test1 2 x AMD EPYC 7313 16-Core testing with a ASRockRack ROME2D32GM-2T (P3.50 BIOS) and astdrmfb on Ubuntu 20.04 via the Phoronix Test Suite. astdrmfb - 2 x AMD EPYC 7313 16-Core: Processor: 2 x AMD EPYC 7313 16-Core @ 3.00GHz (32 Cores / 64 Threads), Motherboard: ASRockRack ROME2D32GM-2T (P3.50 BIOS), Chipset: AMD Starship/Matisse, Memory: 2 x 64 GB DDR4-3200MT/s 36ASF8G72PZ-3G2F1, Disk: 1000GB CT1000P5PSSD8, Graphics: astdrmfb, Audio: AMD Device ab28, Monitor: MONITOR, Network: 2 x Intel 10G X550T OS: Ubuntu 20.04, Kernel: 5.15.0-71-generic (x86_64), Desktop: GNOME Shell 3.36.9, Display Server: X Server 1.20.13, Compiler: GCC 9.4.0, File-System: ext4, Screen Resolution: 1280x800 FluidX3D 2.3 Test: FP32-FP16S MLUPs/s > Higher Is Better astdrmfb - 2 x AMD EPYC 7313 16-Core . 3563 |================================== FluidX3D 2.3 Test: FP32-FP16C MLUPs/s > Higher Is Better astdrmfb - 2 x AMD EPYC 7313 16-Core . 3533 |================================== FluidX3D 2.3 Test: FP32-FP32 MLUPs/s > Higher Is Better astdrmfb - 2 x AMD EPYC 7313 16-Core . 1678 |================================== Lulesh OpenCL 2017-07-06 z/s > Higher Is Better OpenDwarfs 2013-11-06 Test: Cyclic Redundancy Check ms < Lower Is Better OpenDwarfs 2013-11-06 Test: Compressed Sparse Row ms < Lower Is Better OpenDwarfs 2013-11-06 Test: LU Decomposition ms < Lower Is Better LuxMark 3.1 OpenCL Device: Hybrid GPU - Scene: Luxball HDR Score > Higher Is Better LuxMark 3.1 OpenCL Device: Hybrid GPU - Scene: Microphone Score > Higher Is Better LuxMark 3.1 OpenCL Device: CPU+GPU - Scene: Luxball HDR Score > Higher Is Better LuxMark 3.1 OpenCL Device: CPU+GPU - Scene: Microphone Score > Higher Is Better LuxMark 3.1 OpenCL Device: Hybrid GPU - Scene: Hotel Score > Higher Is Better LuxMark 3.1 OpenCL Device: GPU - Scene: Luxball HDR Score > Higher Is Better LuxMark 3.1 OpenCL Device: CPU - Scene: Luxball HDR Score > Higher Is Better LuxMark 3.1 OpenCL Device: GPU - Scene: Microphone Score > Higher Is Better LuxMark 3.1 OpenCL Device: CPU - Scene: Microphone Score > Higher Is Better LuxMark 3.1 OpenCL Device: CPU+GPU - Scene: Hotel Score > Higher Is Better LuxMark 3.1 OpenCL Device: GPU - Scene: Hotel Score > Higher Is Better LuxMark 3.1 OpenCL Device: CPU - Scene: Hotel Score > Higher Is Better SmallPT GPU 1.6pts1 OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT - Scene: Caustic3 Samples/sec > Higher Is Better SmallPT GPU 1.6pts1 OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT - Scene: Cornell Samples/sec > Higher Is Better SmallPT GPU 1.6pts1 OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT - Scene: Caustic Samples/sec > Higher Is Better MandelGPU 1.3pts1 OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT Samples/sec > Higher Is Better MandelbulbGPU 1.0pts1 OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT Samples/sec > Higher Is Better JuliaGPU 1.2pts1 OpenCL Device: GPU - Resolution: $VIDEO_WIDTH x $VIDEO_HEIGHT Samples/sec > Higher Is Better Xsbench OpenCL 2017-07-06 Lookups/s > Higher Is Better Darktable Test: Server Room - Acceleration: OpenCL Seconds < Lower Is Better Darktable Test: Server Rack - Acceleration: OpenCL Seconds < Lower Is Better Darktable Test: Masskrug - Acceleration: OpenCL Seconds < Lower Is Better Darktable Test: Boat - Acceleration: OpenCL Seconds < Lower Is Better ViennaCL 1.7.1 Test: OpenCL BLAS GFLOPS > Higher Is Better ViennaCL 1.7.1 Test: CPU BLAS GFLOPS > Higher Is Better Rodinia 3.1 Test: OpenCL Particle Filter Seconds < Lower Is Better Rodinia 3.1 Test: OpenCL Leukocyte Seconds < Lower Is Better Rodinia 3.1 Test: OpenCL Heartwall Seconds < Lower Is Better Rodinia 3.1 Test: OpenCL Myocyte Seconds < Lower Is Better Rodinia 3.1 Test: OpenCL LavaMD Seconds < Lower Is Better Parboil 2.5 Test: OpenCL MRI Gridding Seconds < Lower Is Better Parboil 2.5 Test: OpenCL TPACF Seconds < Lower Is Better Parboil 2.5 Test: OpenCL Histo Seconds < Lower Is Better Parboil 2.5 Test: OpenCL LBM Seconds < Lower Is Better Parboil 2.5 Test: OpenCL BFS Seconds < Lower Is Better clpeak 1.1.2 OpenCL Test: Transfer Bandwidth enqueueWriteBuffer clpeak 1.1.2 OpenCL Test: Transfer Bandwidth enqueueReadBuffer clpeak 1.1.2 OpenCL Test: Single-Precision Compute clpeak 1.1.2 OpenCL Test: Double-Precision Compute clpeak 1.1.2 OpenCL Test: Global Memory Bandwidth clpeak 1.1.2 OpenCL Test: Integer 24-bit Compute clpeak 1.1.2 OpenCL Test: Integer Compute clpeak 1.1.2 OpenCL Test: Kernel Latency cl-mem 2017-01-13 Benchmark: Write cl-mem 2017-01-13 Benchmark: Read cl-mem 2017-01-13 Benchmark: Copy SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: Texture Read Bandwidth SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: Bus Speed Readback SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: Bus Speed Download SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: Max SP Flops SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: GEMM SGEMM_N SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: Reduction SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: MD5 Hash SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: FFT SP SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: Triad SHOC Scalable HeterOgeneous Computing 2020-04-17 Target: OpenCL - Benchmark: S3D