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I am writing a massively parallel GPU application using CUDA. I have been optimizing it by hand. I received a 20% performance increase with __fdividef_(x, y), and according to The Cuda C Programming Guide (section C.2.1), using similar functions for multiplication and adding is also beneficial.

The function is stated as this: __fmul_[rn,rz,ru,rd](x,y).

__fdividef(x,y) was not stated with the arguments in brackets. I was wondering, what are those brackets?

If I run the simple code:

int t = __fmul_(5,4);

I get a compiler error about how __fmul_ is undefined. I have the CUDA runtime included, so I don't think it is a setup thing; rather it is something to do with those square brackets. How do I correctly use this function? Thank you.

EDIT: I should clarify, the compiler is the CUDA-compiler NVCC.

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2 Answers 2

up vote 3 down vote accepted

You should specify rounding mode with ru (rounding up) or rd (rounding down). There is no function __fmul_ but available function signatures are __fmul_rd or __fmul_ru.

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If I am using this to replace the usual '*' (asterisk syntax), and I want to retain all precision (single precision floats), what should I specify? –  Eric Thoma Jun 16 '12 at 21:22
    
This functions are IEEE-compliant. –  cuda.geek Jun 16 '12 at 21:45
1  
The brackets indicate a list from which one must chose one item. The actual intrinsics are called __fmul_rn(), __fmul_rz(), __fmul_ru(), and __fmul_rd(). To replace the normal multiplication operator for single-precision computation, you would want to use __fmul_rn(). That is a multiplication with rounding to "nearest of even", which is what the multiplication operator maps to. To replace a double-precision multiplication operator, you would want to use __dmul_rn() instead. The other IEEE rounding modes are supported for special purposes, for example interval arithmetic. –  njuffa Jun 18 '12 at 17:41

CUDA Programming Guide explains the suffixes:

  • _rd: round down.
  • _rn: round to nearest even.
  • _ru: round up.
  • _rz: round towards zero.

See CUDA's Single Precision Intrinsics documentation for details on these functions.

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