2 x AMD EPYC 7601 32-Core testing with a Dell 02MJ3T (1.2.5 BIOS) and Matrox Matrox G200eW3 on Ubuntu 18.04 via the Phoronix Test Suite.
Apache Benchmark This is a test of ab, which is the Apache benchmark program. This test profile measures how many requests per second a given system can sustain when carrying out 1,000,000 requests with 100 requests being carried out concurrently. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Requests Per Second, More Is Better Apache Benchmark 2.4.29 Static Web Page Serving 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 154.24, N = 12 15337 1. (CC) gcc options: -shared -fPIC -O2 -pthread
OpenBenchmarking.org Transactions Per Second, More Is Better Apache Siege 2.4.29 Concurrent Users: 50 2 x AMD EPYC 7601 4K 8K 12K 16K 20K SE +/- 32.80, N = 3 20115.43 1. (CC) gcc options: -O2 -lpthread -ldl -lssl -lcrypto
OpenBenchmarking.org Transactions Per Second, More Is Better Apache Siege 2.4.29 Concurrent Users: 100 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 184.05, N = 3 22341 1. (CC) gcc options: -O2 -lpthread -ldl -lssl -lcrypto
OpenBenchmarking.org Transactions Per Second, More Is Better Apache Siege 2.4.29 Concurrent Users: 200 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 197.55, N = 3 23063 1. (CC) gcc options: -O2 -lpthread -ldl -lssl -lcrypto
OpenBenchmarking.org Transactions Per Second, More Is Better Apache Siege 2.4.29 Concurrent Users: 250 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 118.12, N = 3 23126 1. (CC) gcc options: -O2 -lpthread -ldl -lssl -lcrypto
Blender Blender is an open-source 3D creation software project. This test is of Blender's Cycles benchmark with various sample files. GPU computing is supported. This system/blender test profile makes use of the system-supplied Blender. Use pts/blender if wishing to stick to a fixed version of Blender. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.79 Blend File: BMW27 - Compute: CPU-Only 2 x AMD EPYC 7601 14 28 42 56 70 SE +/- 0.04, N = 3 61.21
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: KASUMI - Decrypt 2 x AMD EPYC 7601 16 32 48 64 80 SE +/- 0.01, N = 3 70.29 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: AES-256 - Encrypt 2 x AMD EPYC 7601 1000 2000 3000 4000 5000 SE +/- 0.14, N = 3 4453 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: AES-256 - Decrypt 2 x AMD EPYC 7601 1000 2000 3000 4000 5000 SE +/- 0.35, N = 3 4453 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: Twofish - Encrypt 2 x AMD EPYC 7601 60 120 180 240 300 SE +/- 0.11, N = 3 283 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: Twofish - Decrypt 2 x AMD EPYC 7601 60 120 180 240 300 SE +/- 0.10, N = 3 277 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: Blowfish - Encrypt 2 x AMD EPYC 7601 50 100 150 200 250 SE +/- 0.10, N = 3 212 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: Blowfish - Decrypt 2 x AMD EPYC 7601 50 100 150 200 250 SE +/- 0.08, N = 3 211 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: CAST-256 - Encrypt 2 x AMD EPYC 7601 30 60 90 120 150 SE +/- 0.07, N = 3 112 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
OpenBenchmarking.org MiB/s, More Is Better Botan 2.6.0 Test: CAST-256 - Decrypt 2 x AMD EPYC 7601 30 60 90 120 150 SE +/- 0.07, N = 3 112 1. (CXX) g++ options: -fstack-protector -m64 -pthread -lbotan-2 -ldl -lrt
BRL-CAD BRL-CAD 7.28.0 is a cross-platform, open-source solid modeling system with built-in benchmark mode. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org VGR Performance Metric, More Is Better BRL-CAD 7.28.0 VGR Performance Metric 2 x AMD EPYC 7601 90K 180K 270K 360K 450K 428502 1. (CXX) g++ options: -std=c++98 -pipe -fno-strict-aliasing -fno-common -fexceptions -ftemplate-depth-128 -m64 -ggdb3 -O3 -fipa-pta -fstrength-reduce -finline-functions -flto -pedantic -rdynamic -lSM -lICE -lXi -lGLU -lGL -lX11 -lXext -lXrender -lpthread -ldl -lm
C-Ray This is a test of C-Ray, a simple raytracer designed to test the floating-point CPU performance. This test is multi-threaded (16 threads per core), will shoot 8 rays per pixel for anti-aliasing, and will generate a 1600 x 1200 image. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better C-Ray 1.1 Total Time - 4K, 16 Rays Per Pixel 2 x AMD EPYC 7601 4 8 12 16 20 SE +/- 0.03, N = 3 15.33 1. (CC) gcc options: -lm -lpthread -O3
OpenBenchmarking.org MB/s, More Is Better CacheBench Test: Read / Modify / Write 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 15.76, N = 3 22939 1. (CC) gcc options: -lrt
CLOMP CLOMP is the C version of the Livermore OpenMP benchmark developed to measure OpenMP overheads and other performance impacts due to threading in order to influence future system designs. This particular test profile configuration is currently set to look at the OpenMP static schedule speed-up across all available CPU cores using the recommended test configuration. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Speedup, More Is Better CLOMP 3.3 Static OMP Speedup 2 x AMD EPYC 7601 0.0405 0.081 0.1215 0.162 0.2025 SE +/- 0.01, N = 15 0.18 1. (CC) gcc options: --openmp -O3 -lm
OpenBenchmarking.org kH/s - Hash Speed, More Is Better Cpuminer-Opt 3.8.8.1 Algorithm: deep 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 3.33, N = 3 26607 1. (CXX) g++ options: -O2 -lcurl -lz -lpthread -lssl -lcrypto -lgmp
OpenBenchmarking.org kH/s - Hash Speed, More Is Better Cpuminer-Opt 3.8.8.1 Algorithm: lbry 2 x AMD EPYC 7601 14K 28K 42K 56K 70K SE +/- 666.47, N = 12 65192 1. (CXX) g++ options: -O2 -lcurl -lz -lpthread -lssl -lcrypto -lgmp
OpenBenchmarking.org kH/s - Hash Speed, More Is Better Cpuminer-Opt 3.8.8.1 Algorithm: skein 2 x AMD EPYC 7601 20K 40K 60K 80K 100K SE +/- 1293.38, N = 3 105883 1. (CXX) g++ options: -O2 -lcurl -lz -lpthread -lssl -lcrypto -lgmp
OpenBenchmarking.org kH/s - Hash Speed, More Is Better Cpuminer-Opt 3.8.8.1 Algorithm: myr-gr 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 8.00, N = 3 6319 1. (CXX) g++ options: -O2 -lcurl -lz -lpthread -lssl -lcrypto -lgmp
OpenBenchmarking.org kH/s - Hash Speed, More Is Better Cpuminer-Opt 3.8.8.1 Algorithm: sha256t 2 x AMD EPYC 7601 30K 60K 90K 120K 150K SE +/- 8.82, N = 3 158933 1. (CXX) g++ options: -O2 -lcurl -lz -lpthread -lssl -lcrypto -lgmp
OpenBenchmarking.org ms Average, Fewer Is Better Cyclictest 0.84 Test Case: POSIX Timer, Interval 10000 ms, 10000 Loops 2 x AMD EPYC 7601 0.675 1.35 2.025 2.7 3.375 3 1. (CC) gcc options: -O2 -lrt -lpthread -lrttest
OpenBenchmarking.org ms Average, Fewer Is Better Cyclictest 0.84 Test Case: clock_nanosleep TIME_ABSTIME, Interval 500 ms, 100000 Loops 2 x AMD EPYC 7601 0.225 0.45 0.675 0.9 1.125 1 1. (CC) gcc options: -O2 -lrt -lpthread -lrttest
OpenBenchmarking.org ms Average, Fewer Is Better Cyclictest 0.84 Test Case: clock_nanosleep TIME_ABSTIME, Interval 10000 ms, 10000 Loops 2 x AMD EPYC 7601 0.45 0.9 1.35 1.8 2.25 2 1. (CC) gcc options: -O2 -lrt -lpthread -lrttest
FFTE FFTE is a package by Daisuke Takahashi to compute Discrete Fourier Transforms of 1-, 2- and 3- dimensional sequences of length (2^p)*(3^q)*(5^r). Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org MFLOPS, More Is Better FFTE 6.0 Test: N=256, 1D Complex FFT Routine 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 18.19, N = 3 6672 1. (F9X) gfortran options: -O3 -fomit-frame-pointer -fopenmp -pthread -lmpi_usempif08 -lmpi_mpifh -lmpi
FFTW FFTW is a C subroutine library for computing the discrete Fourier transform (DFT) in one or more dimensions. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 32 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 131.43, N = 12 7038 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 64 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 0.75, N = 3 6632 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 32 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 5.82, N = 3 9494 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 64 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 13.28, N = 3 6707 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 128 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 13.41, N = 3 6525 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 256 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 15.91, N = 3 7052 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 512 2 x AMD EPYC 7601 1600 3200 4800 6400 8000 SE +/- 1.50, N = 3 7252 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 128 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 20.45, N = 3 6792 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 256 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 47.04, N = 3 6616 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 512 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 15.20, N = 3 6584 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 1024 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 24.26, N = 3 7217 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 2048 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 8.14, N = 3 7019 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 1D FFT Size 4096 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 19.76, N = 3 6775 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 1024 2 x AMD EPYC 7601 1200 2400 3600 4800 6000 SE +/- 41.11, N = 3 5415 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 2048 2 x AMD EPYC 7601 1000 2000 3000 4000 5000 SE +/- 58.79, N = 3 4875 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Stock - Size: 2D FFT Size 4096 2 x AMD EPYC 7601 1000 2000 3000 4000 5000 SE +/- 38.09, N = 3 4818 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 32 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 15.18, N = 3 10804 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 64 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 20.20, N = 3 13990 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 32 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 8.72, N = 3 26264 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 64 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 183.38, N = 3 25531 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 128 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 24.73, N = 3 16189 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 256 2 x AMD EPYC 7601 4K 8K 12K 16K 20K SE +/- 43.02, N = 3 20398 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 512 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 1.15, N = 3 25099 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 128 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 379.63, N = 3 24713 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 256 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 6.24, N = 3 21849 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 512 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 94.42, N = 3 22308 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 1024 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 87.07, N = 3 26996 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 2048 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 129.26, N = 3 27442 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 1D FFT Size 4096 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 33.05, N = 3 27096 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 1024 2 x AMD EPYC 7601 4K 8K 12K 16K 20K SE +/- 49.97, N = 3 19931 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 2048 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 117.04, N = 3 13100 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
OpenBenchmarking.org Mflops, More Is Better FFTW 3.3.6 Build: Float + SSE - Size: 2D FFT Size 4096 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 51.21, N = 3 12703 1. (CC) gcc options: -pthread -O3 -fomit-frame-pointer -mtune=native -malign-double -fstrict-aliasing -fno-schedule-insns -ffast-math -lm
Fhourstones This integer benchmark solves positions in the game of Connect-4, as played on a vertical 7x6 board. By default, it uses a 64Mb transposition table with the twobig replacement strategy. Positions are represented as 64-bit bitboards, and the hash function is computed using a single 64-bit modulo operation, giving 64-bit machines a slight edge. The alpha-beta searcher sorts moves dynamically based on the history heuristic. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Kpos / sec, More Is Better Fhourstones 3.1 Complex Connect-4 Solving 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 5.85, N = 3 9851 1. (CC) gcc options: -O3
Git This test measures the time needed to carry out some sample Git operations on an example, static repository that happens to be a copy of the GNOME GTK tool-kit repository. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Git Time To Complete Common Git Commands 2 x AMD EPYC 7601 2 4 6 8 10 SE +/- 0.08, N = 3 7.48 1. git version 2.17.1
glibc bench The GNU C Library project provides the core libraries for the GNU system and GNU/Linux systems, as well as many other systems that use Linux as the kernel. These libraries provide critical APIs including ISO C11, POSIX.1-2008, BSD, OS-specific APIs and more.
Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org nanoseconds, Fewer Is Better glibc bench 1.0 Benchmark: cos 2 x AMD EPYC 7601 30K 60K 90K 120K 150K SE +/- 112.33, N = 3 119070
OpenBenchmarking.org Seconds, Fewer Is Better GnuPG 1.4.22 2GB File Encryption 2 x AMD EPYC 7601 4 8 12 16 20 SE +/- 0.02, N = 3 15.67 1. (CC) gcc options: -O2 -MT -MD -MP -MF
OpenBenchmarking.org Nanoseconds/Operation, Fewer Is Better Go Benchmarks Test: build 2 x AMD EPYC 7601 5000M 10000M 15000M 20000M 25000M SE +/- 246517253.46, N = 3 22511142418
GraphicsMagick This is a test of GraphicsMagick with its OpenMP implementation that performs various imaging tests to stress the system's CPU. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: Swirl 2 x AMD EPYC 7601 40 80 120 160 200 196 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: Rotate 2 x AMD EPYC 7601 40 80 120 160 200 192 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: Sharpen 2 x AMD EPYC 7601 40 80 120 160 200 SE +/- 0.33, N = 3 181 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: Enhanced 2 x AMD EPYC 7601 40 80 120 160 200 SE +/- 0.67, N = 3 188 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: Resizing 2 x AMD EPYC 7601 30 60 90 120 150 SE +/- 2.33, N = 3 139 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: Noise-Gaussian 2 x AMD EPYC 7601 40 80 120 160 200 180 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Iterations Per Minute, More Is Better GraphicsMagick 1.3.30 Operation: HWB Color Space 2 x AMD EPYC 7601 50 100 150 200 250 SE +/- 0.58, N = 3 211 1. (CC) gcc options: -fopenmp -O2 -pthread -ljbig -lwebp -lwebpmux -ltiff -ljpeg -lXext -lSM -lICE -lX11 -llzma -lbz2 -lz -lm -lgomp -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 2 - Type: Thread 2 x AMD EPYC 7601 1.2083 2.4166 3.6249 4.8332 6.0415 SE +/- 0.09, N = 12 5.37 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 4 - Type: Thread 2 x AMD EPYC 7601 2 4 6 8 10 SE +/- 0.03, N = 3 8.37 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 8 - Type: Thread 2 x AMD EPYC 7601 4 8 12 16 20 SE +/- 0.21, N = 3 13.72 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 1 - Type: Process 2 x AMD EPYC 7601 0.9495 1.899 2.8485 3.798 4.7475 SE +/- 0.17, N = 10 4.22 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 16 - Type: Thread 2 x AMD EPYC 7601 7 14 21 28 35 SE +/- 0.56, N = 12 29.08 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 2 - Type: Process 2 x AMD EPYC 7601 1.08 2.16 3.24 4.32 5.4 SE +/- 0.07, N = 3 4.80 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 4 - Type: Process 2 x AMD EPYC 7601 2 4 6 8 10 SE +/- 0.09, N = 3 6.83 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 8 - Type: Process 2 x AMD EPYC 7601 3 6 9 12 15 SE +/- 0.23, N = 12 9.03 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 16 - Type: Process 2 x AMD EPYC 7601 5 10 15 20 25 SE +/- 0.04, N = 3 20.73 1. (CC) gcc options: -lpthread
OpenBenchmarking.org Seconds, Fewer Is Better Hackbench Count: 32 - Type: Process 2 x AMD EPYC 7601 9 18 27 36 45 SE +/- 0.55, N = 12 39.19 1. (CC) gcc options: -lpthread
Java SciMark This test runs the Java version of SciMark 2.0, which is a benchmark for scientific and numerical computing developed by programmers at the National Institute of Standards and Technology. This benchmark is made up of Fast Foruier Transform, Jacobi Successive Over-relaxation, Monte Carlo, Sparse Matrix Multiply, and dense LU matrix factorization benchmarks. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Mflops, More Is Better Java SciMark 2.0 Computational Test: Composite 2 x AMD EPYC 7601 400 800 1200 1600 2000 SE +/- 5.13, N = 4 1998
OpenBenchmarking.org Mflops, More Is Better LuaJIT 2.0.5 Test: Monte Carlo 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 0.04, N = 3 380 1. (CC) gcc options: -lm -ldl -O2 -fomit-frame-pointer -U_FORTIFY_SOURCE -fno-stack-protector
OpenBenchmarking.org Mflops, More Is Better LuaJIT 2.0.5 Test: Fast Fourier Transform 2 x AMD EPYC 7601 50 100 150 200 250 SE +/- 0.07, N = 3 248 1. (CC) gcc options: -lm -ldl -O2 -fomit-frame-pointer -U_FORTIFY_SOURCE -fno-stack-protector
OpenBenchmarking.org Mflops, More Is Better LuaJIT 2.0.5 Test: Sparse Matrix Multiply 2 x AMD EPYC 7601 200 400 600 800 1000 SE +/- 0.67, N = 3 922 1. (CC) gcc options: -lm -ldl -O2 -fomit-frame-pointer -U_FORTIFY_SOURCE -fno-stack-protector
OpenBenchmarking.org Mflops, More Is Better LuaJIT 2.0.5 Test: Dense LU Matrix Factorization 2 x AMD EPYC 7601 600 1200 1800 2400 3000 SE +/- 2.57, N = 3 2718 1. (CC) gcc options: -lm -ldl -O2 -fomit-frame-pointer -U_FORTIFY_SOURCE -fno-stack-protector
OpenBenchmarking.org Mflops, More Is Better LuaJIT 2.0.5 Test: Jacobi Successive Over-Relaxation 2 x AMD EPYC 7601 300 600 900 1200 1500 SE +/- 0.01, N = 3 1422 1. (CC) gcc options: -lm -ldl -O2 -fomit-frame-pointer -U_FORTIFY_SOURCE -fno-stack-protector
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: XZ 0 - Process: Decompression 2 x AMD EPYC 7601 16 32 48 64 80 74 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: Zstd 1 - Process: Compression 2 x AMD EPYC 7601 70 140 210 280 350 333 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: Zstd 1 - Process: Decompression 2 x AMD EPYC 7601 200 400 600 800 1000 SE +/- 0.33, N = 3 903 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: Brotli 0 - Process: Compression 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 1.53, N = 3 348 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: Brotli 0 - Process: Decompression 2 x AMD EPYC 7601 90 180 270 360 450 SE +/- 0.33, N = 3 395 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: Libdeflate 1 - Process: Compression 2 x AMD EPYC 7601 40 80 120 160 200 167 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MB/s, More Is Better lzbench 2017-08-08 Test: Libdeflate 1 - Process: Decompression 2 x AMD EPYC 7601 200 400 600 800 1000 801 1. (CXX) g++ options: -lrt -static -lpthread -fomit-frame-pointer -fstrict-aliasing -ffast-math -O3
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy - Array Size: 512 MiB 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 10.67, N = 3 12002 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy - Array Size: 1024 MiB 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 2.16, N = 3 11929 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy - Array Size: 4096 MiB 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 177.66, N = 4 11425 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy - Array Size: 8192 MiB 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 214.36, N = 3 11595 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy, Fixed Block Size - Array Size: 128 MiB 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 2.67, N = 3 6720 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy, Fixed Block Size - Array Size: 512 MiB 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 9.17, N = 3 6700 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy, Fixed Block Size - Array Size: 1024 MiB 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 17.04, N = 3 6968 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy, Fixed Block Size - Array Size: 4096 MiB 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 26.67, N = 3 7090 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org MiB/s, More Is Better MBW 2018-09-08 Test: Memory Copy, Fixed Block Size - Array Size: 8192 MiB 2 x AMD EPYC 7601 1500 3000 4500 6000 7500 SE +/- 15.55, N = 3 7088 1. (CC) gcc options: -O3 -march=native
Mencoder This test uses mplayer's mencoder utility and the libavcodec family for testing the system's audio/video encoding performance. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Mencoder 1.3.0 AVI To LAVC 2 x AMD EPYC 7601 5 10 15 20 25 SE +/- 0.03, N = 3 22.45 1. (CC) gcc options: -ffast-math -fpie -pie -lncurses -lrt -lpng -lz -ljpeg -lasound -ldl -lpthread -lfreetype -lfontconfig -lbz2 -lmad -lvorbisenc -lvorbis -logg -rdynamic -lm
Minion Minion is an open-source constraint solver that is designed to be very scalable. This test profile uses Minion's integrated benchmarking problems to solve. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Minion 1.8 Benchmark: Graceful 2 x AMD EPYC 7601 13 26 39 52 65 SE +/- 0.05, N = 3 56.80 1. (CXX) g++ options: -std=gnu++11 -O3 -fomit-frame-pointer -rdynamic
OpenBenchmarking.org Seconds, Fewer Is Better Minion 1.8 Benchmark: Solitaire 2 x AMD EPYC 7601 20 40 60 80 100 SE +/- 0.33, N = 3 88.38 1. (CXX) g++ options: -std=gnu++11 -O3 -fomit-frame-pointer -rdynamic
OpenBenchmarking.org Seconds, Fewer Is Better Minion 1.8 Benchmark: Quasigroup 2 x AMD EPYC 7601 30 60 90 120 150 SE +/- 0.45, N = 3 145 1. (CXX) g++ options: -std=gnu++11 -O3 -fomit-frame-pointer -rdynamic
NAMD NAMD is a parallel molecular dynamics code designed for high-performance simulation of large biomolecular systems. NAMD was developed by the Theoretical and Computational Biophysics Group in the Beckman Institute for Advanced Science and Technology at the University of Illinois at Urbana-Champaign. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org days/ns, Fewer Is Better NAMD 2.13b1 ATPase Simulation - 327,506 Atoms 2 x AMD EPYC 7601 0.1015 0.203 0.3045 0.406 0.5075 SE +/- 0.00061, N = 3 0.45093
NGINX Benchmark This is a test of ab, which is the Apache Benchmark program running against nginx. This test profile measures how many requests per second a given system can sustain when carrying out 2,000,000 requests with 500 requests being carried out concurrently. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Requests Per Second, More Is Better NGINX Benchmark 1.9.9 Static Web Page Serving 2 x AMD EPYC 7601 4K 8K 12K 16K 20K SE +/- 405.75, N = 12 19530 1. (CC) gcc options: -lpthread -lcrypt -lcrypto -lz -O3 -march=native
OpenSSL OpenSSL is an open-source toolkit that implements SSL (Secure Sockets Layer) and TLS (Transport Layer Security) protocols. This test measures the RSA 4096-bit performance of OpenSSL. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Signs Per Second, More Is Better OpenSSL 1.1.1 RSA 4096-bit Performance 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 6.29, N = 3 9238 1. (CC) gcc options: -pthread -m64 -O3 -lssl -lcrypto -ldl
Opus Codec Encoding Opus is an open audio codec. Opus is a lossy audio compression format designed primarily for interactive real-time applications over the Internet. This test uses Opus-Tools and measures the time required to encode a WAV file to Opus and then to decode the generated Opus file. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Opus Codec Encoding 1.0.1 WAV, Opus Encode, Opus Decode 2 x AMD EPYC 7601 2 4 6 8 10 SE +/- 0.02, N = 5 8.92 1. (CC) gcc options: -O3 -ffast-math -fPIE -pie -logg -lm -lopus
Parboil The Parboil Benchmarks from the IMPACT Research Group at University of Illinois are a set of throughput computing applications for looking at computing architecture and compilers. Parboil test-cases support OpenMP, OpenCL, and CUDA multi-processing environments. However, at this time the test profile is just making use of the OpenMP and OpenCL test workloads. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Parboil 2.5 Test: OpenMP LBM 2 x AMD EPYC 7601 8 16 24 32 40 SE +/- 1.30, N = 12 35.62 1. (CXX) g++ options: -lm -lpthread -lgomp -O3 -ffast-math -fopenmp
OpenBenchmarking.org Seconds, Fewer Is Better Parboil 2.5 Test: OpenMP CUTCP 2 x AMD EPYC 7601 0.3915 0.783 1.1745 1.566 1.9575 SE +/- 0.06, N = 12 1.74 1. (CXX) g++ options: -lm -lpthread -lgomp -O3 -ffast-math -fopenmp
OpenBenchmarking.org Seconds, Fewer Is Better Parboil 2.5 Test: OpenMP Stencil 2 x AMD EPYC 7601 3 6 9 12 15 SE +/- 0.30, N = 12 9.69 1. (CXX) g++ options: -lm -lpthread -lgomp -O3 -ffast-math -fopenmp
OpenBenchmarking.org Seconds, Fewer Is Better Parboil 2.5 Test: OpenMP MRI Gridding 2 x AMD EPYC 7601 120 240 360 480 600 SE +/- 5.75, N = 3 534 1. (CXX) g++ options: -lm -lpthread -lgomp -O3 -ffast-math -fopenmp
PHPBench PHPBench is a benchmark suite for PHP. It performs a large number of simple tests in order to bench various aspects of the PHP interpreter. PHPBench can be used to compare hardware, operating systems, PHP versions, PHP accelerators and caches, compiler options, etc. The number of iterations used is 1,000,000. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Score, More Is Better PHPBench 0.8.1 PHP Benchmark Suite 2 x AMD EPYC 7601 90K 180K 270K 360K 450K SE +/- 3852.37, N = 3 398091
OpenBenchmarking.org Seconds, Fewer Is Better PolyBench-C 4.2 Test: Correlation Computation 2 x AMD EPYC 7601 1.2263 2.4526 3.6789 4.9052 6.1315 SE +/- 0.01, N = 3 5.45 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org Seconds, Fewer Is Better PolyBench-C 4.2 Test: 3 Matrix Multiplications 2 x AMD EPYC 7601 1.0778 2.1556 3.2334 4.3112 5.389 SE +/- 0.02, N = 3 4.79 1. (CC) gcc options: -O3 -march=native
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 10.3 Scaling: Buffer Test - Test: Normal Load - Mode: Read Write 2 x AMD EPYC 7601 1400 2800 4200 5600 7000 SE +/- 169.84, N = 8 6486 1. (CC) gcc options: -fno-strict-aliasing -fwrapv -O2 -lpgcommon -lpgport -lpq -lpthread -lrt -lcrypt -ldl -lm
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 10.3 Scaling: Buffer Test - Test: Single Thread - Mode: Read Only 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 270.75, N = 3 14812 1. (CC) gcc options: -fno-strict-aliasing -fwrapv -O2 -lpgcommon -lpgport -lpq -lpthread -lrt -lcrypt -ldl -lm
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 10.3 Scaling: Buffer Test - Test: Single Thread - Mode: Read Write 2 x AMD EPYC 7601 60 120 180 240 300 SE +/- 14.97, N = 9 253 1. (CC) gcc options: -fno-strict-aliasing -fwrapv -O2 -lpgcommon -lpgport -lpq -lpthread -lrt -lcrypt -ldl -lm
POV-Ray This is a test of POV-Ray, the Persistence of Vision Raytracer. POV-Ray is used to create 3D graphics using ray-tracing. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better POV-Ray 3.7.0.7 Trace Time 2 x AMD EPYC 7601 3 6 9 12 15 SE +/- 0.10, N = 3 12.54 1. (CXX) g++ options: -pipe -O3 -ffast-math -march=native -pthread -lSDL -lXpm -lSM -lICE -lX11 -lIlmImf -lImath -lHalf -lIex -lIexMath -lIlmThread -lpthread -ltiff -ljpeg -lpng -lz -lrt -lm -lboost_thread -lboost_system
PyBench This test profile reports the total time of the different average timed test results from PyBench. PyBench reports average test times for different functions such as BuiltinFunctionCalls and NestedForLoops, with this total result providing a rough estimate as to Python's average performance on a given system. This test profile runs PyBench each time for 20 rounds. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Milliseconds, Fewer Is Better PyBench 2018-02-16 Total For Average Test Times 2 x AMD EPYC 7601 300 600 900 1200 1500 SE +/- 3.00, N = 3 1553
OpenBenchmarking.org Requests Per Second, More Is Better Redis 4.0.8 Test: SADD 2 x AMD EPYC 7601 200K 400K 600K 800K 1000K SE +/- 1094.80, N = 3 973712 1. (CC) gcc options: -ggdb -rdynamic -lm -ldl -pthread
OpenBenchmarking.org Requests Per Second, More Is Better Redis 4.0.8 Test: LPUSH 2 x AMD EPYC 7601 200K 400K 600K 800K 1000K SE +/- 8178.47, N = 3 828204 1. (CC) gcc options: -ggdb -rdynamic -lm -ldl -pthread
OpenBenchmarking.org Requests Per Second, More Is Better Redis 4.0.8 Test: GET 2 x AMD EPYC 7601 300K 600K 900K 1200K 1500K SE +/- 2279.51, N = 3 1378051 1. (CC) gcc options: -ggdb -rdynamic -lm -ldl -pthread
OpenBenchmarking.org Requests Per Second, More Is Better Redis 4.0.8 Test: SET 2 x AMD EPYC 7601 200K 400K 600K 800K 1000K SE +/- 676.75, N = 3 876169 1. (CC) gcc options: -ggdb -rdynamic -lm -ldl -pthread
Rodinia Rodinia is a suite focused upon accelerating compute-intensive applications with accelerators. CUDA, OpenMP, and OpenCL parallel models are supported by the included applications. This profile utilizes the OpenCL and OpenMP test binaries at the moment. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Rodinia 2.4 Test: OpenMP LavaMD 2 x AMD EPYC 7601 4 8 12 16 20 SE +/- 0.29, N = 3 16.92 1. (CXX) g++ options: -O2 -lOpenCL
OpenBenchmarking.org Seconds, Fewer Is Better Rodinia 2.4 Test: OpenMP CFD Solver 2 x AMD EPYC 7601 3 6 9 12 15 SE +/- 0.39, N = 12 11.97 1. (CXX) g++ options: -O2 -lOpenCL
OpenBenchmarking.org Seconds, Fewer Is Better Rodinia 2.4 Test: OpenMP Streamcluster 2 x AMD EPYC 7601 6 12 18 24 30 SE +/- 0.92, N = 12 23.21 1. (CXX) g++ options: -O2 -lOpenCL
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 2 - Workers Per Message Thread: 4 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 5.74, N = 12 359 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 2 - Workers Per Message Thread: 6 2 x AMD EPYC 7601 70 140 210 280 350 337 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 2 - Workers Per Message Thread: 8 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 6.08, N = 3 351 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 2 2 x AMD EPYC 7601 70 140 210 280 350 SE +/- 5.36, N = 4 329 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 4 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 4.26, N = 3 349 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 6 2 x AMD EPYC 7601 80 160 240 320 400 373 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 8 2 x AMD EPYC 7601 90 180 270 360 450 SE +/- 3.53, N = 3 392 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 2 2 x AMD EPYC 7601 70 140 210 280 350 SE +/- 7.30, N = 12 324 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 4 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 2.91, N = 3 380 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 6 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 0.88, N = 3 390 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 8 2 x AMD EPYC 7601 90 180 270 360 450 SE +/- 6.39, N = 3 411 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 2 2 x AMD EPYC 7601 70 140 210 280 350 SE +/- 2.40, N = 3 337 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 4 2 x AMD EPYC 7601 80 160 240 320 400 383 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 6 2 x AMD EPYC 7601 90 180 270 360 450 SE +/- 1.20, N = 3 394 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 8 2 x AMD EPYC 7601 110 220 330 440 550 SE +/- 91.20, N = 9 497 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 2 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 1.45, N = 3 382 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 4 2 x AMD EPYC 7601 80 160 240 320 400 390 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 6 2 x AMD EPYC 7601 500 1000 1500 2000 2500 SE +/- 393.87, N = 12 2423 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 8 2 x AMD EPYC 7601 1000 2000 3000 4000 5000 SE +/- 770.45, N = 12 4442 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 2 - Workers Per Message Thread: 16 2 x AMD EPYC 7601 90 180 270 360 450 SE +/- 4.58, N = 3 414 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 2 - Workers Per Message Thread: 24 2 x AMD EPYC 7601 100 200 300 400 500 SE +/- 9.07, N = 3 453 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 2 - Workers Per Message Thread: 32 2 x AMD EPYC 7601 200 400 600 800 1000 SE +/- 298.15, N = 12 896 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 2 2 x AMD EPYC 7601 400 800 1200 1600 2000 SE +/- 742.33, N = 12 1814 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 4 2 x AMD EPYC 7601 500 1000 1500 2000 2500 SE +/- 351.21, N = 12 2377 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 6 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 524.36, N = 12 8347 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 8 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 179.77, N = 6 13707 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 16 2 x AMD EPYC 7601 90 180 270 360 450 431 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 24 2 x AMD EPYC 7601 600 1200 1800 2400 3000 SE +/- 522.74, N = 9 2601 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 4 - Workers Per Message Thread: 32 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 849.36, N = 10 11446 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 16 2 x AMD EPYC 7601 1000 2000 3000 4000 5000 SE +/- 1121.56, N = 12 4675 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 24 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 423.15, N = 12 12405 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 6 - Workers Per Message Thread: 32 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 243.83, N = 5 16141 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 16 2 x AMD EPYC 7601 1600 3200 4800 6400 8000 SE +/- 541.27, N = 12 7537 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 24 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 251.52, N = 3 14203 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 8 - Workers Per Message Thread: 32 2 x AMD EPYC 7601 5K 10K 15K 20K 25K SE +/- 636.44, N = 9 23164 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 16 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 270.48, N = 3 15579 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 24 2 x AMD EPYC 7601 10K 20K 30K 40K 50K SE +/- 153.84, N = 3 45717 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 16 - Workers Per Message Thread: 32 2 x AMD EPYC 7601 14K 28K 42K 56K 70K SE +/- 532.91, N = 3 66432 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 16 2 x AMD EPYC 7601 13K 26K 39K 52K 65K SE +/- 480.83, N = 3 62485 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 24 2 x AMD EPYC 7601 20K 40K 60K 80K 100K SE +/- 950.23, N = 3 97323 1. (CC) gcc options: -O2 -lpthread
OpenBenchmarking.org usec, 99.9th Latency Percentile, Fewer Is Better Schbench Message Threads: 32 - Workers Per Message Thread: 32 2 x AMD EPYC 7601 30K 60K 90K 120K 150K SE +/- 615.35, N = 3 123605 1. (CC) gcc options: -O2 -lpthread
SciMark This test runs the ANSI C version of SciMark 2.0, which is a benchmark for scientific and numerical computing developed by programmers at the National Institute of Standards and Technology. This test is made up of Fast Foruier Transform, Jacobi Successive Over-relaxation, Monte Carlo, Sparse Matrix Multiply, and dense LU matrix factorization benchmarks. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Composite 2 x AMD EPYC 7601 90 180 270 360 450 SE +/- 4.98, N = 3 408 1. (CC) gcc options: -lm
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Monte Carlo 2 x AMD EPYC 7601 20 40 60 80 100 SE +/- 0.02, N = 3 106 1. (CC) gcc options: -lm
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Fast Fourier Transform 2 x AMD EPYC 7601 40 80 120 160 200 SE +/- 0.79, N = 3 202 1. (CC) gcc options: -lm
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Sparse Matrix Multiply 2 x AMD EPYC 7601 110 220 330 440 550 SE +/- 6.39, N = 3 516 1. (CC) gcc options: -lm
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Dense LU Matrix Factorization 2 x AMD EPYC 7601 70 140 210 280 350 SE +/- 0.54, N = 3 328 1. (CC) gcc options: -lm
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Jacobi Successive Over-Relaxation 2 x AMD EPYC 7601 200 400 600 800 1000 SE +/- 20.13, N = 3 885 1. (CC) gcc options: -lm
Smallpt Smallpt is a C++ global illumination renderer written in less than 100 lines of code. Global illumination is done via unbiased Monte Carlo path tracing and there is multi-threading support via the OpenMP library. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Smallpt 1.0 Global Illumination Renderer; 128 Samples 2 x AMD EPYC 7601 3 6 9 12 15 SE +/- 0.09, N = 3 9.03 1. (CXX) g++ options: -fopenmp
OpenBenchmarking.org usec, Fewer Is Better Sockperf 3.4 Test: Latency Ping Pong 2 x AMD EPYC 7601 0.7718 1.5436 2.3154 3.0872 3.859 SE +/- 0.01, N = 5 3.43 1. (CXX) g++ options: --param -O3 -rdynamic -ldl -lpthread
OpenBenchmarking.org usec, Fewer Is Better Sockperf 3.4 Test: Latency Under Load 2 x AMD EPYC 7601 3 6 9 12 15 SE +/- 0.59, N = 20 13.08 1. (CXX) g++ options: --param -O3 -rdynamic -ldl -lpthread
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Bsearch 2 x AMD EPYC 7601 8K 16K 24K 32K 40K SE +/- 199.49, N = 3 36772 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Forking 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 523.80, N = 12 27546 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Hsearch 2 x AMD EPYC 7601 60K 120K 180K 240K 300K SE +/- 1312.27, N = 3 300052 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Lsearch 2 x AMD EPYC 7601 150 300 450 600 750 SE +/- 2.58, N = 3 697 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Tsearch 2 x AMD EPYC 7601 200 400 600 800 1000 SE +/- 1.76, N = 3 924 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: CPU Stress 2 x AMD EPYC 7601 3K 6K 9K 12K 15K SE +/- 136.49, N = 3 15419 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Semaphores 2 x AMD EPYC 7601 200K 400K 600K 800K 1000K SE +/- 6433.85, N = 3 965365 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Matrix Math 2 x AMD EPYC 7601 70K 140K 210K 280K 350K SE +/- 2632.20, N = 3 322567 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Vector Math 2 x AMD EPYC 7601 30K 60K 90K 120K 150K SE +/- 188.47, N = 3 135210 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Memory Copying 2 x AMD EPYC 7601 400 800 1200 1600 2000 SE +/- 14.78, N = 3 1997 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Socket Activity 2 x AMD EPYC 7601 6K 12K 18K 24K 30K SE +/- 269.96, N = 3 29947 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Context Switching 2 x AMD EPYC 7601 4M 8M 12M 16M 20M SE +/- 599624.76, N = 12 17478322 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Glibc C String Functions 2 x AMD EPYC 7601 600K 1200K 1800K 2400K 3000K SE +/- 30709.43, N = 3 2889159 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: Glibc Qsort Data Sorting 2 x AMD EPYC 7601 160 320 480 640 800 SE +/- 5.64, N = 3 734 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Bogo Ops/s, More Is Better Stress-NG 0.07.26 Test: System V Message Passing 2 x AMD EPYC 7601 2M 4M 6M 8M 10M SE +/- 103892.18, N = 3 9423655 1. (CC) gcc options: -O2 -std=gnu99 -lm -lz -lcrypt -lrt -lpthread -laio -lc
OpenBenchmarking.org Events Per Second, More Is Better Sysbench 2018-07-28 Test: CPU 2 x AMD EPYC 7601 20K 40K 60K 80K 100K SE +/- 116.59, N = 3 88945 1. (CC) gcc options: -pthread -O3 -funroll-loops -ggdb3 -march=amdfam10 -rdynamic -ldl -laio -lm
OpenBenchmarking.org MB/s, More Is Better Tinymembench 2018-05-28 Standard Memset 2 x AMD EPYC 7601 2K 4K 6K 8K 10K SE +/- 6.82, N = 3 11110 1. (CC) gcc options: -O2 -lm
TTSIOD 3D Renderer A portable GPL 3D software renderer that supports OpenMP and Intel Threading Building Blocks with many different rendering modes. This version does not use OpenGL but is entirely CPU/software based. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org FPS, More Is Better TTSIOD 3D Renderer 2.3b Phong Rendering With Soft-Shadow Mapping 2 x AMD EPYC 7601 80 160 240 320 400 SE +/- 8.58, N = 9 365 1. (CXX) g++ options: -O3 -fomit-frame-pointer -ffast-math -mtune=native -flto -msse -mrecip -mfpmath=sse -msse2 -mssse3 -lSDL -fopenmp -fwhole-program -lstdc++
x264 This is a simple test of the x264 encoder run on the CPU (OpenCL support disabled) with a sample video file. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Frames Per Second, More Is Better x264 2018-07-28 H.264 Video Encoding 2 x AMD EPYC 7601 30 60 90 120 150 SE +/- 0.57, N = 3 148 1. (CC) gcc options: -ldl -lavformat -lavcodec -lavutil -lswscale -m64 -lm -lpthread -O3 -ffast-math -std=gnu99 -fPIC -fomit-frame-pointer -fno-tree-vectorize
OpenBenchmarking.org Seconds, Fewer Is Better Zstd Compression 1.3.4 Compressing ubuntu-16.04.3-server-i386.img, Compression Level 19 2 x AMD EPYC 7601 40 80 120 160 200 SE +/- 0.03, N = 3 170 1. (CC) gcc options: -O3 -pthread -lz -llzma
2 x AMD EPYC 7601 Processor: 2 x AMD EPYC 7601 32-Core @ 3.12GHz (64 Cores / 128 Threads), Motherboard: Dell 02MJ3T (1.2.5 BIOS), Chipset: AMD Family 17h, Memory: 16 x 32 GB DDR4-2400MT/s 36ASF4G72PZ-2G6D2, Disk: 120GB SSDSCKJB120G7R + 20 x 500GB Samsung SSD 860, Graphics: Matrox Matrox G200eW3, Monitor: VE228, Network: Broadcom Limited BCM57416 NetXtreme-E 10GBase-T RDMA
OS: Ubuntu 18.04, Kernel: 4.19.0-041900rc6-generic (x86_64) 20180930, Desktop: GNOME Shell 3.28.3, Compiler: GCC 7.3.0, File-System: ext4, Screen Resolution: 1600x1200
Compiler Notes: --build=x86_64-linux-gnu --disable-vtable-verify --disable-werror --enable-checking=release --enable-clocale=gnu --enable-default-pie --enable-gnu-unique-object --enable-languages=c,ada,c++,go,brig,d,fortran,objc,obj-c++ --enable-libmpx --enable-libstdcxx-debug --enable-libstdcxx-time=yes --enable-multiarch --enable-multilib --enable-nls --enable-objc-gc=auto --enable-offload-targets=nvptx-none --enable-plugin --enable-shared --enable-threads=posix --host=x86_64-linux-gnu --program-prefix=x86_64-linux-gnu- --target=x86_64-linux-gnu --with-abi=m64 --with-arch-32=i686 --with-default-libstdcxx-abi=new --with-gcc-major-version-only --with-multilib-list=m32,m64,mx32 --with-target-system-zlib --with-tune=generic --without-cuda-driver -vPython Notes: Python 2.7.15rc1 + Python 3.6.6Security Notes: __user pointer sanitization + Full AMD retpoline IBPB + SSB disabled via prctl and seccomp
Testing initiated at 5 October 2018 12:29 by user root.