864c28cf81
optimization. This fixes building with gcc-4.2.1 (it doesn't support SSE4). gas-2.17.50 [FreeBSD] supports SSE4 instructions, so this doesn't need using .byte directives. This fixes depending on host user headers in the kernel. Fix user includes (don't depend on namespace pollution in <nmmintrin.h> that is not included now). The instrinsics had no advantages except to sometimes avoid compiler pessimixations. clang understands them a bit better than inline asm, and generates better looking code which also runs better for cem, but for me it just at the same speed or slower by doing excessive unrollowing in all the wrong places. gcc-4.2.1 also doesn't understand what it is doing with unrolling, but with -O3 somehow it does more unrolling that helps. Reduce 1 of the the compiler pessimizations (copying a variable which already satisfies an "rm" constraint in a good way by being in memory and not used again, to different memory and accessing it there. Force copying it to a register instead). Try to optimize the inner loops significantly, so as to run at full speed on smaller inputs. The algorithm is already very MD, and was tuned for the throughput of 3 crc32 instructions per cycle found on at least Sandybridge through Haswell. Now it is even more tuned for this, so depends more on the compiler not rearranging or unrolling things too much. The main inner loop for should have no difficulty runing at full speed on these CPUs unless the compiler unrolls it too much. However, the main inner loop wasn't even used for buffers smaller than 24K. Now it is used for buffers larger than 384 bytes. Now it is not so long, and the main outer loop is used more. The new optimization is to try to arrange that the outer loop runs in parallel with the next inner loop except for the final iteration; then reduce the loop sizes significantly to take advantage of this. Approved by: cem Not tested in production by: bde |
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crc32_sse42.c |