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Marko Mäkelä authored
Starting with the Intel Skylake microarchitecture, the PAUSE instruction latency is about 140 clock cycles instead of earlier 10. On AMD processors, the latency could be 10 or 50 clock cycles, depending on microarchitecture. Because of this big range of latency, let us scale the loops around the PAUSE instruction based on timing results at server startup. my_cpu_relax_multiplier: New variable: How many times to invoke PAUSE in a loop. Only defined for IA-32 and AMD64. my_cpu_init(): Determine with RDTSC the time to run 16 PAUSE instructions in two unrolled loops according, and based on the quicker of the two runs, initialize my_cpu_relax_multiplier. This form of calibration was suggested by Mikhail Sinyavin from Intel. LF_BACKOFF(), ut_delay(): Use my_cpu_relax_multiplier when available. ut_delay(): Define inline in my_cpu.h. UT_COMPILER_BARRIER(): Remove. This does not seem to have any effect, because in our ut_delay() implementation, no computations are being performed inside the loop. The purpose of UT_COMPILER_BARRIER() was to prohibit the compiler from reordering computations. It was not emitting any code.
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