
> +struct dla_config {
> + uint32_t atom_size;
> + bool bdma_enable;
> + bool rubik_enable;
> + bool weight_compress_support;
> +};
> +
> +#endif
> diff --git a/drivers/gpu/drm/nvdla/nvdla_scheduler.c b/drivers/gpu/drm/nvdla/nvdla_scheduler.c
> new file mode 100644
> index 000000000000..b814077478c6
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_scheduler.c
> @@ -0,0 +1,1005 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_common.h"
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_engine.h"
> +
> +#define MAX_NUM_ADDRESSES 256
> +
> +static uint64_t roi_array_length __aligned(8);
> +static struct dla_network_desc network;
> +
> +static int
> +dla_update_consumers(struct dla_engine *engine,
> + struct dla_processor_group *group,
> + struct dla_common_op_desc *op, uint8_t event);
> +
> +static int32_t
> +dla_read_address_list(struct dla_engine *engine)
> +{
> + return 0;
> +}
> +
> +int32_t
> +dla_read_lut(struct dla_engine *engine, int16_t index, void *dst)
> +{
> + int32_t ret = 0;
> + uint64_t src_addr;
> +
> + if (index == -1) {
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + src_addr = engine->task->lut_data_addr;
> +
> + ret = dla_data_read(engine->driver_context,
> + engine->task->task_data,
> + src_addr, (void *)dst,
> + sizeof(struct dla_lut_param),
> + (sizeof(struct dla_lut_param) * (uint64_t)index));
> +
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_op_enabled(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret;
> + struct dla_common_op_desc *op_desc;
> +
> + op_desc = group->op_desc;
> +
> + group->active = 1;
> +
> + /* update dependency graph for this task */
> + ret = dla_update_consumers(engine, group, op_desc, DLA_EVENT_OP_ENABLED);
> +
> + return ret;
> +}
> +
> +static int
> +dla_op_programmed(struct dla_engine *engine, struct dla_processor *processor,
> + struct dla_processor_group *group,
> + uint8_t rdma_id)
> +{
> + int32_t ret;
> + struct dla_common_op_desc *op_desc;
> +
> + op_desc = group->op_desc;
> +
> + group->pending = 0;
> +
> + /* update dependency graph for this task */
> + ret = dla_update_consumers(engine, group, op_desc, DLA_EVENT_OP_PROGRAMMED);
> +
> + return ret;
> +}
> +
> +static int32_t
> +dla_read_config(struct dla_engine *engine, struct dla_task *task,
> + struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + int32_t ret;
> + uint64_t base;
> + int16_t index;
> + uint8_t roi_index;
> +
> + roi_index = group->roi_index;
> + index = group->op_desc->index;
> +
> + base = (sizeof(union dla_operation_container) *
> + (uint64_t)engine->network->num_operations *
> + (uint64_t)roi_index);
> + base = base + (sizeof(union dla_operation_container) *
> + (uint64_t)index);
> +
> + ret = dla_data_read(engine->driver_context, task->task_data,
> + task->operation_desc_addr,
> + (void *)group->operation_desc,
> + sizeof(union dla_operation_container),
> + base);
> + if (ret)
> + goto exit;
> +
> + base = (sizeof(union dla_surface_container) *
> + (uint64_t)engine->network->num_operations *
> + (uint64_t)roi_index);
> +
> + base = base + (sizeof(union dla_surface_container) *
> + (uint64_t)index);
> +
> + ret = dla_data_read(engine->driver_context, task->task_data,
> + task->surface_desc_addr,
> + (void *)group->surface_desc,
> + sizeof(union dla_surface_container), base);
> + if (ret)
> + goto exit;
> +
> + processor->dump_config(group);
> +
> +exit:
> + return ret;
> +}
> +
> +static void
> +dla_reset_group(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t i;
> +
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + dla_put_op_desc(engine, group->consumers[i]);
> + group->consumers[i] = NULL;
> + }
> +
> + dla_put_op_desc(engine, group->fused_parent);
> + group->fused_parent = NULL;
> +
> + dla_put_op_desc(engine, group->op_desc);
> + group->op_desc = NULL;
> +}
> +
> +static int
> +dla_prepare_operation(struct dla_engine *engine,
> + struct dla_processor *processor,
> + struct dla_common_op_desc *op_desc,
> + uint8_t roi_index, uint32_t *group_number)
> +{
> + int32_t ret = 0;
> + uint8_t group_id;
> + uint8_t rdma_id;
> + struct dla_processor_group *group;
> +
> + /*
> + * If not already programmed then find out if
> + * processor is free and which group is free
> + */
> + ret = utils_get_free_group(engine, processor, &group_id, &rdma_id);
> + if (ret) {
> + pr_debug("processor:%s register groups are busy\n",
> + processor->name);
> + goto exit;
> + } else {
> + pr_info("processor:%s group:%d, rdma_group:%d available\n",
> + processor->name, group_id, rdma_id);
> + }
> + *group_number = group_id;
> + group = &processor->groups[group_id];
> +
> + /*
> + * update operation descriptor
> + */
> + group->op_desc = op_desc;
> + dla_get_refcount(op_desc);
> + group->id = group_id;
> + group->roi_index = roi_index;
> + group->rdma_id = rdma_id;
> +
> + ret = dla_read_config(engine, engine->task, processor, group);
> + if (ret)
> + goto exit;
> +
> + group->pending = 1;
> +
> + processor->group_status |= (1 << group->id);
> +
> + processor->rdma_check(group);
> + if (group->is_rdma_needed) {
> + group->rdma_id = rdma_id;
> + processor->rdma_status |= (1 << rdma_id);
> + }
> +
> + processor->tail_op = op_desc;
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_program_operation(struct dla_engine *engine,
> + struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + int32_t i;
> + int32_t ret = 0;
> + struct dla_common_op_desc *op_desc;
> +
> + pr_info("Program %s operation index %d ROI %d Group[%d]\n",
> + processor->name,
> + group->op_desc->index,
> + group->roi_index,
> + group->id);
> +
> + group->programming = 1;
> +
> + op_desc = group->op_desc;
> +
> + processor->set_producer(engine, group->id, group->rdma_id);
> +
> + ret = processor->program(engine, group);
> + if (ret)
> + goto exit;
> +
> + /**
> + * Pre-fetch consumers
> + */
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + group->consumers[i] = dla_get_op_desc(engine, engine->task,
> + op_desc->consumers[i].index, i,
> + group->roi_index);
> + }
> +
> + group->fused_parent = dla_get_op_desc(engine, engine->task,
> + op_desc->fused_parent.index,
> + op_desc->op_type - 1,
> + group->roi_index);
> +
> + if (group->fused_parent != NULL) {
> + if (group->fused_parent->op_type != (op_desc->op_type - 1)) {
> + ret = -EINVAL;
> + goto exit;
> + }
> + }
> +
> + ret = dla_op_programmed(engine, processor, group, group->rdma_id);
> + if (!ret)
> + goto exit;
> +
> +exit:
> + group->programming = 0;
> + return ret;
> +}
> +
> +static int
> +dla_enable_operation(struct dla_engine *engine,
> + struct dla_processor *processor,
> + struct dla_common_op_desc *op_desc)
> +{
> + int32_t ret = 0;
> + int32_t group_id;
> + struct dla_processor_group *group;
> +
> + /**
> + * If some operation has reported error then skip
> + * enabling next operations
> + */
> + if (engine->status)
> + goto exit;
> +
> + /**
> + * Find out if operation is already programmed
> + */
> + group_id = 0;
> + group = &processor->groups[group_id];
> + if ((processor->group_status & (1 << group_id)) &&
> + group->op_desc->index == op_desc->index &&
> + group->roi_index == op_desc->roi_index &&
> + !group->pending)
> + goto enable_op;
> +
> + group_id = 1;
> + group = &processor->groups[group_id];
> + if ((processor->group_status & (1 << group_id)) &&
> + group->op_desc->index == op_desc->index &&
> + group->roi_index == op_desc->roi_index &&
> + !group->pending)
> + goto enable_op;
> +
> + /**
> + * Operation is not programmed yet, ignore
> + */
> + pr_debug("exit %s without actual enable due to processor "
> + "hasn't been programmed\n", __func__);
> + goto exit;
> +
> +enable_op:
> + /**
> + * If this event is triggered as part of programming same
> + * group then skip enable, it will get enabled after programming
> + * is complete
> + */
> + if (group->programming)
> + goto exit;
> +
> + if (group->active) {
> + pr_debug("Processor:%s already enabled on group:%d\n",
> + processor->name, group_id);
> + goto exit;
> + }
> +
> + pr_info("Enable %s operation index %d ROI %d\n",
> + processor->name,
> + group->op_desc->index,
> + group->roi_index);
> +
> + processor->set_producer(engine, group->id, group->rdma_id);
> +
> + ret = processor->enable(engine, group);
> + if (ret)
> + goto exit;
> +
> + ret = dla_op_enabled(engine, group);
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_submit_operation(struct dla_engine *engine,
> + struct dla_processor *processor,
> + struct dla_common_op_desc *op_desc,
> + uint8_t roi_index)
> +{
> + int32_t err;
> + uint32_t group_id = 0;
> +
> + pr_info("Prepare %s operation index %d ROI %d dep_count %d\n",
> + processor->name, op_desc->index, roi_index,
> + op_desc->dependency_count);
> + err = dla_prepare_operation(engine, processor, op_desc, roi_index, &group_id);
> + if (err)
> + goto exit;
> +
> + if (!processor->is_ready(processor, &processor->groups[group_id]))
> + goto exit;
> +
> + err = dla_program_operation(engine, processor, &processor->groups[group_id]);
> + if (err)
> + goto exit;
> +
> + if (op_desc->dependency_count == 0)
> + err = dla_enable_operation(engine, processor, op_desc);
> +
> +exit:
> + return err;
> +}
> +
> +/**
> + * Dequeue next operation of same type from list of operations
> + */
> +static int32_t
> +dla_dequeue_operation(struct dla_engine *engine,
> + struct dla_processor *processor)
> +{
> + int32_t ret = 0;
> + int16_t index;
> + struct dla_common_op_desc *consumer;
> +
> + if (engine->status) {
> + pr_debug("Skip dequeue op as engine has reported error\n");
> + goto exit;
> + }
> +
> + /**
> + * If we are done processing all ROIs for current op then
> + * load next op of same type otherwise reload same op for
> + * next ROI.
> + */
> + if (processor->roi_index == (engine->network->num_rois - 1)) {
> + index = processor->tail_op->consumers[processor->op_type].index;
> + if (-1 == index) {
> + /**
> + * It means we are done processing
> + * all ops of this type
> + */
> + pr_debug("exit %s as there's no further operation\n",
> + processor->name);
> + goto exit;
> + }
> + processor->roi_index = 0;
> + } else {
> + processor->roi_index++;
> + index = processor->tail_op->index;
> + }
> +
> + pr_debug("Dequeue op from %s processor, index=%d ROI=%d\n",
> + processor->name, index, processor->roi_index);
> +
> + /**
> + * Get operation descriptor
> + */
> + consumer = dla_get_op_desc(engine, engine->task, index,
> + processor->op_type, processor->roi_index);
> + if (consumer == NULL) {
> + ret = -ENOMEM;
> + pr_err("Failed to allocate op_desc");
> + goto exit;
> + }
> +
> + ret = dla_submit_operation(engine, processor, consumer, processor->roi_index);
> + dla_put_op_desc(engine, consumer);
> +
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_update_dependency(struct dla_engine *engine,
> + struct dla_consumer *consumer,
> + struct dla_common_op_desc *op_desc,
> + uint8_t event, uint8_t roi_index)
> +{
> + int32_t ret = 0;
> + struct dla_processor *processor;
> +
> + if (consumer->index == -1)
> + goto exit;
> +
> + /* Update dependency only if event matches */
> + if (event != consumer->event)
> + goto exit;
> +
> + /**
> + * If consumer index is valid but op desc is NULL means
> + * op desc for consumer was not pre-fetched
> + */
> + if (op_desc == NULL) {
> + ret = -EINVAL;
> + pr_err("Operation descriptor is NULL, consumer index %d",
> + consumer->index);
> + goto exit;
> + }
> +
> + pr_debug("Update dependency operation index %d ROI %d DEP_COUNT=%d\n",
> + op_desc->index, op_desc->roi_index,
> + op_desc->dependency_count);
> + op_desc->dependency_count--;
> +
> + if (op_desc->dependency_count == 0) {
> + processor = &engine->processors[op_desc->op_type];
> + pr_debug("enable %s in %s as depdency are resolved\n",
> + processor->name, __func__);
> +
> + ret = dla_enable_operation(engine, processor, op_desc);
> + if (ret)
> + goto exit;
> + }
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_update_consumers(struct dla_engine *engine,
> + struct dla_processor_group *group,
> + struct dla_common_op_desc *op,
> + uint8_t event)
> +{
> + int32_t i;
> + int32_t ret = 0;
> +
> + if (engine->status) {
> + pr_debug("Skip update as engine has reported error\n");
> + goto exit;
> + }
> +
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + ret = dla_update_dependency(engine, &op->consumers[i],
> + group->consumers[i],
> + event, group->roi_index);
> + if (ret) {
> + pr_err("Failed to update dependency for consumer %d, ROI %d",
> + i, group->roi_index);
> + goto exit;
> + }
> + }
> +
> + ret = dla_update_dependency(engine, &op->fused_parent,
> + group->fused_parent,
> + event, group->roi_index);
> + if (ret) {
> + pr_err("Failed to update dependency for "
> + "fused parent, ROI %d", group->roi_index);
> + goto exit;
> + }
> +
> +exit:
> + return ret;
> +}
> +
> +/**
> + * Handle operation completion notification
> + */
> +int
> +dla_op_completion(struct dla_engine *engine,
> + struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + int32_t ret;
> + struct dla_task *task;
> + struct dla_common_op_desc *op_desc;
> + struct dla_processor_group *next_group;
> +
> + pr_info("Completed %s operation index %d ROI %d\n",
> + processor->name, group->op_desc->index,
> + group->roi_index);
> +
> + task = engine->task;
> +
> + /**
> + * Mark OP as done only when all ROIs are done for that
> + * operation
> + */
> + if (group->roi_index == (engine->network->num_rois - 1))
> + engine->num_proc_hwl++;
> +
> + op_desc = group->op_desc;
> +
> + /**
> + * Get an extra reference count to keep op descriptor
> + * in cache until this operation completes
> + */
> + dla_get_refcount(op_desc);
> +
> + processor->group_status &= ~(1 << group->id);
> + if (group->is_rdma_needed) {
> + group->is_rdma_needed = 0;
> + processor->rdma_status &= ~(1 << group->rdma_id);
> + group->rdma_id = 0;
> + }
> + group->active = 0;
> + group->lut_index = -1;
> + processor->last_group = group->id;
> +
> + /**
> + * Switch consumer pointer to next group
> + */
> + processor->consumer_ptr = !group->id;
> +
> + /**
> + * update dependency graph for this task
> + * TODO: Add proper error handling
> + */
> + ret = dla_update_consumers(engine, group, op_desc, DLA_EVENT_OP_COMPLETED);
> + if (ret)
> + goto exit;
> +
> + pr_info("%d HWLs done, totally %d layers\n",
> + engine->num_proc_hwl,
> + engine->network->num_operations);
> +
> + /* free operation descriptor from cache */
> + dla_reset_group(engine, group);
> +
> + /* if not hwl pending, means network completed */
> + if (engine->network->num_operations == engine->num_proc_hwl) {
> + dla_put_op_desc(engine, op_desc);
> + goto exit;
> + }
> +
> + next_group = &processor->groups[!group->id];
> + if (next_group->pending && !engine->status) {
> + /**
> + * Next group must be ready here for programming,
> + * if not means it is an error
> + */
> + if (!processor->is_ready(processor, next_group))
> + goto dequeue_op;
> +
> + ret = dla_program_operation(engine, processor, next_group);
> + if (ret)
> + goto exit;
> +
> + if (next_group->op_desc->dependency_count != 0)
> + goto dequeue_op;
> +
> + ret = dla_enable_operation(engine, processor,
> + next_group->op_desc);
> + if (ret)
> + goto exit;
> + }
> +
> +dequeue_op:
> + /* dequeue operation from this processor */
> + ret = dla_dequeue_operation(engine, processor);
> +
> +exit:
> + dla_put_op_desc(engine, op_desc);
> + pr_debug("Exit:%s processor %s group%u status=%d\n",
> + __func__, processor->name,
> + group->id, ret);
> +
> + return ret;
> +}
> +
> +/**
> + * Read network configuration from DRAM, network descriptor address
> + * is always first in the address list. Network configuration contains
> + * offset in address list for addresses of other lists used to
> + * execute network
> + *
> + * @engine: Engine instance
> + * @return: 0 for success
> + */
> +static int
> +dla_read_network_config(struct dla_engine *engine)
> +{
> + int32_t ret;
> + uint64_t network_addr;
> + struct dla_task *task = engine->task;
> +
> + /**
> + * Read address list from DRAM to DMEM
> + */
> + ret = dla_read_address_list(engine);
> + if (ret) {
> + pr_err("Failed to read address list");
> + goto exit;
> + }
> +
> + /**
> + * Read network descriptor address from address list. It is always
> + * at index 0.
> + */
> + ret = dla_get_dma_address(engine->driver_context, task->task_data,
> + 0, (void *)&network_addr,
> + DESTINATION_PROCESSOR);
> + if (ret) {
> + pr_err("Failed to read network desc address");
> + goto exit;
> + }
> +
> + /**
> + * Read network descriptor, it has information for a network
> + * such as all address indexes.
> + */
> + ret = dla_data_read(engine->driver_context, task->task_data,
> + network_addr, (void *)&network,
> + sizeof(struct dla_network_desc), 0);
> + if (ret) {
> + pr_err("Failed to read network descriptor");
> + goto exit;
> + }
> +
> + if (network.num_operations == 0)
> + goto exit;
> +
> + /**
> + * Read operation descriptor list address from address list
> + */
> + ret = dla_get_dma_address(engine->driver_context, task->task_data,
> + network.operation_desc_index,
> + (void *)&task->operation_desc_addr,
> + DESTINATION_PROCESSOR);
> + if (ret) {
> + pr_err("Failed to read operation desc list address");
> + goto exit;
> + }
> +
> + /**
> + * Read surface descriptor list address from address list
> + */
> + ret = dla_get_dma_address(engine->driver_context, task->task_data,
> + network.surface_desc_index,
> + (void *)&task->surface_desc_addr,
> + DESTINATION_PROCESSOR);
> + if (ret) {
> + pr_err("Failed to read surface desc list address");
> + goto exit;
> + }
> +
> + /**
> + * Read dependency graph address from address list
> + */
> + ret = dla_get_dma_address(engine->driver_context, task->task_data,
> + network.dependency_graph_index,
> + (void *)&task->dependency_graph_addr,
> + DESTINATION_PROCESSOR);
> + if (ret) {
> + pr_err("Failed to ready dependency graph address");
> + goto exit;
> + }
> +
> + /**
> + * Read LUT data list address from address list
> + */
> + if (network.num_luts) {
> + ret = dla_get_dma_address(engine->driver_context,
> + task->task_data,
> + network.lut_data_index,
> + (void *)&task->lut_data_addr,
> + DESTINATION_PROCESSOR);
> + if (ret) {
> + pr_err("Failed to read LUT list address");
> + goto exit;
> + }
> + }
> +
> + /**
> + * Read address for ROI information
> + */
> + if (network.dynamic_roi) {
> + /**
> + * Read ROI array address from address list
> + */
> + ret = dla_get_dma_address(engine->driver_context,
> + task->task_data,
> + network.roi_array_index,
> + (void *)&task->roi_array_addr,
> + DESTINATION_PROCESSOR);
> + if (ret) {
> + pr_err("Failed to read ROI array address");
> + goto exit;
> + }
> +
> + ret = dla_data_read(engine->driver_context, task->task_data,
> + task->roi_array_addr,
> + (void *)&roi_array_length,
> + sizeof(uint64_t), 0);
> + if (ret) {
> + pr_err("Failed to read ROI array length");
> + goto exit;
> + }
> +
> + /**
> + * Number of ROIs detected can't be greater than maximum number
> + * ROIs this network can process
> + */
> + if (roi_array_length > network.num_rois) {
> + pr_err("Invalid number of ROIs detected");
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + network.num_rois = roi_array_length;
> +
> + /**
> + * Read surface address from address list
> + */
> + ret = dla_get_dma_address(engine->driver_context,
> + task->task_data,
> + network.surface_index,
> + (void *)&task->surface_addr,
> + DESTINATION_DMA);
> + if (ret) {
> + pr_err("Failed to read surface address");
> + goto exit;
> + }
> + }
> +
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_initiate_processors(struct dla_engine *engine)
> +{
> + int32_t i;
> + int32_t ret = 0;
> + int16_t index;
> + struct dla_processor *processor;
> + struct dla_common_op_desc *consumer;
> + struct dla_network_desc *nw;
> +
> + if (!engine) {
> + ret = -EINVAL;
> + goto exit;
> + }
> +
> + nw = engine->network;
> +
> + /* Validate operation heads before initiating processors */
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + if (nw->op_head[i] >= nw->num_operations) {
> + ret = -EINVAL;
> + pr_err("Invalid op_head %d for op %d",
> + nw->op_head[i], i);
> + goto exit;
> + }
> + }
> +
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + index = nw->op_head[i];
> +
> + /* If there is no op for this type then continue */
> + if (-1 == index)
> + continue;
> +
> + consumer = dla_get_op_desc(engine, engine->task, index, i, 0);
> + /*
> + * if consumer is NULL, it means either data copy error
> + * or cache insufficient - we should fix it
> + **/
> + if (consumer == NULL) {
> + pr_err("Failed to allocate memory for op_head[%d]=%d",
> + i, index);
> + ret = -ENOMEM;
> + goto exit;
> + }
> +
> + processor = &engine->processors[consumer->op_type];
> +
> + ret = dla_submit_operation(engine, processor, consumer, 0);
> + dla_put_op_desc(engine, consumer);
> + if (ret && ret != -EBUSY) {
> + pr_err("Failed to submit %s op from index %u\n",
> + processor->name, index);
> + goto exit;
> + }
> +
> + ret = dla_dequeue_operation(engine, processor);
> + if (ret) {
> + pr_err("Failed to dequeue op for %s processor",
> + processor->name);
> + goto exit;
> + }
> + }
> +exit:
> + return ret;
> +}
> +
> +static int
> +dla_handle_events(struct dla_engine *engine, struct dla_processor *processor)
> +{
> + int32_t j;
> + int32_t ret = 0;
> + uint8_t group_id;
> + struct dla_processor_group *group;
> +
> + pr_debug("Enter:%s, processor:%s\n", __func__, processor->name);
> +
> + group_id = !processor->last_group;
> +
> + for (j = 0; j < DLA_NUM_GROUPS; j++) {
> + group = &processor->groups[group_id];
> +
> + if ((1 << DLA_EVENT_CDMA_WT_DONE) & group->events) {
> + pr_info("Handle cdma weight done event, processor %s group %u\n",
> + processor->name, group->id);
> +
> + ret = dla_update_consumers(engine, group, group->op_desc,
> + DLA_EVENT_CDMA_WT_DONE);
> + if (ret)
> + goto exit;
> + }
> +
> + if ((1 << DLA_EVENT_CDMA_DT_DONE) & group->events) {
> + pr_info("Handle cdma data done event, processor %s group %u\n",
> + processor->name, group->id);
> +
> + ret = dla_update_consumers(engine, group,
> + group->op_desc,
> + DLA_EVENT_CDMA_DT_DONE);
> + if (ret)
> + goto exit;
> + }
> +
> + /**
> + * Handle complete after all other events
> + */
> + if ((1 << DLA_EVENT_OP_COMPLETED) & group->events) {
> + pr_info("Handle op complete event, processor %s group %u\n",
> + processor->name, group->id);
> +
> + ret = dla_op_completion(engine, processor, group);
> + if (ret)
> + goto exit;
> + }
> +
> + /**
> + * Clear all events
> + */
> + group->events = 0;
> + group_id = !group_id;
> + }
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_process_events(struct dla_engine *engine, uint32_t *task_complete)
> +{
> + int32_t i;
> + int32_t ret = 0;
> +
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + struct dla_processor *processor;
> +
> + processor = &engine->processors[i];
> + ret = dla_handle_events(engine, processor);
> + /**
> + * Incase engine status is non-zero, then don't
> + * update the engine status. We should keep its
> + * status for later cleaning of engine.
> + */
> + if (!engine->status)
> + engine->status = ret;
> + }
> +
> + if (engine->network->num_operations == engine->num_proc_hwl)
> + *task_complete = 1;
> +
> + return ret;
> +}
> +
> +/**
> + * Execute task selected by task scheduler
> + *
> + * 1. Read network configuration for the task
> + * 2. Initiate processors with head of list for same op
> + * 3. Start processing events received
> + */
> +int
> +dla_execute_task(struct dla_engine *engine_context, void *task_data, void *config_data)
> +{
> + int32_t ret;
> + struct dla_engine *engine = engine_context;
> +
> + if (engine == NULL) {
> + pr_err("engine is NULL\n");
> + ret = -EINVAL;
> + goto complete;
> + }
> +
> + if (engine->task == NULL) {
> + pr_err("task is NULL\n");
> + ret = -EINVAL;
> + goto complete;
> + }
> +
> + if (engine->task->task_data != NULL) {
> + /* We have on the fly tasks running */
> + pr_warn("Already some task in progress");
> + ret = -EBUSY;
> + goto complete;
> + }
> +
> + engine->task->task_data = task_data;
> + engine->config_data = config_data;
> + engine->network = &network;
> + engine->num_proc_hwl = 0;
> +
> + ret = dla_read_network_config(engine);
> + if (ret)
> + goto complete;
> +
> + /* If no operations in a task means nothing to do, NULL task */
> + if (engine->network->num_operations == 0)
> + goto complete;
> +
> + ret = dla_initiate_processors(engine);
> + engine->status = ret;
> +
> +complete:
> + return ret;
> +}
> +
> +void
> +dla_clear_task(struct dla_engine *engine_context)
> +{
> + int32_t i, j;
> + struct dla_engine *engine = engine_context;
> +
> + for (i = 0; i < DLA_OP_NUM; i++) {
> + struct dla_processor *processor = &engine->processors[i];
> +
> + processor->roi_index = 0;
> + processor->group_status = 0;
> + processor->rdma_status = 0;
> +
> + processor->tail_op = NULL;
> +
> + for (j = 0; j < DLA_NUM_GROUPS; j++) {
> + struct dla_processor_group *group =
> + &processor->groups[j];
> +
> + group->rdma_id = group->id;
> + group->active = 0;
> + group->events = 0;
> + group->roi_index = 0;
> + group->is_rdma_needed = 0;
> + group->lut_index = -1;
> + }
> + }
> +
> + engine->task->task_data = NULL;
> + engine->network = NULL;
> + engine->num_proc_hwl = 0;
> + engine->status = 0;
> +
> + pr_info("reset engine done\n");
> +}
> diff --git a/drivers/gpu/drm/nvdla/nvdla_sdp.c b/drivers/gpu/drm/nvdla/nvdla_sdp.c
> new file mode 100644
> index 000000000000..655ec7195ee9
> --- /dev/null
> +++ b/drivers/gpu/drm/nvdla/nvdla_sdp.c
> @@ -0,0 +1,728 @@
> +// SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0
> +/*
> + * Copyright (C) 2017-2018 NVIDIA CORPORATION
> + * Copyright (C) 2022 Cai Huoqing
> + */
> +
> +#include "nvdla_drm.h"
> +#include "nvdla_reg.h"
> +#include "nvdla_common.h"
> +#include "nvdla_engine.h"
> +
> +static const uint8_t map_ena[] = {
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DISABLE, YES),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DISABLE, NO),
> +};
> +
> +static const uint8_t map_prelu[] = {
> + FIELD_ENUM(SDP_D_DP_BS_CFG_0, BS_MUL_PRELU, NO),
> + FIELD_ENUM(SDP_D_DP_BS_CFG_0, BS_MUL_PRELU, YES),
> +};
> +
> +static const uint8_t map_bypass[] = {
> + FIELD_ENUM(SDP_D_DP_BS_CFG_0, BS_BYPASS, YES),
> + FIELD_ENUM(SDP_D_DP_BS_CFG_0, BS_BYPASS, NO),
> +};
> +
> +static const uint8_t map_alu_op[] = {
> + FIELD_ENUM(SDP_D_DP_EW_CFG_0, EW_ALU_ALGO, MAX),
> + FIELD_ENUM(SDP_D_DP_EW_CFG_0, EW_ALU_ALGO, MIN),
> + FIELD_ENUM(SDP_D_DP_EW_CFG_0, EW_ALU_ALGO, SUM),
> + FIELD_ENUM(SDP_D_DP_EW_CFG_0, EW_ALU_ALGO, EQL),
> +};
> +
> +static const uint8_t map_alu_src[] = {
> + FIELD_ENUM(SDP_D_DP_BS_ALU_CFG_0, BS_ALU_SRC, MEM),
> + FIELD_ENUM(SDP_D_DP_BS_ALU_CFG_0, BS_ALU_SRC, REG),
> +};
> +
> +static const uint8_t map_fly[] = {
> + FIELD_ENUM(SDP_D_FEATURE_MODE_CFG_0, FLYING_MODE, OFF),
> + FIELD_ENUM(SDP_D_FEATURE_MODE_CFG_0, FLYING_MODE, ON),
> +};
> +
> +static const uint8_t map_dst[] = {
> + FIELD_ENUM(SDP_D_FEATURE_MODE_CFG_0, OUTPUT_DST, MEM),
> + FIELD_ENUM(SDP_D_FEATURE_MODE_CFG_0, OUTPUT_DST, PDP),
> +};
> +
> +
> +static const uint8_t map_wg[] = {
> + FIELD_ENUM(SDP_D_FEATURE_MODE_CFG_0, WINOGRAD, OFF),
> + FIELD_ENUM(SDP_D_FEATURE_MODE_CFG_0, WINOGRAD, ON),
> +};
> +
> +static const uint8_t map_precision[] = {
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT16),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, FP16),
> +};
> +
> +static const uint32_t map_proc_precision[3][3] = {
> + {
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, FP16),
> + },
> + {
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT16),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, FP16),
> + },
> + {
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT8),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, INT16),
> + FIELD_ENUM(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION, FP16),
> + },
> +};
> +
> +static const uint8_t map_op_type[] = {
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_USE, MUL),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_USE, MUL),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_USE, ALU),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_USE, BOTH),
> +};
> +
> +static const uint8_t map_element_size[] = {
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_SIZE, ONE_BYTE),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_SIZE, TWO_BYTE),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_SIZE, TWO_BYTE),
> +};
> +
> +static const uint8_t map_op_mode[] = {
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_MODE, PER_ELEMENT),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_MODE, PER_KERNEL),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DATA_MODE, PER_ELEMENT),
> +};
> +
> +static const uint8_t map_ram_type[] = {
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_RAM_TYPE, MC),
> + FIELD_ENUM(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_RAM_TYPE, CV),
> +};
> +
> +static const uint8_t map_perf_dma[] = {
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_DMA_EN, NO),
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_DMA_EN, YES),
> +};
> +
> +static const uint8_t map_perf_lut[] = {
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_LUT_EN, NO),
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_LUT_EN, YES),
> +};
> +
> +static const uint8_t map_perf_sat[] = {
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_SAT_EN, NO),
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_SAT_EN, YES),
> +};
> +
> +static const uint8_t map_perf_nan_inf[] = {
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_NAN_INF_COUNT_EN, NO),
> + FIELD_ENUM(SDP_D_PERF_ENABLE_0, PERF_NAN_INF_COUNT_EN, YES),
> +};
> +
> +void
> +dla_sdp_set_producer(struct dla_engine *engine, int32_t group_id, int32_t rdma_group_id)
> +{
> + uint32_t reg;
> +
> + /**
> + * set producer pointer for all sub-modules
> + */
> + reg = group_id << SHIFT(SDP_S_POINTER_0, PRODUCER);
> + sdp_reg_write(engine, S_POINTER, reg);
> + reg = rdma_group_id << SHIFT(SDP_RDMA_S_POINTER_0, PRODUCER);
> + sdp_rdma_reg_write(engine, S_POINTER, reg);
> +}
> +
> +int
> +dla_sdp_enable(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + uint32_t reg;
> +
> + /**
> + * enable all sub-modules
> + */
> + if (group->is_rdma_needed) {
> + reg = FIELD_ENUM(SDP_RDMA_D_OP_ENABLE_0, OP_EN, ENABLE);
> + sdp_rdma_reg_write(engine, D_OP_ENABLE, reg);
> + }
> + reg = FIELD_ENUM(SDP_D_OP_ENABLE_0, OP_EN, ENABLE);
> + sdp_reg_write(engine, D_OP_ENABLE, reg);
> +
> + return 0;
> +}
> +
> +void
> +dla_sdp_rdma_check(struct dla_processor_group *group)
> +{
> + uint8_t x1_rdma_ena;
> + uint8_t x2_rdma_ena;
> + uint8_t y_rdma_ena;
> + uint8_t fly;
> + struct dla_sdp_op_desc *sdp_op;
> + struct dla_sdp_surface_desc *sdp_surface;
> +
> + sdp_op = &group->operation_desc->sdp_op;
> + sdp_surface = &group->surface_desc->sdp_surface;
> +
> + x1_rdma_ena = sdp_op->x1_op.enable;
> + x2_rdma_ena = sdp_op->x2_op.enable;
> + y_rdma_ena = sdp_op->y_op.enable;
> +
> + x1_rdma_ena &= (sdp_op->x1_op.mode != SDP_OP_PER_LAYER);
> + x2_rdma_ena &= (sdp_op->x2_op.mode != SDP_OP_PER_LAYER);
> + y_rdma_ena &= (sdp_op->y_op.mode != SDP_OP_PER_LAYER);
> +
> + fly = sdp_surface->src_data.type == DLA_MEM_HW;
> +
> + group->is_rdma_needed = (!fly) || (x1_rdma_ena ||
> + x2_rdma_ena || y_rdma_ena);
> +}
> +
> +static int32_t
> +processor_sdp_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret = 0;
> + uint64_t src_addr = -1, x1_addr = -1, x2_addr = -1;
> + uint64_t y_addr = -1, dst_addr = -1;
> + uint32_t reg, high, low;
> + uint8_t fly;
> + uint32_t atom_size;
> + struct dla_sdp_op *x1_op;
> + struct dla_sdp_op *x2_op;
> + struct dla_sdp_op *y_op;
> + uint8_t x1_rdma_ena;
> + uint8_t x2_rdma_ena;
> + uint8_t y_rdma_ena;
> + uint8_t out_dma_ena;
> + struct dla_lut_param lut;
> + struct dla_sdp_op_desc *sdp_op;
> + struct dla_sdp_surface_desc *sdp_surface;
> +
> + atom_size = engine->config_data->atom_size;
> +
> + sdp_op = &group->operation_desc->sdp_op;
> + sdp_surface = &group->surface_desc->sdp_surface;
> +
> + fly = sdp_surface->src_data.type == DLA_MEM_HW;
> + out_dma_ena = sdp_surface->dst_data.type != DLA_MEM_HW;
> + x1_op = &sdp_op->x1_op;
> + x2_op = &sdp_op->x2_op;
> + y_op = &sdp_op->y_op;
> + x1_rdma_ena = x1_op->enable && x1_op->type != SDP_OP_NONE;
> + x2_rdma_ena = x2_op->enable && x2_op->type != SDP_OP_NONE;
> + y_rdma_ena = y_op->enable && y_op->type != SDP_OP_NONE;
> +
> + /* load address */
> + if (!fly) {
> + ret = dla_read_input_address(engine, &sdp_surface->src_data,
> + &src_addr,
> + group->op_desc->index,
> + group->roi_index,
> + 1);
> + if (ret)
> + goto exit;
> + }
> +
> + if (out_dma_ena) {
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + sdp_surface->dst_data.address,
> + sdp_surface->dst_data.offset,
> + (void *)&dst_addr,
> + DESTINATION_DMA);
> + }
> +
> + if (sdp_op->lut_index >= 0) {
> + group->lut_index = sdp_op->lut_index;
> + dla_read_lut(engine, sdp_op->lut_index, (void *)&lut);
> + }
> +
> +
> + x1_rdma_ena &= (x1_op->mode != SDP_OP_PER_LAYER);
> + x2_rdma_ena &= (x2_op->mode != SDP_OP_PER_LAYER);
> + y_rdma_ena &= (y_op->mode != SDP_OP_PER_LAYER);
> +
> + if (x1_rdma_ena) {
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + sdp_surface->x1_data.address,
> + sdp_surface->x1_data.offset,
> + (void *)&x1_addr,
> + DESTINATION_DMA);
> + }
> + if (x2_rdma_ena) {
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + sdp_surface->x2_data.address,
> + sdp_surface->x2_data.offset,
> + (void *)&x2_addr,
> + DESTINATION_DMA);
> + }
> + if (y_rdma_ena) {
> + dla_get_dma_cube_address(engine->driver_context,
> + engine->task->task_data,
> + sdp_surface->y_data.address,
> + sdp_surface->y_data.offset,
> + (void *)&y_addr,
> + DESTINATION_DMA);
> + }
> +
> + reg = (map_fly[0] << SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, FLYING_MODE));
> + sdp_rdma_reg_write(engine, D_FEATURE_MODE_CFG, reg);
> +
> + reg = (map_ena[1] << SHIFT(SDP_RDMA_D_BRDMA_CFG_0, BRDMA_DISABLE));
> + sdp_rdma_reg_write(engine, D_BRDMA_CFG, reg);
> + reg = (map_ena[1] << SHIFT(SDP_RDMA_D_NRDMA_CFG_0, NRDMA_DISABLE));
> + sdp_rdma_reg_write(engine, D_NRDMA_CFG, reg);
> + reg = (map_ena[1] << SHIFT(SDP_RDMA_D_ERDMA_CFG_0, ERDMA_DISABLE));
> + sdp_rdma_reg_write(engine, D_ERDMA_CFG, reg);
> +
> + reg = (map_fly[fly] <<
> + SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, FLYING_MODE)) |
> + (map_wg[sdp_op->conv_mode == CONV_MODE_WINOGRAD] <<
> + SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, WINOGRAD)) |
> + (map_precision[sdp_op->src_precision] <<
> + SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, IN_PRECISION)) |
> + (map_precision[sdp_op->dst_precision] <<
> + SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, OUT_PRECISION)) |
> + (map_proc_precision[sdp_op->dst_precision][sdp_op->src_precision] <<
> + SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, PROC_PRECISION)) |
> + ((sdp_op->batch_num-1) <<
> + SHIFT(SDP_RDMA_D_FEATURE_MODE_CFG_0, BATCH_NUMBER));
> + sdp_rdma_reg_write(engine, D_FEATURE_MODE_CFG, reg);
> +
> + if (group->is_rdma_needed) {
> +
> + sdp_rdma_reg_write(engine, D_DATA_CUBE_WIDTH,
> + sdp_surface->src_data.width - 1);
> + sdp_rdma_reg_write(engine, D_DATA_CUBE_HEIGHT,
> + sdp_surface->src_data.height - 1);
> + sdp_rdma_reg_write(engine, D_DATA_CUBE_CHANNEL,
> + sdp_surface->src_data.channel - 1);
> +
> + /* config SDP source info */
> + if (!fly) {
> + /**
> + * if not on-the-fly, we have to config
> + * the source cube info
> + */
> + high = upper_32_bits(src_addr);
> + low = lower_32_bits(src_addr);
> + sdp_rdma_reg_write(engine, D_SRC_BASE_ADDR_LOW, low);
> + sdp_rdma_reg_write(engine, D_SRC_BASE_ADDR_HIGH, high);
> + sdp_rdma_reg_write(engine, D_SRC_LINE_STRIDE,
> + sdp_surface->src_data.line_stride);
> + sdp_rdma_reg_write(engine, D_SRC_SURFACE_STRIDE,
> + sdp_surface->src_data.surf_stride);
> + sdp_rdma_reg_write(engine, D_SRC_DMA_CFG,
> + map_ram_type[sdp_surface->src_data.type]);
> + }
> +
> + /* config x1 source info */
> + reg = (map_ena[x1_rdma_ena] <<
> + SHIFT(SDP_RDMA_D_BRDMA_CFG_0,
> + BRDMA_DISABLE)) |
> + (map_op_type[x1_op->type] <<
> + SHIFT(SDP_RDMA_D_BRDMA_CFG_0,
> + BRDMA_DATA_USE)) |
> + (map_element_size[x1_op->precision] <<
> + SHIFT(SDP_RDMA_D_BRDMA_CFG_0,
> + BRDMA_DATA_SIZE)) |
> + (map_op_mode[x1_op->mode] <<
> + SHIFT(SDP_RDMA_D_BRDMA_CFG_0,
> + BRDMA_DATA_MODE)) |
> + (map_ram_type[sdp_surface->x1_data.type] <<
> + SHIFT(SDP_RDMA_D_BRDMA_CFG_0,
> + BRDMA_RAM_TYPE));
> + sdp_rdma_reg_write(engine, D_BRDMA_CFG, reg);
> +
> + if (x1_rdma_ena) {
> + high = upper_32_bits(x1_addr);
> + low = lower_32_bits(x1_addr);
> + sdp_rdma_reg_write(engine, D_BS_BASE_ADDR_LOW,
> + low);
> + sdp_rdma_reg_write(engine, D_BS_BASE_ADDR_HIGH,
> + high);
> + sdp_rdma_reg_write(engine, D_BS_LINE_STRIDE,
> + sdp_surface->x1_data.line_stride);
> + sdp_rdma_reg_write(engine, D_BS_SURFACE_STRIDE,
> + sdp_surface->x1_data.surf_stride);
> + }
> +
> + /* config x2 source info */
> + reg = (map_ena[x2_rdma_ena] <<
> + SHIFT(SDP_RDMA_D_NRDMA_CFG_0,
> + NRDMA_DISABLE)) |
> + (map_op_type[x2_op->type] <<
> + SHIFT(SDP_RDMA_D_NRDMA_CFG_0,
> + NRDMA_DATA_USE)) |
> + (map_element_size[x2_op->precision] <<
> + SHIFT(SDP_RDMA_D_NRDMA_CFG_0,
> + NRDMA_DATA_SIZE)) |
> + (map_op_mode[x2_op->mode] <<
> + SHIFT(SDP_RDMA_D_NRDMA_CFG_0,
> + NRDMA_DATA_MODE)) |
> + (map_ram_type[sdp_surface->x2_data.type] <<
> + SHIFT(SDP_RDMA_D_NRDMA_CFG_0,
> + NRDMA_RAM_TYPE));
> +
> + sdp_rdma_reg_write(engine, D_NRDMA_CFG, reg);
> +
> + if (x2_rdma_ena) {
> + high = upper_32_bits(x2_addr);
> + low = lower_32_bits(x2_addr);
> + sdp_rdma_reg_write(engine, D_BN_BASE_ADDR_LOW,
> + low);
> + sdp_rdma_reg_write(engine, D_BN_BASE_ADDR_HIGH,
> + high);
> + sdp_rdma_reg_write(engine, D_BN_LINE_STRIDE,
> + sdp_surface->x2_data.line_stride);
> + sdp_rdma_reg_write(engine, D_BN_SURFACE_STRIDE,
> + sdp_surface->x2_data.surf_stride);
> + }
> +
> + /* config y source info */
> + reg = (map_ena[y_rdma_ena] <<
> + SHIFT(SDP_RDMA_D_ERDMA_CFG_0,
> + ERDMA_DISABLE)) |
> + (map_op_type[y_op->type] <<
> + SHIFT(SDP_RDMA_D_ERDMA_CFG_0,
> + ERDMA_DATA_USE)) |
> + (map_element_size[y_op->precision] <<
> + SHIFT(SDP_RDMA_D_ERDMA_CFG_0,
> + ERDMA_DATA_SIZE)) |
> + (map_op_mode[y_op->mode] <<
> + SHIFT(SDP_RDMA_D_ERDMA_CFG_0,
> + ERDMA_DATA_MODE)) |
> + (map_ram_type[sdp_surface->y_data.type] <<
> + SHIFT(SDP_RDMA_D_ERDMA_CFG_0,
> + ERDMA_RAM_TYPE));
> +
> + sdp_rdma_reg_write(engine, D_ERDMA_CFG, reg);
> + if (y_rdma_ena) {
> + high = upper_32_bits(y_addr);
> + low = lower_32_bits(y_addr);
> + sdp_rdma_reg_write(engine, D_EW_BASE_ADDR_LOW,
> + low);
> + sdp_rdma_reg_write(engine, D_EW_BASE_ADDR_HIGH,
> + high);
> + sdp_rdma_reg_write(engine, D_EW_LINE_STRIDE,
> + sdp_surface->y_data.line_stride);
> + sdp_rdma_reg_write(engine, D_EW_SURFACE_STRIDE,
> + sdp_surface->y_data.surf_stride);
> + }
> + }
> +
> + if (sdp_op->lut_index >= 0)
> + update_lut(engine, SDP_S_LUT_ACCESS_CFG_0, &lut,
> + sdp_op->src_precision);
> +
> + sdp_reg_write(engine, D_DATA_CUBE_WIDTH, sdp_surface->src_data.width - 1);
> + sdp_reg_write(engine, D_DATA_CUBE_HEIGHT, sdp_surface->src_data.height - 1);
> + sdp_reg_write(engine, D_DATA_CUBE_CHANNEL, sdp_surface->src_data.channel - 1);
> +
> + if (out_dma_ena) {
> + high = upper_32_bits(dst_addr);
> + low = lower_32_bits(dst_addr);
> + sdp_reg_write(engine, D_DST_BASE_ADDR_HIGH,
> + high);
> + sdp_reg_write(engine, D_DST_BASE_ADDR_LOW,
> + low);
> + sdp_reg_write(engine, D_DST_LINE_STRIDE,
> + sdp_surface->dst_data.line_stride);
> + sdp_reg_write(engine, D_DST_SURFACE_STRIDE,
> + sdp_surface->dst_data.surf_stride);
> + }
> +
> + /* Config BS module */
> + reg = (map_bypass[x1_op->enable] <<
> + SHIFT(SDP_D_DP_BS_CFG_0,
> + BS_BYPASS)) |
> + (map_bypass[x1_op->type != SDP_OP_MUL &&
> + x1_op->type != SDP_OP_NONE] <<
> + SHIFT(SDP_D_DP_BS_CFG_0,
> + BS_ALU_BYPASS)) |
> + (map_alu_op[x1_op->alu_type] <<
> + SHIFT(SDP_D_DP_BS_CFG_0,
> + BS_ALU_ALGO)) |
> + (map_bypass[x1_op->type != SDP_OP_ADD &&
> + x1_op->type != SDP_OP_NONE] <<
> + SHIFT(SDP_D_DP_BS_CFG_0,
> + BS_MUL_BYPASS)) |
> + (map_prelu[x1_op->act == ACTIVATION_PRELU]
> + << SHIFT(SDP_D_DP_BS_CFG_0,
> + BS_MUL_PRELU)) |
> + (map_bypass[x1_op->act == ACTIVATION_RELU] <<
> + SHIFT(SDP_D_DP_BS_CFG_0,
> + BS_RELU_BYPASS));
> + sdp_reg_write(engine, D_DP_BS_CFG, reg);
> +
> + if (x1_op->enable) {
> + if (x1_op->type == SDP_OP_ADD ||
> + x1_op->type == SDP_OP_BOTH) {
> + reg = (map_alu_src[x1_op->mode == SDP_OP_PER_LAYER] <<
> + SHIFT(SDP_D_DP_BS_ALU_CFG_0,
> + BS_ALU_SRC)) |
> + (x1_op->shift_value <<
> + SHIFT(SDP_D_DP_BS_ALU_CFG_0,
> + BS_ALU_SHIFT_VALUE));
> + sdp_reg_write(engine, D_DP_BS_ALU_CFG, reg);
> + }
> +
> + if (x1_op->mode == SDP_OP_PER_LAYER) {
> + sdp_reg_write(engine, D_DP_BS_ALU_SRC_VALUE,
> + x1_op->alu_operand);
> + sdp_reg_write(engine, D_DP_BS_MUL_SRC_VALUE,
> + x1_op->mul_operand);
> + }
> +
> + /**
> + * MUL truncate will take effect no matter
> + * MUL is bypassed or not
> + */
> + reg = (map_alu_src[x1_op->mode == SDP_OP_PER_LAYER] <<
> + SHIFT(SDP_D_DP_BS_MUL_CFG_0,
> + BS_MUL_SRC)) |
> + (x1_op->truncate <<
> + SHIFT(SDP_D_DP_BS_MUL_CFG_0,
> + BS_MUL_SHIFT_VALUE));
> + sdp_reg_write(engine, D_DP_BS_MUL_CFG, reg);
> + }
> +
> + /* Config BN module */
> + reg = (map_bypass[x2_op->enable] <<
> + SHIFT(SDP_D_DP_BN_CFG_0,
> + BN_BYPASS)) |
> + (map_bypass[x2_op->type != SDP_OP_MUL &&
> + x2_op->type != SDP_OP_NONE] <<
> + SHIFT(SDP_D_DP_BN_CFG_0,
> + BN_ALU_BYPASS)) |
> + (map_alu_op[x2_op->alu_type] <<
> + SHIFT(SDP_D_DP_BN_CFG_0,
> + BN_ALU_ALGO)) |
> + (map_bypass[x2_op->type != SDP_OP_ADD &&
> + x2_op->type != SDP_OP_NONE] <<
> + SHIFT(SDP_D_DP_BN_CFG_0,
> + BN_MUL_BYPASS)) |
> + (map_prelu[x2_op->act == ACTIVATION_PRELU]
> + << SHIFT(SDP_D_DP_BN_CFG_0,
> + BN_MUL_PRELU)) |
> + (map_bypass[x2_op->act == ACTIVATION_RELU]
> + << SHIFT(SDP_D_DP_BN_CFG_0,
> + BN_RELU_BYPASS));
> + sdp_reg_write(engine, D_DP_BN_CFG, reg);
> +
> + if (x2_op->enable) {
> + if (x2_op->type == SDP_OP_ADD ||
> + x2_op->type == SDP_OP_BOTH) {
> + reg = (map_alu_src[x2_op->mode == SDP_OP_PER_LAYER] <<
> + SHIFT(SDP_D_DP_BN_ALU_CFG_0,
> + BN_ALU_SRC)) |
> + (x2_op->shift_value <<
> + SHIFT(SDP_D_DP_BN_ALU_CFG_0,
> + BN_ALU_SHIFT_VALUE));
> + sdp_reg_write(engine, D_DP_BN_ALU_CFG, reg);
> + }
> +
> + if (x2_op->mode == SDP_OP_PER_LAYER) {
> + sdp_reg_write(engine, D_DP_BN_ALU_SRC_VALUE,
> + x2_op->alu_operand);
> + sdp_reg_write(engine, D_DP_BN_MUL_SRC_VALUE,
> + x2_op->mul_operand);
> + }
> +
> + reg = (map_alu_src[x2_op->mode == SDP_OP_PER_LAYER] <<
> + SHIFT(SDP_D_DP_BN_MUL_CFG_0,
> + BN_MUL_SRC)) |
> + (x2_op->truncate <<
> + SHIFT(SDP_D_DP_BN_MUL_CFG_0,
> + BN_MUL_SHIFT_VALUE));
> + sdp_reg_write(engine, D_DP_BN_MUL_CFG, reg);
> + }
> +
> + /* Config EW module */
> + reg = (map_bypass[y_op->enable] <<
> + SHIFT(SDP_D_DP_EW_CFG_0,
> + EW_BYPASS)) |
> + (map_bypass[y_op->type != SDP_OP_MUL &&
> + y_op->type != SDP_OP_NONE] <<
> + SHIFT(SDP_D_DP_EW_CFG_0,
> + EW_ALU_BYPASS)) |
> + (map_alu_op[y_op->alu_type] <<
> + SHIFT(SDP_D_DP_EW_CFG_0,
> + EW_ALU_ALGO)) |
> + (map_bypass[y_op->type != SDP_OP_ADD &&
> + y_op->type != SDP_OP_NONE] <<
> + SHIFT(SDP_D_DP_EW_CFG_0,
> + EW_MUL_BYPASS)) |
> + ((map_prelu[y_op->act == ACTIVATION_PRELU]) <<
> + SHIFT(SDP_D_DP_EW_CFG_0,
> + EW_MUL_PRELU)) |
> + (map_bypass[y_op->act == ACTIVATION_LUT] <<
> + SHIFT(SDP_D_DP_EW_CFG_0,
> + EW_LUT_BYPASS));
> + sdp_reg_write(engine, D_DP_EW_CFG, reg);
> +
> + if (y_op->enable) {
> + if (y_op->type == SDP_OP_ADD || y_op->type == SDP_OP_BOTH) {
> + reg = (map_alu_src[y_op->mode == SDP_OP_PER_LAYER] <<
> + SHIFT(SDP_D_DP_EW_ALU_CFG_0,
> + EW_ALU_SRC)) |
> + (map_bypass[y_op->cvt.alu_cvt.enable] <<
> + SHIFT(SDP_D_DP_EW_ALU_CFG_0,
> + EW_ALU_CVT_BYPASS));
> + sdp_reg_write(engine, D_DP_EW_ALU_CFG, reg);
> +
> + if (y_op->mode == SDP_OP_PER_LAYER) {
> + sdp_reg_write(engine, D_DP_EW_ALU_SRC_VALUE,
> + y_op->alu_operand);
> + } else {
> + sdp_reg_write(engine, D_DP_EW_ALU_CVT_OFFSET_VALUE,
> + y_op->cvt.alu_cvt.offset);
> + sdp_reg_write(engine, D_DP_EW_ALU_CVT_SCALE_VALUE,
> + y_op->cvt.alu_cvt.scale);
> + sdp_reg_write(engine, D_DP_EW_ALU_CVT_TRUNCATE_VALUE,
> + y_op->cvt.alu_cvt.truncate);
> + }
> + }
> +
> + if (y_op->type == SDP_OP_MUL || y_op->type == SDP_OP_BOTH) {
> + reg = (map_alu_src[y_op->mode == SDP_OP_PER_LAYER] <<
> + SHIFT(SDP_D_DP_EW_MUL_CFG_0,
> + EW_MUL_SRC)) |
> + (map_bypass[y_op->cvt.mul_cvt.enable] <<
> + SHIFT(SDP_D_DP_EW_MUL_CFG_0,
> + EW_MUL_CVT_BYPASS));
> + sdp_reg_write(engine, D_DP_EW_MUL_CFG, reg);
> +
> + if (y_op->mode == SDP_OP_PER_LAYER) {
> + sdp_reg_write(engine, D_DP_EW_MUL_SRC_VALUE,
> + y_op->mul_operand);
> + } else {
> + sdp_reg_write(engine, D_DP_EW_MUL_CVT_OFFSET_VALUE,
> + y_op->cvt.mul_cvt.offset);
> + sdp_reg_write(engine, D_DP_EW_MUL_CVT_SCALE_VALUE,
> + y_op->cvt.mul_cvt.scale);
> + sdp_reg_write(engine, D_DP_EW_MUL_CVT_TRUNCATE_VALUE,
> + y_op->cvt.mul_cvt.truncate);
> + }
> + }
> +
> + sdp_reg_write(engine, D_DP_EW_TRUNCATE_VALUE, y_op->truncate);
> + }
> +
> + reg = (map_fly[sdp_surface->src_data.type == DLA_MEM_HW] <<
> + SHIFT(SDP_D_FEATURE_MODE_CFG_0,
> + FLYING_MODE)) |
> + (map_dst[sdp_surface->dst_data.type == DLA_MEM_HW] <<
> + SHIFT(SDP_D_FEATURE_MODE_CFG_0,
> + OUTPUT_DST)) |
> + (map_wg[sdp_op->conv_mode == CONV_MODE_WINOGRAD] <<
> + SHIFT(SDP_D_FEATURE_MODE_CFG_0,
> + WINOGRAD)) |
> + ((sdp_op->batch_num - 1) <<
> + SHIFT(SDP_D_FEATURE_MODE_CFG_0,
> + BATCH_NUMBER));
> + sdp_reg_write(engine, D_FEATURE_MODE_CFG, reg);
> + sdp_reg_write(engine, D_DST_DMA_CFG,
> + map_ram_type[sdp_surface->dst_data.type]);
> + if (sdp_op->batch_num > 1)
> + sdp_reg_write(engine, D_DST_BATCH_STRIDE, sdp_op->batch_stride);
> +
> + reg =
> + (map_proc_precision[sdp_op->dst_precision][sdp_op->src_precision] <<
> + SHIFT(SDP_D_DATA_FORMAT_0,
> + PROC_PRECISION)) |
> + (map_precision[sdp_op->dst_precision] <<
> + SHIFT(SDP_D_DATA_FORMAT_0,
> + OUT_PRECISION));
> + sdp_reg_write(engine, D_DATA_FORMAT, reg);
> + sdp_reg_write(engine, D_CVT_OFFSET, sdp_op->out_cvt.offset);
> + sdp_reg_write(engine, D_CVT_SCALE, sdp_op->out_cvt.scale);
> + sdp_reg_write(engine, D_CVT_SHIFT, sdp_op->out_cvt.truncate);
> +
> +exit:
> + return ret;
> +}
> +
> +int
> +dla_sdp_is_ready(struct dla_processor *processor,
> + struct dla_processor_group *group)
> +{
> + struct dla_processor_group *next_group;
> + struct dla_sdp_op_desc *sdp_op;
> +
> + sdp_op = &group->operation_desc->sdp_op;
> + next_group = &processor->groups[!group->id];
> +
> + /**
> + * Single LUT is shared between two SDP groups, need to make
> + * sure that usage does not conflict. Also, LUT write
> + * access is locked when SDP sub-engine is active, so delay
> + * writing LUT when another group is active.
> + */
> +
> + /**
> + * if no LUT required for current group then it can be programmed
> + * without further checks
> + */
> + if (sdp_op->lut_index == -1)
> + return 1;
> +
> + /**
> + * if same LUT is used for both groups then it can be programmed
> + * without more checks. Even if another group is active and LUT
> + * is locked, it would have been programmed by another group.
> + */
> + if (next_group->lut_index == sdp_op->lut_index)
> + return 1;
> +
> + /**
> + * if LUT index of another group is not -1 means some LUT is programmed,
> + * then do not program current LUT as we already know current LUT is not
> + * -1 and neither same as another group.
> + */
> + if (next_group->lut_index != -1)
> + return 0;
> +
> + /**
> + * if current group needs LUT different than another group and that
> + * group is not active then program it.
> + */
> + if (!next_group->active)
> + return 1;
> +
> + /**
> + * if control is here it means current group is using LUT different than
> + * another group and that group is active. Wait for another group to
> + * become idle.
> + */
> + return 0;
> +}
> +
> +void
> +dla_sdp_dump_config(struct dla_processor_group *group)
> +{
> + struct dla_sdp_op_desc *sdp_op;
> + struct dla_sdp_surface_desc *sdp_surface;
> +
> + sdp_surface = &group->surface_desc->sdp_surface;
> + sdp_op = &group->operation_desc->sdp_op;
> +}
> +
> +int
> +dla_sdp_program(struct dla_engine *engine, struct dla_processor_group *group)
> +{
> + int32_t ret;
> +
> + dla_enable_intr(engine, MASK(GLB_S_INTR_MASK_0, SDP_DONE_MASK1) |
> + MASK(GLB_S_INTR_MASK_0, SDP_DONE_MASK0));
> +
> + ret = processor_sdp_program(engine, group);
> + if (ret)
> + goto exit;
> +
> +exit:
> + return ret;
> +}
--
Thomas Zimmermann
Graphics Driver Developer
SUSE Software Solutions Germany GmbH
Maxfeldstr. 5, 90409 Nürnberg, Germany
(HRB 36809, AG Nürnberg)
Geschäftsführer: Ivo Totev
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