20231227.txt

AMD Ryzen 9 7940HS testing with a Shenzhen Meigao Electronic Equipment F7BSC (1.07 BIOS) and AMD Radeon PRO W6800 30GB on Ubuntu 22.04 via the Phoronix Test Suite.

Compare your own system(s) to this result file with the Phoronix Test Suite by running the command: phoronix-test-suite benchmark 2312270-NE-20231227T93
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AMD Radeon PRO W6800
December 27 2023
  2 Hours, 9 Minutes
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20231227.txtOpenBenchmarking.orgPhoronix Test SuiteAMD Ryzen 9 7940HS @ 4.00GHz (8 Cores / 16 Threads)Shenzhen Meigao Electronic Equipment F7BSC (1.07 BIOS)AMD Device 14e856GB4097GB HP SSD FX900 Pro 4TB + 1024GB KINGSTON OM8PGP41024Q-A0AMD Radeon PRO W6800 30GBAMD Navi 21 HDMI AudioDELL U2412MRealtek RTL8125 2.5GbE + Intel I210 + Intel Wi-Fi 6 AX210/AX211/AX411Ubuntu 22.046.2.0-39-generic (x86_64)GNOME Shell 42.9X Server 1.21.1.3 + Wayland4.6 Mesa 23.0.4-0ubuntu1~22.04.1 (LLVM 15.0.7 DRM 3.56)OpenCL 2.1 AMD-APP (3602.0)1.3.238GCC 12.1.0ext41920x1200ProcessorMotherboardChipsetMemoryDiskGraphicsAudioMonitorNetworkOSKernelDesktopDisplay ServerOpenGLOpenCLVulkanCompilerFile-SystemScreen Resolution20231227.txt BenchmarksSystem Logs- Transparent Huge Pages: madvise- --build=x86_64-conda-linux-gnu --disable-bootstrap --disable-libmudflap --disable-libssp --disable-multilib --disable-nls --enable-__cxa_atexit --enable-default-pie --enable-gold --enable-languages=c,c++,fortran,objc,obj-c++ --enable-libgomp --enable-libquadmath --enable-libquadmath-support --enable-libsanitizer --enable-long-long --enable-lto --enable-plugin --enable-target-optspace --enable-threads=posix --host=x86_64-conda-linux-gnu --mandir=/home/conda/feedstock_root/build_artifacts/gcc_compilers_1665882792052/_h_env_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placeho/man --target=x86_64-conda-linux-gnu --with-build-sysroot=/home/conda/feedstock_root/build_artifacts/gcc_compilers_1665882792052/_build_env/x86_64-conda-linux-gnu/sysroot --with-slibdir=/home/conda/feedstock_root/build_artifacts/gcc_compilers_1665882792052/_h_env_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placehold_placeho/lib - Scaling Governor: acpi-cpufreq schedutil (Boost: Enabled) - CPU Microcode: 0xa704103- BAR1 / Visible vRAM Size: 30704 MB - vBIOS Version: 113-D4300100-103- Python 3.11.5- gather_data_sampling: Not affected + itlb_multihit: Not affected + l1tf: Not affected + mds: Not affected + meltdown: Not affected + mmio_stale_data: Not affected + retbleed: Not affected + spec_rstack_overflow: Mitigation of safe RET no microcode + spec_store_bypass: Mitigation of SSB disabled via prctl + spectre_v1: Mitigation of usercopy/swapgs barriers and __user pointer sanitization + spectre_v2: Mitigation of Retpolines IBPB: conditional IBRS_FW STIBP: always-on RSB filling PBRSB-eIBRS: Not affected + srbds: Not affected + tsx_async_abort: Not affected

20231227.txtluxmark: GPU - Hotelluxmark: GPU - Microphoneshoc: OpenCL - Max SP Flopsclpeak: Transfer Bandwidth enqueueWriteBufferluxmark: GPU - Luxball HDRluxmark: CPU+GPU - Hotelluxmark: CPU+GPU - Microphoneluxmark: CPU+GPU - Luxball HDRshoc: OpenCL - S3Dfluidx3d: FP32-FP32clpeak: Transfer Bandwidth enqueueReadBufferfluidx3d: FP32-FP16Cfluidx3d: FP32-FP16Sviennacl: CPU BLAS - dGEMM-TTviennacl: CPU BLAS - dGEMM-TNviennacl: CPU BLAS - dGEMM-NTviennacl: CPU BLAS - dGEMM-NNviennacl: CPU BLAS - dGEMV-Tviennacl: CPU BLAS - dGEMV-Nviennacl: CPU BLAS - dDOTviennacl: CPU BLAS - dAXPYviennacl: CPU BLAS - dCOPYviennacl: CPU BLAS - sDOTviennacl: CPU BLAS - sAXPYviennacl: CPU BLAS - sCOPYviennacl: OpenCL BLAS - dGEMM-TTviennacl: OpenCL BLAS - dGEMM-TNviennacl: OpenCL BLAS - dGEMM-NTviennacl: OpenCL BLAS - dGEMM-NNviennacl: OpenCL BLAS - dGEMV-Tviennacl: OpenCL BLAS - dGEMV-Nviennacl: OpenCL BLAS - dDOTviennacl: OpenCL BLAS - dAXPYviennacl: OpenCL BLAS - dCOPYviennacl: OpenCL BLAS - sDOTviennacl: OpenCL BLAS - sAXPYviennacl: OpenCL BLAS - sCOPYshoc: OpenCL - Texture Read Bandwidthlulesh-cl: clpeak: Kernel Latencydarktable: Server Rack - OpenCLclpeak: Global Memory Bandwidthdarktable: Boat - OpenCLshoc: OpenCL - Bus Speed Readbackshoc: OpenCL - Bus Speed Downloadshoc: OpenCL - GEMM SGEMM_Ndarktable: Masskrug - OpenCLshoc: OpenCL - Triadclpeak: Double-Precision Computeshoc: OpenCL - FFT SPdarktable: Server Room - OpenCLclpeak: Integer Computeshoc: OpenCL - Reductionclpeak: Single-Precision Computeclpeak: Integer 24-bit Computeshoc: OpenCL - MD5 Hashsmallpt-gpu: GPU - $VIDEO_WIDTH x $VIDEO_HEIGHT - CornellAMD Radeon PRO W6800193651122791062923321.491429861920511153114218483.388834285.105196534650.452.647.148.242.341.542.156.537.745.465.243.510109891020998465142350355325490725495917.9802016.392721.840.452368.322.8291.85701.99766122.473.5731.90151172.891472.831.1053655.35575.98916882.5614797.6824.2961OpenBenchmarking.org

LuxMark

LuxMark is a multi-platform OpenGL benchmark using LuxRender. LuxMark supports targeting different OpenCL devices and has multiple scenes available for rendering. LuxMark is a fully open-source OpenCL program with real-world rendering examples. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgScore, More Is BetterLuxMark 3.1OpenCL Device: GPU - Scene: HotelAMD Radeon PRO W68004K8K12K16K20KSE +/- 157.99, N = 919365

OpenBenchmarking.orgScore, More Is BetterLuxMark 3.1OpenCL Device: GPU - Scene: MicrophoneAMD Radeon PRO W680020K40K60K80K100KSE +/- 969.07, N = 8112279

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOPS, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: Max SP FlopsAMD Radeon PRO W68002M4M6M8M10MSE +/- 5725855.20, N = 12106292331. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGBPS, More Is Betterclpeak 1.1.2OpenCL Test: Transfer Bandwidth enqueueWriteBufferAMD Radeon PRO W6800510152025SE +/- 0.19, N = 1521.491. (CXX) g++ options: -O3

LuxMark

LuxMark is a multi-platform OpenGL benchmark using LuxRender. LuxMark supports targeting different OpenCL devices and has multiple scenes available for rendering. LuxMark is a fully open-source OpenCL program with real-world rendering examples. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgScore, More Is BetterLuxMark 3.1OpenCL Device: GPU - Scene: Luxball HDRAMD Radeon PRO W680030K60K90K120K150KSE +/- 318.13, N = 3142986

OpenBenchmarking.orgScore, More Is BetterLuxMark 3.1OpenCL Device: CPU+GPU - Scene: HotelAMD Radeon PRO W68004K8K12K16K20KSE +/- 1.20, N = 319205

OpenBenchmarking.orgScore, More Is BetterLuxMark 3.1OpenCL Device: CPU+GPU - Scene: MicrophoneAMD Radeon PRO W680020K40K60K80K100KSE +/- 45.06, N = 3111531

OpenBenchmarking.orgScore, More Is BetterLuxMark 3.1OpenCL Device: CPU+GPU - Scene: Luxball HDRAMD Radeon PRO W680030K60K90K120K150KSE +/- 336.85, N = 3142184

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOPS, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: S3DAMD Radeon PRO W680020406080100SE +/- 0.84, N = 383.391. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

FluidX3D

FluidX3D is a speedy and memory efficient Boltzmann CFD (Computational Fluid Dynamics) software package implemented using OpenCL and intended for GPU acceleration. FluidX3D is developed by Moritz Lehmann and written free for non-commercial use. This is a test profile measuring the system OpenCL performance using the FluidX3D benchmark. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgMLUPs/s, More Is BetterFluidX3D 2.9Test: FP32-FP32AMD Radeon PRO W68007001400210028003500SE +/- 12.45, N = 33428

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGBPS, More Is Betterclpeak 1.1.2OpenCL Test: Transfer Bandwidth enqueueReadBufferAMD Radeon PRO W68001.14752.2953.44254.595.7375SE +/- 0.01, N = 35.101. (CXX) g++ options: -O3

FluidX3D

FluidX3D is a speedy and memory efficient Boltzmann CFD (Computational Fluid Dynamics) software package implemented using OpenCL and intended for GPU acceleration. FluidX3D is developed by Moritz Lehmann and written free for non-commercial use. This is a test profile measuring the system OpenCL performance using the FluidX3D benchmark. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgMLUPs/s, More Is BetterFluidX3D 2.9Test: FP32-FP16CAMD Radeon PRO W680011002200330044005500SE +/- 23.62, N = 35196

OpenBenchmarking.orgMLUPs/s, More Is BetterFluidX3D 2.9Test: FP32-FP16SAMD Radeon PRO W680011002200330044005500SE +/- 30.89, N = 35346

ViennaCL

ViennaCL is an open-source linear algebra library written in C++ and with support for OpenCL and OpenMP. This test profile makes use of ViennaCL's built-in benchmarks. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dGEMM-TTAMD Radeon PRO W68001122334455SE +/- 0.09, N = 350.41. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dGEMM-TNAMD Radeon PRO W68001224364860SE +/- 0.03, N = 352.61. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dGEMM-NTAMD Radeon PRO W68001122334455SE +/- 0.12, N = 347.11. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dGEMM-NNAMD Radeon PRO W68001122334455SE +/- 0.10, N = 348.21. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dGEMV-TAMD Radeon PRO W6800102030405042.31. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dGEMV-NAMD Radeon PRO W6800918273645SE +/- 0.03, N = 341.51. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dDOTAMD Radeon PRO W68001020304050SE +/- 0.00, N = 342.11. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dAXPYAMD Radeon PRO W68001326395265SE +/- 0.03, N = 356.51. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - dCOPYAMD Radeon PRO W6800918273645SE +/- 0.00, N = 337.71. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - sDOTAMD Radeon PRO W68001020304050SE +/- 0.13, N = 345.41. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - sAXPYAMD Radeon PRO W68001530456075SE +/- 0.06, N = 365.21. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: CPU BLAS - sCOPYAMD Radeon PRO W68001020304050SE +/- 0.09, N = 343.51. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dGEMM-TTAMD Radeon PRO W68002004006008001000SE +/- 0.00, N = 210101. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dGEMM-TNAMD Radeon PRO W68002004006008001000SE +/- 1.45, N = 39891. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dGEMM-NTAMD Radeon PRO W68002004006008001000SE +/- 0.00, N = 310201. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGFLOPs/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dGEMM-NNAMD Radeon PRO W68002004006008001000SE +/- 0.88, N = 39981. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dGEMV-TAMD Radeon PRO W6800100200300400500SE +/- 1.53, N = 34651. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dGEMV-NAMD Radeon PRO W6800306090120150SE +/- 1.00, N = 31421. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dDOTAMD Radeon PRO W680080160240320400SE +/- 2.73, N = 33501. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dAXPYAMD Radeon PRO W680080160240320400SE +/- 2.91, N = 33551. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - dCOPYAMD Radeon PRO W680070140210280350SE +/- 1.33, N = 33251. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - sDOTAMD Radeon PRO W6800110220330440550SE +/- 1.76, N = 34901. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - sAXPYAMD Radeon PRO W6800160320480640800SE +/- 1.20, N = 37251. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

OpenBenchmarking.orgGB/s, More Is BetterViennaCL 1.7.1Test: OpenCL BLAS - sCOPYAMD Radeon PRO W6800110220330440550SE +/- 2.60, N = 34951. (CXX) g++ options: -fopenmp -O3 -rdynamic -lOpenCL

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGB/s, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: Texture Read BandwidthAMD Radeon PRO W68002004006008001000SE +/- 3.81, N = 3917.981. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

Lulesh OpenCL

Lulesh OpenCL benchmark: Livermore Unstructured Lagrangian Explicit Shock Hydrodynamics. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgz/s, More Is BetterLulesh OpenCL 2017-07-06AMD Radeon PRO W6800400800120016002000SE +/- 5.43, N = 32016.391. (CXX) g++ options: -std=c++11 -lOpenCL -O3 -lm

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgus, Fewer Is Betterclpeak 1.1.2OpenCL Test: Kernel LatencyAMD Radeon PRO W6800510152025SE +/- 0.34, N = 1521.841. (CXX) g++ options: -O3

Darktable

Darktable is an open-source photography / workflow application this will use any system-installed Darktable program or on Windows will automatically download the pre-built binary from the project. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgSeconds, Fewer Is BetterDarktable 3.8.1Test: Server Rack - Acceleration: OpenCLAMD Radeon PRO W68000.10170.20340.30510.40680.5085SE +/- 0.005, N = 150.452

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGBPS, More Is Betterclpeak 1.1.2OpenCL Test: Global Memory BandwidthAMD Radeon PRO W680080160240320400SE +/- 0.39, N = 3368.321. (CXX) g++ options: -O3

Darktable

Darktable is an open-source photography / workflow application this will use any system-installed Darktable program or on Windows will automatically download the pre-built binary from the project. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgSeconds, Fewer Is BetterDarktable 3.8.1Test: Boat - Acceleration: OpenCLAMD Radeon PRO W68000.63651.2731.90952.5463.1825SE +/- 0.031, N = 52.829

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGB/s, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: Bus Speed ReadbackAMD Radeon PRO W68000.41780.83561.25341.67122.089SE +/- 0.0002, N = 31.85701. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

OpenBenchmarking.orgGB/s, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: Bus Speed DownloadAMD Radeon PRO W68000.44950.8991.34851.7982.2475SE +/- 0.0001, N = 31.99761. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

OpenBenchmarking.orgGFLOPS, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: GEMM SGEMM_NAMD Radeon PRO W680013002600390052006500SE +/- 8.35, N = 36122.471. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

Darktable

Darktable is an open-source photography / workflow application this will use any system-installed Darktable program or on Windows will automatically download the pre-built binary from the project. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgSeconds, Fewer Is BetterDarktable 3.8.1Test: Masskrug - Acceleration: OpenCLAMD Radeon PRO W68000.80391.60782.41173.21564.0195SE +/- 0.015, N = 33.573

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGB/s, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: TriadAMD Radeon PRO W68000.42780.85561.28341.71122.139SE +/- 0.0023, N = 31.90151. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOPS, More Is Betterclpeak 1.1.2OpenCL Test: Double-Precision ComputeAMD Radeon PRO W680030060090012001500SE +/- 0.11, N = 31172.891. (CXX) g++ options: -O3

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOPS, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: FFT SPAMD Radeon PRO W680030060090012001500SE +/- 4.42, N = 31472.831. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

Darktable

Darktable is an open-source photography / workflow application this will use any system-installed Darktable program or on Windows will automatically download the pre-built binary from the project. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgSeconds, Fewer Is BetterDarktable 3.8.1Test: Server Room - Acceleration: OpenCLAMD Radeon PRO W68000.24860.49720.74580.99441.243SE +/- 0.002, N = 31.105

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGIOPS, More Is Betterclpeak 1.1.2OpenCL Test: Integer ComputeAMD Radeon PRO W68008001600240032004000SE +/- 1.28, N = 33655.351. (CXX) g++ options: -O3

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGB/s, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: ReductionAMD Radeon PRO W6800120240360480600SE +/- 0.63, N = 3575.991. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

clpeak

Clpeak is designed to test the peak capabilities of OpenCL devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGFLOPS, More Is Betterclpeak 1.1.2OpenCL Test: Single-Precision ComputeAMD Radeon PRO W68004K8K12K16K20KSE +/- 74.46, N = 316882.561. (CXX) g++ options: -O3

OpenBenchmarking.orgGIOPS, More Is Betterclpeak 1.1.2OpenCL Test: Integer 24-bit ComputeAMD Radeon PRO W68003K6K9K12K15KSE +/- 133.95, N = 314797.681. (CXX) g++ options: -O3

SHOC Scalable HeterOgeneous Computing

The CUDA and OpenCL version of Vetter's Scalable HeterOgeneous Computing benchmark suite. SHOC provides a number of different benchmark programs for evaluating the performance and stability of compute devices. Learn more via the OpenBenchmarking.org test page.

OpenBenchmarking.orgGHash/s, More Is BetterSHOC Scalable HeterOgeneous Computing 2020-04-17Target: OpenCL - Benchmark: MD5 HashAMD Radeon PRO W6800612182430SE +/- 0.01, N = 324.301. (CXX) g++ options: -O2 -lSHOCCommonMPI -lSHOCCommonOpenCL -lSHOCCommon -lOpenCL -lrt -lmpi_cxx -lmpi

LuxMark

LuxMark is a multi-platform OpenGL benchmark using LuxRender. LuxMark supports targeting different OpenCL devices and has multiple scenes available for rendering. LuxMark is a fully open-source OpenCL program with real-world rendering examples. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: CPU - Scene: Hotel

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result. E: Error: RUNTIME ERROR: No OpenCL device selected or available

OpenCL Device: CPU - Scene: Microphone

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result. E: Error: RUNTIME ERROR: No OpenCL device selected or available

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 select OpenCL, NVIDIA CUDA and OpenMP test binaries at the moment. Learn more via the OpenBenchmarking.org test page.

Test: OpenCL Particle Filter

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result. E: ERROR: clEnqueueNDRangeKernel(kernel_likelihood)=>-54 failed

LuxMark

LuxMark is a multi-platform OpenGL benchmark using LuxRender. LuxMark supports targeting different OpenCL devices and has multiple scenes available for rendering. LuxMark is a fully open-source OpenCL program with real-world rendering examples. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: CPU - Scene: Luxball HDR

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result. E: Error: RUNTIME ERROR: No OpenCL device selected or available

OpenCL Device: Hybrid GPU - Scene: Microphone

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result.

OpenCL Device: Hybrid GPU - Scene: Hotel

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result.

OpenCL Device: Hybrid GPU - Scene: Luxball HDR

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result.

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.

Test: OpenCL MRI Gridding

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?

Test: OpenCL Histo

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?

Test: OpenCL LBM

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?

Test: OpenCL BFS

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?

Test: OpenCL TPACF

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: SyntaxError: Missing parentheses in call to 'print'. Did you mean print(...)?

OpenDwarfs

OpenDwarfs is a non-commercial OpenCL compute benchmark suite developed at Virginia Tech in cooperation with various organizations. Learn more via the OpenBenchmarking.org test page.

Test: Cyclic Redundancy Check

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status.

Test: Compressed Sparse Row

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status.

SmallPT GPU

SmallPT GPU is an OpenCL benchmark that's run with various PTS changes compared to upstream and multiple rendering scenes are available. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT - Scene: Caustic3

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./smallpt-gpu: 3: ./smallptGPU: Permission denied

OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT - Scene: Caustic

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./smallpt-gpu: 3: ./smallptGPU: Permission denied

MandelGPU

MandelGPU is an OpenCL benchmark and this test runs with the OpenCL rendering float4 kernel with a maximum of 4096 iterations. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status.

MandelbulbGPU

MandelbulbGPU is an OpenCL benchmark. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status.

JuliaGPU

JuliaGPU is an OpenCL benchmark with this version containing various PTS-specific enhancements. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./juliagpu: 3: ./juliaGPU: Permission denied

Xsbench OpenCL

Xsbench benchmark in OpenCL via GPUOpen. Learn more via the OpenBenchmarking.org test page.

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status.

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 select OpenCL, NVIDIA CUDA and OpenMP test binaries at the moment. Learn more via the OpenBenchmarking.org test page.

Test: OpenCL Heartwall

AMD Radeon PRO W6800: The test run did not produce a result. The test run did not produce a result. The test run did not produce a result. E: ./rodinia: 40: ./heartwall: not found

Test: OpenCL LavaMD

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./rodinia: 32: ./lavaMD: not found

cl-mem

A basic OpenCL memory benchmark. Learn more via the OpenBenchmarking.org test page.

Benchmark: Write

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./cl-mem: 3: ./cl-mem: not found

Benchmark: Read

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./cl-mem: 3: ./cl-mem: not found

Benchmark: Copy

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./cl-mem: 3: ./cl-mem: not found

OpenDwarfs

OpenDwarfs is a non-commercial OpenCL compute benchmark suite developed at Virginia Tech in cooperation with various organizations. Learn more via the OpenBenchmarking.org test page.

Test: LU Decomposition

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status.

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 select OpenCL, NVIDIA CUDA and OpenMP test binaries at the moment. Learn more via the OpenBenchmarking.org test page.

Test: OpenCL Leukocyte

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./rodinia: 36: ./leukocyte: not found

Test: OpenCL Myocyte

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./rodinia: 45: ./myocyte.out: not found

SmallPT GPU

SmallPT GPU is an OpenCL benchmark that's run with various PTS changes compared to upstream and multiple rendering scenes are available. Learn more via the OpenBenchmarking.org test page.

OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT - Scene: Cornell

AMD Radeon PRO W6800: The test quit with a non-zero exit status. The test quit with a non-zero exit status. The test quit with a non-zero exit status. E: ./smallpt-gpu: 3: ./smallptGPU: Permission denied