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...are just mentioned in the PTX manual. There is no hint about what they are good for or how to use them.

Does anyone know more? Am I just missing a common concept?

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If I'm not mistaken (though I most likely am and will be corrected on this ;) ) writes to the register are essentially no-ops. –  Bart Oct 18 '12 at 2:17
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In general one specifies a bit-bucket as the destination register for an instruction when one is not interested in the register result produced by the instruction but only in the side-effect of the instruction. For example, with various microprocessors the comparison instruction is actually a pseudo-instruction that is implemented as a subtract instruction with the destination register specified as the bit-bucket, since one is interested only in the flags (conditions codes) generated as a side-effect of the subtraction. harrism already supplied example bit-bucket usage specific to PTX below. –  njuffa Oct 18 '12 at 5:40

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up vote 8 down vote accepted

Bart's comment is basically right. In more detail, as stated in the PTX ISA 3.1 manual,

For some instructions the destination operand is optional. A “bit bucket” operand denoted with an underscore (_) may be used in place of a destination register.

There is actually only one class of instruction listed in the 3.1 PTX spec for which _ is a valid destination: atom. Here are the semantics of atom:

Atomically loads the original value at location a into destination register d, performs a reduction operation with operand b and the value in location a, and stores the result of the specified operation at location a, overwriting the original value.

And there is a note for atom:

Simple reductions may be specified by using the “bit bucket” destination operand ‘_’.

So, we can construct an example:

atom.global.add.s32 _, [a], 4

This would add 4 to the signed integer at memory location a, and not return the previous value of location a in a register. So if you don't need the previous value, you can use this. I assume that the compiler would generate this for this code

atomicAdd(&a, 4);

since the return value of atomicAdd is not stored to a variable.

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Thank you for expanding on my "something something no-op something" with some actual info. Good to know. :) –  Bart Oct 18 '12 at 10:31
    
Thanks, that makes sense. And good to know the 3.1 version of the manual is out. –  Dude Oct 18 '12 at 18:01

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