Yes, the .X
stands for eXtended precision. You will see IADD.X
used together with IADD.CC
, where the latter adds the less significant bits, and produces a carry flag (thus the .CC
), and this carry flag is then incorporated into addition of the more significant bits performed by IADD.X
.
Since NVIDIA GPUs are basically 32-bit processors with 64-bit addressing capability, a frequent use of this idiom is in address (pointer) arithmetic. The use of 64-bit integer types, such as long long int
or uint64_t
will likewise lead to the use of these instructions.
Here is a worked example of a kernel doing 64-bit integer addition. This CUDA code was compiled for compute capability 3.5 with CUDA 7.5, and the machine code dumped with cuobjdump --dump-sass
.
__global__ void addint64 (long long int a, long long int b, long long int *res)
{
*res = a + b;
}
MOV R1, c[0x0][0x44];
MOV R2, c[0x0][0x148]; // b[31:0]
MOV R0, c[0x0][0x14c]; // b[63:32]
IADD R4.CC, R2, c[0x0][0x140]; // tmp[31:0] = b[31:0] + a[31:0]; carry-out
MOV R2, c[0x0][0x150]; // res[31:0]
MOV R3, c[0x0][0x154]; // res[63:32]
IADD.X R5, R0, c[0x0][0x144]; // tmp[63:32] = b[63:32] + a[63:32] + carry-in
ST.E.64 [R2], R4; // [res] = tmp[63:0]
EXIT