AMD EPYC 7313 16-Core + ASPEED + Supermicro H12SSL-i v1.01 (2.0 BIOS)

Various open-source benchmarks by the Phoronix Test Suite v10.4.0 (Ibestad).

Compare your own system(s) to this result file with the Phoronix Test Suite by running the command: phoronix-test-suite benchmark 2107139-IB-AMDEPYC7387
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Result
Identifier
Performance Per
Dollar
Date
Run
  Test
  Duration
8 x 16384 MB DDR4-3200MT
July 14
  20 Minutes
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AMD EPYC 7313 16-Core + ASPEED + Supermicro H12SSL-i v1.01 (2.0 BIOS)OpenBenchmarking.orgPhoronix Test Suite 10.6.0AMD EPYC 7313 16-Core @ 3.00GHz (16 Cores / 32 Threads)Supermicro H12SSL-i v1.01 (2.0 BIOS)AMD Starship/Matisse8 x 16384 MB DDR4-3200MT/s Samsung M393A2K43DB3-CWE1024GB Toshiba KXG60ZNV1T02 + 3 x 960GB SAMSUNG MZ7LH960 + 3 x 8002GB HUS728T8TAL5204 + 30GB Survivor 3.0ASPEEDPLE2407HDS2 x Broadcom NetXtreme BCM5720 PCIe + 2 x Mellanox MT27710Debian 104.19.0-17-amd64 (x86_64)GCC 8.3.0 + Open64 PARSE ERRORoverlayfs1920x1080ProcessorMotherboardChipsetMemoryDiskGraphicsMonitorNetworkOSKernelCompilerFile-SystemScreen ResolutionAMD EPYC 7313 16-Core + ASPEED + Supermicro H12SSL-i V1.01 (2.0 BIOS) BenchmarksSystem Logs- Transparent Huge Pages: always- --build=x86_64-linux-gnu --disable-vtable-verify --disable-werror --enable-bootstrap --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 -v - Scaling Governor: acpi-cpufreq ondemand (Boost: Enabled) - CPU Microcode: 0xa001119- itlb_multihit: Not affected + l1tf: Not affected + mds: Not affected + meltdown: Not affected + spec_store_bypass: Mitigation of SSB disabled via prctl and seccomp + spectre_v1: Mitigation of usercopy/swapgs barriers and __user pointer sanitization + spectre_v2: Mitigation of Full AMD retpoline IBPB: conditional IBRS_FW STIBP: always-on RSB filling + srbds: Not affected + tsx_async_abort: Not affected

AMD EPYC 7313 16-Core + ASPEED + Supermicro H12SSL-i v1.01 (2.0 BIOS)intel-mlc: Peak Injection Bandwidth - All Readsintel-mlc: Peak Injection Bandwidth - 3:1 Reads-Writesintel-mlc: Peak Injection Bandwidth - 2:1 Reads-Writesintel-mlc: Peak Injection Bandwidth - 1:1 Reads-Writesintel-mlc: Peak Injection Bandwidth - Stream-Triad Likeramspeed: Copy - Integerramspeed: Copy - Floating Pointt-test1: 1t-test1: 2hpcg: minife: Smallnamd: ATPase Simulation - 327,506 Atomscoremark: CoreMark Size 666 - Iterations Per Second8 x 16384 MB DDR4-3200MT148878.4141290.6143627.5149437.0145050.377790.5677377.2427.8259.96818.231820014.71.14559645689.273879OpenBenchmarking.org

Intel Memory Latency Checker

Intel Memory Latency Checker (MLC) is a binary-only system memory bandwidth and latency benchmark. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgMB/s, More Is BetterIntel Memory Latency CheckerTest: Peak Injection Bandwidth - All Reads8 x 16384 MB DDR4-3200MT30K60K90K120K150KSE +/- 35.32, N = 3148878.4

OpenBenchmarking.orgMB/s, More Is BetterIntel Memory Latency CheckerTest: Peak Injection Bandwidth - 3:1 Reads-Writes8 x 16384 MB DDR4-3200MT30K60K90K120K150KSE +/- 22.86, N = 3141290.6

OpenBenchmarking.orgMB/s, More Is BetterIntel Memory Latency CheckerTest: Peak Injection Bandwidth - 2:1 Reads-Writes8 x 16384 MB DDR4-3200MT30K60K90K120K150KSE +/- 119.25, N = 3143627.5

OpenBenchmarking.orgMB/s, More Is BetterIntel Memory Latency CheckerTest: Peak Injection Bandwidth - 1:1 Reads-Writes8 x 16384 MB DDR4-3200MT30K60K90K120K150KSE +/- 30.03, N = 3149437.0

OpenBenchmarking.orgMB/s, More Is BetterIntel Memory Latency CheckerTest: Peak Injection Bandwidth - Stream-Triad Like8 x 16384 MB DDR4-3200MT30K60K90K120K150KSE +/- 33.78, N = 3145050.3

RAMspeed SMP

OpenBenchmarking.orgMB/s, More Is BetterRAMspeed SMP 3.5.0Type: Copy - Benchmark: Integer8 x 16384 MB DDR4-3200MT17K34K51K68K85K77790.561. (CC) gcc options: -O3 -march=native

OpenBenchmarking.orgMB/s, More Is BetterRAMspeed SMP 3.5.0Type: Copy - Benchmark: Floating Point8 x 16384 MB DDR4-3200MT17K34K51K68K85K77377.241. (CC) gcc options: -O3 -march=native

t-test1

This is a test of t-test1 for basic memory allocator benchmarks. Note this test profile is currently very basic and the overall time does include the warmup time of the custom t-test1 compilation. Improvements welcome. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgSeconds, Fewer Is Bettert-test1 2017-01-13Threads: 18 x 16384 MB DDR4-3200MT714212835SE +/- 0.03, N = 327.831. (CC) gcc options: -pthread

OpenBenchmarking.orgSeconds, Fewer Is Bettert-test1 2017-01-13Threads: 28 x 16384 MB DDR4-3200MT3691215SE +/- 0.018, N = 39.9681. (CC) gcc options: -pthread

High Performance Conjugate Gradient

HPCG is the High Performance Conjugate Gradient and is a new scientific benchmark from Sandia National Lans focused for super-computer testing with modern real-world workloads compared to HPCC. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOP/s, More Is BetterHigh Performance Conjugate Gradient 3.18 x 16384 MB DDR4-3200MT48121620SE +/- 0.01, N = 318.231. (CXX) g++ options: -O3 -ffast-math -ftree-vectorize -pthread -lmpi_cxx -lmpi

miniFE

MiniFE Finite Element is an application for unstructured implicit finite element codes. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgCG Mflops, More Is BetterminiFE 2.2Problem Size: Small8 x 16384 MB DDR4-3200MT4K8K12K16K20KSE +/- 3.42, N = 320014.71. (CXX) g++ options: -O3 -fopenmp -pthread -lmpi_cxx -lmpi

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.orgdays/ns, Fewer Is BetterNAMD 2.13b1ATPase Simulation - 327,506 Atoms8 x 16384 MB DDR4-3200MT0.25780.51560.77341.03121.289SE +/- 0.00057, N = 31.14559

Coremark

This is a test of EEMBC CoreMark processor benchmark. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgIterations/Sec, More Is BetterCoremark 1.0CoreMark Size 666 - Iterations Per Second8 x 16384 MB DDR4-3200MT140K280K420K560K700KSE +/- 105.16, N = 3645689.271. (CC) gcc options: -O2 -lrt" -lrt