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Description of hardware operation --------------------------------- The core AMD PMU has a 4-bit wide per-cycle increment for each performance monitor counter. That works for most events, but now with AMD Family 17h and above processors, some events can occur more than 15 times in a cycle. Those events are called "Large Increment per Cycle" events. In order to count these events, two adjacent h/w PMCs get their count signals merged to form 8 bits per cycle total. In addition, the PERF_CTR count registers are merged to be able to count up to 64 bits. Normally, events like instructions retired, get programmed on a single counter like so: PERF_CTL0 (MSR 0xc0010200) 0x000000000053ff0c # event 0x0c, umask 0xff PERF_CTR0 (MSR 0xc0010201) 0x0000800000000001 # r/w 48-bit count The next counter at MSRs 0xc0010202-3 remains unused, or can be used independently to count something else. When counting Large Increment per Cycle events, such as FLOPs, however, we now have to reserve the next counter and program the PERF_CTL (config) register with the Merge event (0xFFF), like so: PERF_CTL0 (msr 0xc0010200) 0x000000000053ff03 # FLOPs event, umask 0xff PERF_CTR0 (msr 0xc0010201) 0x0000800000000001 # rd 64-bit cnt, wr lo 48b PERF_CTL1 (msr 0xc0010202) 0x0000000f004000ff # Merge event, enable bit PERF_CTR1 (msr 0xc0010203) 0x0000000000000000 # wr hi 16-bits count The count is widened from the normal 48-bits to 64 bits by having the second counter carry the higher 16 bits of the count in its lower 16 bits of its counter register. The odd counter, e.g., PERF_CTL1, is programmed with the enabled Merge event before the even counter, PERF_CTL0. The Large Increment feature is available starting with Family 17h. For more details, search any Family 17h PPR for the "Large Increment per Cycle Events" section, e.g., section 2.1.15.3 on p. 173 in this version: https://www.amd.com/system/files/TechDocs/56176_ppr_Family_17h_Model_71h_B0_pub_Rev_3.06.zip Description of software operation --------------------------------- The following steps are taken in order to support reserving and enabling the extra counter for Large Increment per Cycle events: 1. In the main x86 scheduler, we reduce the number of available counters by the number of Large Increment per Cycle events being scheduled, tracked by a new cpuc variable 'n_pair' and a new amd_put_event_constraints_f17h(). This improves the counter scheduler success rate. 2. In perf_assign_events(), if a counter is assigned to a Large Increment event, we increment the current counter variable, so the counter used for the Merge event is removed from assignment consideration by upcoming event assignments. 3. In find_counter(), if a counter has been found for the Large Increment event, we set the next counter as used, to prevent other events from using it. 4. We perform steps 2 & 3 also in the x86 scheduler fastpath, i.e., we add Merge event accounting to the existing used_mask logic. 5. Finally, we add on the programming of Merge event to the neighbouring PMC counters in the counter enable/disable{_all} code paths. Currently, software does not support a single PMU with mixed 48- and 64-bit counting, so Large increment event counts are limited to 48 bits. In set_period, we zero-out the upper 16 bits of the count, so the hardware doesn't copy them to the even counter's higher bits. Simple invocation example showing counting 8 FLOPs per 256-bit/%ymm vaddps instruction executed in a loop 100 million times: perf stat -e cpu/fp_ret_sse_avx_ops.all/,cpu/instructions/ <workload> Performance counter stats for '<workload>': 800,000,000 cpu/fp_ret_sse_avx_ops.all/u 300,042,101 cpu/instructions/u Prior to this patch, the reported SSE/AVX FLOPs retired count would be wrong. [peterz: lots of renames and edits to the code] Signed-off-by: Kim Phillips <kim.phillips@amd.com> Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org> |
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core.c | ||
ibs.c | ||
iommu.c | ||
iommu.h | ||
Makefile | ||
power.c | ||
uncore.c |