On Wed, Apr 5, 2017 at 11:54 AM, Zhang, Hong <[email protected]> wrote:
> > > On Apr 5, 2017, at 10:53 AM, Jed Brown <[email protected]> wrote: > > > > "Zhang, Hong" <[email protected]> writes: > > > >> On Apr 4, 2017, at 10:45 PM, Justin Chang <[email protected]<mailto: > [email protected]>> wrote: > >> > >> So I tried the following options: > >> > >> -M 40 > >> -N 40 > >> -P 5 > >> -da_refine 1/2/3/4 > >> -log_view > >> -mg_coarse_pc_type gamg > >> -mg_levels_0_pc_type gamg > >> -mg_levels_1_sub_pc_type cholesky > >> -pc_type mg > >> -thi_mat_type baij > >> > >> Performance improved dramatically. However, Haswell still beats out KNL > but only by a little. Now it seems like MatSOR is taking some time (though > I can't really judge whether it's significant or not). Attached are the log > files. > >> > >> > >> MatSOR takes only 3% of the total time. Most of the time is spent on > PCSetUp (~30%) and PCApply (~11%). > > > > I don't see any of your conclusions in the actual data, unless you only > > looked at the smallest size that Justin tested. For example, from the > > largest problem size in Justin's logs: > > My mistake. I did not see the results for the large problem sizes. I was > talking about the data for the smallest case. > > Now I am very surprised by the performance of MatSOR: > > -da_refine 1 ~2x slower on KNL > -da_refine 2 ~2x faster on KNL > -da_refine 3 ~2x faster on KNL > -da_refine 4 almost the same > > KNL > > -da_refine 1 MatSOR 1185 1.0 2.8965e-01 1.1 7.01e+07 1.0 > 0.0e+00 0.0e+00 0.0e+00 3 41 0 0 0 3 41 0 0 0 15231 > -da_refine 2 MatSOR 1556 1.0 1.6883e+00 1.0 5.82e+08 1.0 > 0.0e+00 0.0e+00 0.0e+00 11 44 0 0 0 11 44 0 0 0 22019 > -da_refine 3 MatSOR 2240 1.0 1.4959e+01 1.0 5.51e+09 1.0 > 0.0e+00 0.0e+00 0.0e+00 22 45 0 0 0 22 45 0 0 0 23571 > -da_refine 4 MatSOR 2688 1.0 2.3942e+02 1.1 4.47e+10 1.0 > 0.0e+00 0.0e+00 0.0e+00 36 45 0 0 0 36 45 0 0 0 11946 > > > Haswell > -da_refine 1 MatSOR 1167 1.0 1.4839e-01 1.1 1.42e+08 1.0 > 0.0e+00 0.0e+00 0.0e+00 3 42 0 0 0 3 42 0 0 0 30450 > -da_refine 2 MatSOR 1532 1.0 2.9772e+00 1.0 1.17e+09 1.0 > 0.0e+00 0.0e+00 0.0e+00 28 44 0 0 0 28 44 0 0 0 12539 > -da_refine 3 MatSOR 1915 1.0 2.7142e+01 1.1 9.51e+09 1.0 > 0.0e+00 0.0e+00 0.0e+00 45 45 0 0 0 45 45 0 0 0 11216 > -da_refine 4 MatSOR 2262 1.0 2.2116e+02 1.1 7.56e+10 1.0 > 0.0e+00 0.0e+00 0.0e+00 48 45 0 0 0 48 45 0 0 0 10936 > SOR should track memory bandwidth, so it seems to me either a) We fell out of MCDRAM or b) We saturated the KNL node, but not the Haswell configuration I think these are all runs with identical parallelism, so its not b). Justin, did you tell it to fall back to DRAM, or fail? Thanks, Matt > Hong (Mr.) > > > > KNL: > > MatSOR 2688 1.0 2.3942e+02 1.1 4.47e+10 1.0 0.0e+00 0.0e+00 > 0.0e+00 36 45 0 0 0 36 45 0 0 0 11946 > > KSPSolve 8 1.0 4.3837e+02 1.0 9.87e+10 1.0 1.5e+06 8.8e+03 > 5.0e+03 68 99 98 61 98 68 99 98 61 98 14409 > > SNESSolve 1 1.0 6.1583e+02 1.0 9.95e+10 1.0 1.6e+06 1.4e+04 > 5.1e+03 96100100100 99 96100100100 99 10338 > > SNESFunctionEval 9 1.0 3.8730e+01 1.0 0.00e+00 0.0 9.2e+03 3.2e+04 > 0.0e+00 6 0 1 1 0 6 0 1 1 0 0 > > SNESJacobianEval 40 1.0 1.5628e+02 1.0 0.00e+00 0.0 4.4e+04 2.5e+05 > 1.4e+02 24 0 3 49 3 24 0 3 49 3 0 > > PCSetUp 16 1.0 3.4525e+01 1.0 6.52e+07 1.0 2.8e+05 1.0e+04 > 3.8e+03 5 0 18 13 74 5 0 18 13 74 119 > > PCSetUpOnBlocks 60 1.0 9.5716e-01 1.1 1.41e+05 0.0 0.0e+00 0.0e+00 > 0.0e+00 0 0 0 0 0 0 0 0 0 0 0 > > PCApply 60 1.0 3.8705e+02 1.0 9.32e+10 1.0 1.2e+06 8.0e+03 > 1.1e+03 60 94 79 45 21 60 94 79 45 21 15407 > > MatMult 2860 1.0 1.4578e+02 1.1 4.92e+10 1.0 1.2e+06 8.8e+03 > 0.0e+00 21 49 77 48 0 21 49 77 48 0 21579 > > > > Haswell: > > MatSOR 2262 1.0 2.2116e+02 1.1 7.56e+10 1.0 0.0e+00 0.0e+00 > 0.0e+00 48 45 0 0 0 48 45 0 0 0 10936 > > KSPSolve 7 1.0 3.5937e+02 1.0 1.67e+11 1.0 6.7e+05 1.3e+04 > 4.5e+03 81 99 98 60 98 81 99 98 60 98 14828 > > SNESSolve 1 1.0 4.3749e+02 1.0 1.68e+11 1.0 6.8e+05 2.1e+04 > 4.5e+03 99100100100 99 99100100100 99 12280 > > SNESFunctionEval 8 1.0 1.5460e+01 1.0 0.00e+00 0.0 4.1e+03 4.7e+04 > 0.0e+00 3 0 1 1 0 3 0 1 1 0 0 > > SNESJacobianEval 35 1.0 6.8994e+01 1.0 0.00e+00 0.0 1.9e+04 3.8e+05 > 1.3e+02 16 0 3 50 3 16 0 3 50 3 0 > > PCSetUp 14 1.0 1.0860e+01 1.0 1.15e+08 1.0 1.3e+05 1.4e+04 > 3.4e+03 2 0 19 13 74 2 0 19 13 74 335 > > PCSetUpOnBlocks 50 1.0 4.5601e-02 1.6 2.89e+05 0.0 0.0e+00 0.0e+00 > 0.0e+00 0 0 0 0 0 0 0 0 0 0 6 > > PCApply 50 1.0 3.3545e+02 1.0 1.57e+11 1.0 5.3e+05 1.2e+04 > 9.7e+02 75 94 77 44 21 75 94 77 44 21 15017 > > MatMult 2410 1.0 1.2050e+02 1.1 8.28e+10 1.0 5.1e+05 1.3e+04 > 0.0e+00 27 49 75 46 0 27 49 75 46 0 21983 > > > >> If ex48 has SSE2 intrinsics, does that mean Haswell would almost always > be better? > >> > >> The Jacobian evaluation (which has SSE2 intrinsics) on Haswell is about > two times as fast as on KNL, but it eats only 3%-4% of the total time. > > > > SNESJacobianEval alone accounts for 90 seconds of the 180 second > > difference between KNL and Haswell. > > > >> According to your logs, the compute-intensive kernels such as MatMult, > >> MatSOR, PCApply run faster (~2X) on Haswell. > > > > They run almost the same speed. > > > >> But since the setup time dominates in this test, > > > > It doesn't dominate on the larger sizes. > > > >> Haswell would not show much benefit. If you increase the problem size, > >> it could be expected that the performance gap would also increase. > > > > Backwards. Haswell is great for low latency on small problem sizes > > while KNL offers higher theoretical throughput (often not realized due > > to lack of vectorization) for sufficiently large problem sizes > > (especially if they don't fit in Haswell L3 cache but do fit in MCDRAM). > > -- What most experimenters take for granted before they begin their experiments is infinitely more interesting than any results to which their experiments lead. -- Norbert Wiener
