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Date: Tue, 14 Jan 2014 14:22:23 -0500
From: Austin S Hemmelgarn <ahferroin7@...il.com>
To: Eric Dumazet <eric.dumazet@...il.com>,
Hannes Frederic Sowa <hannes@...essinduktion.org>
CC: netdev@...r.kernel.org, dborkman@...hat.com,
linux-kernel@...r.kernel.org, darkjames-ws@...kjames.pl
Subject: Re: [PATCH RFC] reciprocal_divide: correction/update of the algorithm
On 2014-01-14 13:07, Eric Dumazet wrote:
> On Mon, 2014-01-13 at 22:42 +0100, Hannes Frederic Sowa wrote:
>> This patch is a RFC and part of a series Daniel Borkmann and me want to
>> do when introducing prandom_u32_range{,_ro} and prandom_u32_max{,_ro}
>> helpers later this week.
>
>> -static inline u32 reciprocal_divide(u32 A, u32 R)
>> +struct reciprocal_value reciprocal_value(u32 d);
>> +
>> +static inline u32 reciprocal_divide(u32 a, struct reciprocal_value R)
>> {
>> - return (u32)(((u64)A * R) >> 32);
>> + u32 t = (u32)(((u64)a * R.m) >> 32);
>> + return (t + ((a - t) >> R.sh1)) >> R.sh2;
>> }
>
> I would rather introduce new helpers and convert users that really need
> them.
>
> For instance, just use a divide in BPF, because doing this on JIT might
> be too complex for the gains. Strangely, libpcap doesn't seem to
> optimize any divide, like divides by a power of two...
>
> Reciprocal were added 7 years ago, for very specific uses, but current
> cpus have reasonably fast dividers.
I disagree with the statement that current CPU's have reasonably fast
dividers. A lot of embedded processors and many low-end x86 CPU's do
not in-fact have any hardware divider, and usually provide it using
microcode based emulation if they provide it at all. The AMD Jaguar
micro-architecture in particular comes to mind, it uses an iterative
division algorithm provided by the microcode that only produces 2 bits
of quotient per cycle, even in the best case (2 8-bit integers and an
integral 8-bit quotient) this still takes 4 cycles, which is twice as
slow as any other math operation on the same processor.
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