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| author | Chris Wilson <chris@chris-wilson.co.uk> | 2017-05-10 13:07:43 +0100 |
|---|---|---|
| committer | Chris Wilson <chris@chris-wilson.co.uk> | 2017-05-10 14:10:22 +0100 |
| commit | 43f6fceef90149872011bdf2aeaabcae585ec654 (patch) | |
| tree | 6b1d281e613ce72dcd63e001c82a911cee711a3d /benchmarks/gem_wsim.c | |
| parent | 04e38c31f92d8ad538077049b5dce4a172aedc50 (diff) | |
wsim: Use a loop over engines to calculate RT
Simple code tidy to reduce some duplication.
Signed-off-by: Chris Wilson <chris@chris-wilson.co.uk>
Diffstat (limited to 'benchmarks/gem_wsim.c')
| -rw-r--r-- | benchmarks/gem_wsim.c | 95 |
1 files changed, 36 insertions, 59 deletions
diff --git a/benchmarks/gem_wsim.c b/benchmarks/gem_wsim.c index 82d5e708..fe1c8f73 100644 --- a/benchmarks/gem_wsim.c +++ b/benchmarks/gem_wsim.c @@ -902,7 +902,7 @@ __rt_balance(const struct workload_balancer *balancer, struct workload *wrk, struct w_step *w, bool random) { unsigned long qd[NUM_ENGINES]; - struct rt_depth results; + unsigned int engine; igt_assert(w->engine == VCS); @@ -912,31 +912,22 @@ __rt_balance(const struct workload_balancer *balancer, * all batches on that engine, plus the time we expect this batch to * take. We try to keep the total balanced between the engines. */ - get_rt_depth(wrk, VCS1, &results); - qd[VCS1] = wrk->seqno[VCS1] - results.seqno; - wrk->qd_sum[VCS1] += qd[VCS1]; - qd[VCS1] = (qd[VCS1] + 1) * (results.completed - results.submitted); -#ifdef DEBUG - printf("qd[0] = %d (%d - %d) x %d (%d - %d) = %ld\n", - wrk->seqno[VCS1] - wrk->status_page[0], - wrk->seqno[VCS1], wrk->status_page[0], - wrk->status_page[2] - wrk->status_page[1], - wrk->status_page[2], wrk->status_page[1], - qd[VCS1]); -#endif + for (engine = VCS1; engine <= VCS2; engine++) { + struct rt_depth rt; - get_rt_depth(wrk, VCS2, &results); - qd[VCS2] = wrk->seqno[VCS2] - results.seqno; - wrk->qd_sum[VCS2] += qd[VCS2]; - qd[VCS2] = (qd[VCS2] + 1) * (results.completed - results.submitted); + get_rt_depth(wrk, engine, &rt); + qd[engine] = wrk->seqno[engine] - rt.seqno; + wrk->qd_sum[engine] += qd[engine]; + qd[engine] = (qd[engine] + 1) * (rt.completed - rt.submitted); #ifdef DEBUG - printf("qd[1] = %d (%d - %d) x %d (%d - %d) = %ld\n", - wrk->seqno[VCS2] - wrk->status_page[16], - wrk->seqno[VCS2], wrk->status_page[16], - wrk->status_page[18] - wrk->status_page[17], - wrk->status_page[18], wrk->status_page[17], - qd[VCS2]); + printf("qd[0] = %d (%d - %d) x %d (%d - %d) = %ld\n", + wrk->seqno[engine] - rt.seqno, + wrk->seqno[engine], rt.seqno, + rt.completed - rt.submitted, + rt.completed, rt.submitted, + qd[engine]); #endif + } return __rt_select_engine(wrk, qd, random); } @@ -961,7 +952,7 @@ rtavg_balance(const struct workload_balancer *balancer, struct workload *wrk, struct w_step *w) { unsigned long qd[NUM_ENGINES]; - struct rt_depth results; + unsigned int engine; igt_assert(w->engine == VCS); @@ -971,45 +962,31 @@ rtavg_balance(const struct workload_balancer *balancer, * all batches on that engine plus the time we expect to execute in. * We try to keep the total remaining balanced between the engines. */ - get_rt_depth(wrk, VCS1, &results); - if (results.seqno != wrk->rt.last[VCS1]) { - igt_assert((long)(results.completed - results.submitted) > 0); - ewma_rt_add(&wrk->rt.avg[VCS1], - results.completed - results.submitted); - wrk->rt.last[VCS1] = results.seqno; - } - qd[VCS1] = wrk->seqno[VCS1] - results.seqno; - wrk->qd_sum[VCS1] += qd[VCS1]; - qd[VCS1] = (qd[VCS1] + 1) * ewma_rt_read(&wrk->rt.avg[VCS1]); + for (engine = VCS1; engine <= VCS2; engine++) { + struct rt_depth rt; + + get_rt_depth(wrk, engine, &rt); + if (rt.seqno != wrk->rt.last[engine]) { + igt_assert((long)(rt.completed - rt.submitted) > 0); + ewma_rt_add(&wrk->rt.avg[engine], + rt.completed - rt.submitted); + wrk->rt.last[engine] = rt.seqno; + } + qd[engine] = wrk->seqno[engine] - rt.seqno; + wrk->qd_sum[engine] += qd[engine]; + qd[engine] = + (qd[engine] + 1) * ewma_rt_read(&wrk->rt.avg[engine]); #ifdef DEBUG - printf("qd[0] = %d (%d - %d) x %ld (%d) = %ld\n", - wrk->seqno[VCS1] - wrk->status_page[0], - wrk->seqno[VCS1], wrk->status_page[0], - ewma_rt_read(&wrk->rt.avg[VCS1]), - wrk->status_page[2] - wrk->status_page[1], - qd[VCS1]); + printf("qd[%d] = %d (%d - %d) x %ld (%d) = %ld\n", + engine, + wrk->seqno[engine] - rt.seqno, + wrk->seqno[engine], rt.seqno, + ewma_rt_read(&wrk->rt.avg[engine]), + rt.completed - rt.submitted, + qd[engine]); #endif - - get_rt_depth(wrk, VCS2, &results); - if (results.seqno != wrk->rt.last[VCS2]) { - igt_assert((long)(results.completed - results.submitted) > 0); - ewma_rt_add(&wrk->rt.avg[VCS2], - results.completed - results.submitted); - wrk->rt.last[VCS2] = results.seqno; } - qd[VCS2] = wrk->seqno[VCS2] - results.seqno; - wrk->qd_sum[VCS2] += qd[VCS2]; - qd[VCS2] = (qd[VCS2] + 1) * ewma_rt_read(&wrk->rt.avg[VCS2]); - -#ifdef DEBUG - printf("qd[1] = %d (%d - %d) x %ld (%d) = %ld\n", - wrk->seqno[VCS2] - wrk->status_page[16], - wrk->seqno[VCS2], wrk->status_page[16], - ewma_rt_read(&wrk->rt.avg[VCS2]), - wrk->status_page[18] - wrk->status_page[17], - qd[VCS2]); -#endif return __rt_select_engine(wrk, qd, false); } |