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Assuming that in some C or C++ code I have a function named T fma( T a, T b, T c ) that performs 1 multiplication and 1 addition like so ( a * b ) + c ; how I'm supposed to optimize multiple mul & add steps ?

For example my algorithm needs to be implemented with 3 or 4 fma operations chained and summed together, How I can write this is an efficient way and at what part of the syntax or semantics I should dedicate particular attention ?

I also would like some hints on the critical part: avoid changing the rounding mode for the CPU to avoid flushing the cpu pipeline. But I'm quite sure that just using the + operation between multiple calls to fma shouldn't change that, I'm saying "quite sure" because I don't have too many CPUs to test this, I'm just following some logical steps.

My algorithm is something like the total of multiple fma calls

fma ( triplet 1 ) + fma ( triplet 2 ) + fma ( triplet 3 )
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It's not quite clear what you're asking about here. Presumably this is entirely down to what your particular compiler chooses to do? – Oliver Charlesworth May 17 '14 at 10:45
@OliCharlesworth can you outline the part that is unclear ? – user2485710 May 17 '14 at 10:48
What I just said ;) It's not clear how to answer this question, because (unless I'm missing something) this is entirely down to your particular compiler and hardware. I don't see what an generic answer to this question would look like. – Oliver Charlesworth May 17 '14 at 10:49
@OliCharlesworth ok, gcc 4.9.0 and an sse2 capable CPU are my minimum target right now. – user2485710 May 17 '14 at 10:51
Are you talking about the FMA instructions found on recent AMD and Intel (Haswell) CPUs ? – Paul R May 17 '14 at 10:59

Recently, in Build 2014 Eric Brumer gave a very nice talk on the topic (see here). The bottom line of talk was that

Using Fused Multiply Accumulate (aka FMA) everywhere hurts performance.

In Intel CPUs a FMA instruction costs 5 cycles. Instead doing a multiplication (5 cycles) and an addition (3 cycles) costs 8 cycles. Using FMA your are getting two operations in the prize of one (see picture below).

enter image description here

However, FMA seems not to be the holly grail of instructions. As you can see in the picture below FMA can in certain citations hurt the performance.

enter image description here

In the same fashion, your case fma(triplet1) + fma(triplet2) + fma(triplet 3) costs 21 cycles whereas if you were to do the same operations with out FMA would cost 30 cycles. That's a 30% gain in performance.

Using FMA in your code would demand using compiler intrinsics. In my humble opinion though, FMA etc. is not something you should be worried about, unless you are a C++ compiler programmer. If your are not, let the compiler optimization take care of these technicalities. Generally, under such kind of concerns lies the root of all evil (i.e., premature optimization), to paraphrase one of the great ones (i.e., Donald Knuth).

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That’s an rather naive and misleading example. I'm a bit shocked that it came from a compiler engineer. In performance-critical code, latency is rarely the primary bottleneck. While ab + cd has lower latency than fma(a,b,cd), it requires three µops instead of two, which limits it to 2/3rds the performance in much more common throughput-dominated contexts. There is a reasonable objection to this transformation, but it is one involving *numerical details, not performance. – Stephen Canon May 21 '14 at 10:31

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