VMware testing on Microsoft Windows 10 Pro Build 18362 via the Phoronix Test Suite.
ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 Processor: AMD Ryzen Threadripper 3960X 24-Core @ 3.80GHz (24 Cores / 48 Threads), Motherboard: MSI Creator TRX40 (MS-7C59) (1.50 BIOS), Memory: 4 x 16384 MB 1800MHz CMT64GX4M4K3600C16, Disk: 932GB Samsung SSD 860 EVO 1TB + 2 x 466GB Force MP600 + 4 x 477GB Samsung SSD 970 PRO 512GB + 57GB SanDisk Cruzer Blade USB + 477GB Samsung SSD 860 PRO 512GB + 10GB USB DISK CD USB + 932GB Force MP600 + 932GB JMicron Generic Disk + 932GB Inateck ASM1153E Disk + 954GB Inateck Disk + 954GB Samsung SSD 860 PRO 1TB + 1863GB Inateck ASM1153E Disk, Graphics: AMD Radeon VII 4GB, Network: Intel I211 Gigabit Connection + Intel Wi-Fi 6 AX200 160MHz
OS: Microsoft Windows 10 Enterprise LTSC Build 17763, Kernel: 10.0 (x86_64), Display Driver: 27.20.1027.2005, OpenCL: OpenCL 2.1 AMD-APP (3075.13), Compiler: GCC 8.3.0, File-System: NTFS, Screen Resolution: 1920x1080
Java Notes: OpenJDK Runtime Environment 18.9 (build 11.0.6+10-LTS)Python Notes: Python 3.7.9Security Notes: __user pointer sanitization: Disabled + Retpoline: Full + IBPB: Always + STIBP: Enabled
gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 Processor: AMD Ryzen Threadripper 3960X 24-Core @ 3.80GHz (8 Cores) , Motherboard: Intel 440BX , Memory: 1 x 16384 MB 0MHz VMW-16384MB , Disk: 512GB VMware Virtual S , Graphics: VMware SVGA 3D , Network: TAP-Windows V9 + Intel Dual Band Wireless-AC 8265 + Bluetooth Device (Personal Area )
OS: Microsoft Windows 10 Pro Build 18362, Kernel: 10.0 (x86_64), Display Driver: 8.16.7.5, Compiler: GCC 7.1.0, File-System: NTFS, Screen Resolution: 919x968, System Layer: VMware
BlogBench BlogBench is designed to replicate the load of a real-world busy file server by stressing the file-system with multiple threads of random reads, writes, and rewrites. The behavior is mimicked of that of a blog by creating blogs with content and pictures, modifying blog posts, adding comments to these blogs, and then reading the content of the blogs. All of these blogs generated are created locally with fake content and pictures. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Final Score, More Is Better BlogBench 1.1 Test: Read ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 5K 10K 15K 20K 25K SE +/- 151.37, N = 3 SE +/- 495.00, N = 2 21043 4289
OpenBenchmarking.org Final Score, More Is Better BlogBench 1.1 Test: Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 150 300 450 600 750 SE +/- 11.39, N = 3 SE +/- 6.00, N = 2 701 135
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.org Seconds, Fewer Is Better t-test1 2017-01-13 Threads: 1 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 7 14 21 28 35 SE +/- 0.29, N = 3 SE +/- 0.54, N = 2 23.34 30.25
OpenBenchmarking.org Seconds, Fewer Is Better t-test1 2017-01-13 Threads: 2 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 700 1400 2100 2800 3500 SE +/- 1.82, N = 3 SE +/- 15.60, N = 2 130 3243
LeelaChessZero LeelaChessZero (lc0 / lczero) is a chess engine automated vian neural networks. This test profile can be used for OpenCL, CUDA + cuDNN, and BLAS (CPU-based) benchmarking. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Nodes Per Second, More Is Better LeelaChessZero 0.25 Backend: BLAS gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 200 400 600 800 1000 SE +/- 231.50, N = 2 SE +/- 6.84, N = 8 829 671
OpenBenchmarking.org Nodes Per Second, More Is Better LeelaChessZero 0.25 Backend: Eigen ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 120 240 360 480 600 SE +/- 8.65, N = 3 SE +/- 10.00, N = 2 545 439
OpenBenchmarking.org Nodes Per Second, More Is Better LeelaChessZero 0.25 Backend: Random ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30K 60K 90K 120K 150K SE +/- 1791.69, N = 3 SE +/- 6605.00, N = 2 126764 124746
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: XZ 0 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30 60 90 120 150 SE +/- 9.50, N = 2 121 106
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Zstd 1 - Process: Compression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 110 220 330 440 550 SE +/- 5.08, N = 15 495 484
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Zstd 1 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 200 400 600 800 1000 SE +/- 2.54, N = 15 SE +/- 61.50, N = 2 829 737
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Zstd 8 - Process: Compression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 20 40 60 80 100 SE +/- 7.00, N = 2 99 66
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Zstd 8 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 200 400 600 800 1000 SE +/- 4.58, N = 3 SE +/- 30.50, N = 2 846 795
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Crush 0 - Process: Compression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 20 40 60 80 100 SE +/- 2.74, N = 15 SE +/- 4.50, N = 2 107 62
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Crush 0 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 100 200 300 400 500 SE +/- 0.19, N = 15 SE +/- 18.50, N = 2 467 432
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Brotli 0 - Process: Compression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 90 180 270 360 450 SE +/- 11.94, N = 12 SE +/- 21.00, N = 2 399 359
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Brotli 0 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 130 260 390 520 650 SE +/- 0.30, N = 12 SE +/- 0.50, N = 2 580 551
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Brotli 2 - Process: Compression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 40 80 120 160 200 SE +/- 1.81, N = 15 SE +/- 3.00, N = 2 186 176
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Brotli 2 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 140 280 420 560 700 SE +/- 1.00, N = 15 SE +/- 29.50, N = 2 670 607
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Libdeflate 1 - Process: Compression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 60 120 180 240 300 SE +/- 9.50, N = 2 253 234
OpenBenchmarking.org MB/s, More Is Better lzbench 1.8 Test: Libdeflate 1 - Process: Decompression ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 300 600 900 1200 1500 SE +/- 1.86, N = 3 SE +/- 4.50, N = 2 1227 1195
Go Benchmarks Benchmark for monitoring real time performance of the Go implementation for HTTP, JSON and garbage testing per iteration. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Nanoseconds/Operation, Fewer Is Better Go Benchmarks Test: http ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 2K 4K 6K 8K 10K SE +/- 49.87, N = 3 SE +/- 721.00, N = 2 7360 10015
OpenBenchmarking.org Nanoseconds/Operation, Fewer Is Better Go Benchmarks Test: json ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 1.6M 3.2M 4.8M 6.4M 8M SE +/- 5824.56, N = 3 SE +/- 6400.50, N = 2 1764387 7576512
OpenBenchmarking.org Nanoseconds/Operation, Fewer Is Better Go Benchmarks Test: build gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 6000M 12000M 18000M 24000M 30000M SE +/- 895430050.00, N = 2 SE +/- 717581607.23, N = 13 26780406350 29396637323
OpenBenchmarking.org Nanoseconds/Operation, Fewer Is Better Go Benchmarks Test: garbage ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 400K 800K 1200K 1600K 2000K SE +/- 1478.21, N = 3 SE +/- 1604.50, N = 2 702173 2095389
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 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 600 1200 1800 2400 3000 SE +/- 16.06, N = 4 2702.31
OpenBenchmarking.org Mflops, More Is Better Java SciMark 2.0 Computational Test: Fast Fourier Transform ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 400 800 1200 1600 2000 SE +/- 100.20, N = 4 1884.62
OpenBenchmarking.org Mflops, More Is Better Java SciMark 2.0 Computational Test: Sparse Matrix Multiply ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 600 1200 1800 2400 3000 SE +/- 3.33, N = 4 2631.32
OpenBenchmarking.org Mflops, More Is Better Java SciMark 2.0 Computational Test: Dense LU Matrix Factorization ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 1200 2400 3600 4800 6000 SE +/- 24.43, N = 4 5454.50
OpenBenchmarking.org Mflops, More Is Better Java SciMark 2.0 Computational Test: Jacobi Successive Over-Relaxation ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 400 800 1200 1600 2000 SE +/- 1.99, N = 4 1893.59
OpenBenchmarking.org ms, Fewer Is Better Renaissance 0.10.0 Test: Genetic Algorithm Using Jenetics + Futures ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 200 400 600 800 1000 SE +/- 6.99, N = 5 1094.25
CacheBench This is a performance test of CacheBench, which is part of LLCbench. CacheBench is designed to test the memory and cache bandwidth performance Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org MB/s, More Is Better CacheBench Test: Read ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 2K 4K 6K 8K 10K SE +/- 7.48, N = 3 SE +/- 9.48, N = 2 10689 10266 MIN: 10642.59 / MAX: 10718.22
OpenBenchmarking.org MB/s, More Is Better CacheBench Test: Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 7K 14K 21K 28K 35K SE +/- 31.99, N = 3 SE +/- 18.37, N = 2 31500 14963 MIN: 30621.71 / MAX: 32079.18
OpenBenchmarking.org MB/s, More Is Better CacheBench Test: Read / Modify / Write gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 12K 24K 36K 48K 60K SE +/- 116.46, N = 2 SE +/- 10.61, N = 3 56817 31607 MIN: 31171.78 / MAX: 31896.35
OpenBenchmarking.org Real C/S, More Is Better John The Ripper 1.9.0-jumbo-1 Test: MD5 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 400K 800K 1200K 1600K 2000K SE +/- 3382.96, N = 3 SE +/- 16982.50, N = 2 1659667 383499
OpenBenchmarking.org FPS, More Is Better dav1d 0.7.0 Video Input: Summer Nature 4K ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 40 80 120 160 200 SE +/- 0.07, N = 3 190.91 MIN: 190.51 / MAX: 191.36
OpenBenchmarking.org FPS, More Is Better dav1d 0.7.0 Video Input: Summer Nature 1080p ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 150 300 450 600 750 SE +/- 1.30, N = 3 693.26 MIN: 691.28 / MAX: 696.83
OpenBenchmarking.org FPS, More Is Better dav1d 0.7.0 Video Input: Chimera 1080p 10-bit ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 20 40 60 80 100 SE +/- 0.89, N = 3 102.19 MIN: 100.46 / MAX: 103.51
SVT-AV1 This is a test of the Intel Open Visual Cloud Scalable Video Technology SVT-AV1 CPU-based multi-threaded video encoder for the AV1 video format with a sample 1080p YUV video file. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Frames Per Second, More Is Better SVT-AV1 0.8 Encoder Mode: Enc Mode 8 - Input: 1080p ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 16 32 48 64 80 SE +/- 0.89, N = 3 SE +/- 3.62, N = 2 71.10 15.35
SVT-HEVC This is a test of the Intel Open Visual Cloud Scalable Video Technology SVT-HEVC CPU-based multi-threaded video encoder for the HEVC / H.265 video format with a sample 1080p YUV video file. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Frames Per Second, More Is Better SVT-HEVC 1.4.1 1080p 8-bit YUV To HEVC Video Encode ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30 60 90 120 150 SE +/- 1.03, N = 3 SE +/- 4.89, N = 2 131.19 32.68
SVT-VP9 This is a test of the Intel Open Visual Cloud Scalable Video Technology SVT-VP9 CPU-based multi-threaded video encoder for the VP9 video format with a sample 1080p YUV video file. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Frames Per Second, More Is Better SVT-VP9 0.1 Tuning: VMAF Optimized - Input: Bosphorus 1080p ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 50 100 150 200 250 SE +/- 3.40, N = 4 SE +/- 6.42, N = 2 250.12 12.19
OpenBenchmarking.org Frames Per Second, More Is Better SVT-VP9 0.1 Tuning: PSNR/SSIM Optimized - Input: Bosphorus 1080p ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 60 120 180 240 300 SE +/- 0.66, N = 3 SE +/- 43.05, N = 2 255.94 82.32
OpenBenchmarking.org Frames Per Second, More Is Better SVT-VP9 0.1 Tuning: Visual Quality Optimized - Input: Bosphorus 1080p ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 50 100 150 200 250 SE +/- 0.73, N = 3 SE +/- 4.09, N = 2 229.51 92.42
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 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 20 40 60 80 100 SE +/- 0.07, N = 3 SE +/- 0.16, N = 2 22.39 90.59
XZ Compression This test measures the time needed to compress a sample file (an Ubuntu file-system image) using XZ compression. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better XZ Compression 5.2.4 Compressing ubuntu-16.04.3-server-i386.img, Compression Level 9 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 16 32 48 64 80 SE +/- 0.10, N = 3 SE +/- 0.23, N = 2 23.25 71.72
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 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 12 24 36 48 60 SE +/- 0.08, N = 3 SE +/- 0.28, N = 2 49.11 55.30
OpenBenchmarking.org Seconds, Fewer Is Better Minion 1.8 Benchmark: Solitaire ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 12 24 36 48 60 SE +/- 0.09, N = 3 SE +/- 1.41, N = 2 48.14 55.53
OpenBenchmarking.org Seconds, Fewer Is Better Minion 1.8 Benchmark: Quasigroup ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30 60 90 120 150 SE +/- 0.06, N = 3 SE +/- 0.04, N = 2 112 120
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: On-Disk - Test: Normal Load - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 300 600 900 1200 1500 SE +/- 3.82, N = 3 SE +/- 103.20, N = 2 1308 955
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: On-Disk - Test: Single Thread - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 5K 10K 15K 20K 25K SE +/- 1036.17, N = 3 SE +/- 393.16, N = 2 23456 4635
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Mostly RAM - Test: Normal Load - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30K 60K 90K 120K 150K SE +/- 188.04, N = 3 SE +/- 199.35, N = 2 130419 17827
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: On-Disk - Test: Single Thread - Mode: Read Write gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 30 60 90 120 150 SE +/- 12.82, N = 2 SE +/- 0.06, N = 3 113.86 42.20
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Buffer Test - Test: Normal Load - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30K 60K 90K 120K 150K SE +/- 147.02, N = 3 SE +/- 703.11, N = 2 144452 45406
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Mostly RAM - Test: Normal Load - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 3K 6K 9K 12K 15K SE +/- 208.15, N = 3 SE +/- 9.49, N = 2 12878 2371
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Buffer Test - Test: Normal Load - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 8K 16K 24K 32K 40K SE +/- 286.01, N = 3 SE +/- 544.99, N = 2 37125 4266
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Mostly RAM - Test: Single Thread - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 800 1600 2400 3200 4000 SE +/- 30.14, N = 3 SE +/- 62.11, N = 2 3776 1228
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: On-Disk - Test: Heavy Contention - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 80K 160K 240K 320K 400K SE +/- 3449.36, N = 3 SE +/- 5505.21, N = 2 388300 68793
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Buffer Test - Test: Single Thread - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 3K 6K 9K 12K 15K SE +/- 186.00, N = 15 SE +/- 144.12, N = 2 14115 3487
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Mostly RAM - Test: Single Thread - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 300 600 900 1200 1500 SE +/- 21.22, N = 3 SE +/- 67.60, N = 2 1339 287
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: On-Disk - Test: Heavy Contention - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 300 600 900 1200 1500 SE +/- 4.65, N = 3 SE +/- 8.48, N = 2 1273 937
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Buffer Test - Test: Single Thread - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 400 800 1200 1600 2000 SE +/- 7.66, N = 3 SE +/- 34.47, N = 2 2016 515
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Mostly RAM - Test: Heavy Contention - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30K 60K 90K 120K 150K SE +/- 1223.99, N = 3 SE +/- 258.46, N = 2 126996 14202
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Buffer Test - Test: Heavy Contention - Mode: Read Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 30K 60K 90K 120K 150K SE +/- 681.59, N = 3 SE +/- 21.80, N = 2 143212 35516
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Mostly RAM - Test: Heavy Contention - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 3K 6K 9K 12K 15K SE +/- 462.41, N = 9 SE +/- 29.50, N = 2 12277 2223
OpenBenchmarking.org TPS, More Is Better PostgreSQL pgbench 12.0 Scaling: Buffer Test - Test: Heavy Contention - Mode: Read Write ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 8K 16K 24K 32K 40K SE +/- 287.62, N = 3 SE +/- 98.38, N = 2 36148 3645
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.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Boat - Acceleration: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.1395 0.279 0.4185 0.558 0.6975 SE +/- 0.001, N = 3 SE +/- 0.033, N = 2 0.382 0.620
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Boat - Acceleration: CPU-only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.135 0.27 0.405 0.54 0.675 SE +/- 0.001, N = 3 SE +/- 0.037, N = 2 0.376 0.600
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Masskrug - Acceleration: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.18 0.36 0.54 0.72 0.9 SE +/- 0.001, N = 3 SE +/- 0.080, N = 2 0.457 0.800
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Masskrug - Acceleration: CPU-only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.1643 0.3286 0.4929 0.6572 0.8215 SE +/- 0.001, N = 3 SE +/- 0.011, N = 2 0.457 0.730
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Server Rack - Acceleration: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.0923 0.1846 0.2769 0.3692 0.4615 SE +/- 0.001, N = 3 SE +/- 0.033, N = 2 0.258 0.410
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Server Room - Acceleration: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.1913 0.3826 0.5739 0.7652 0.9565 SE +/- 0.002, N = 3 SE +/- 0.112, N = 2 0.447 0.850
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Server Rack - Acceleration: CPU-only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.0833 0.1666 0.2499 0.3332 0.4165 SE +/- 0.001, N = 3 SE +/- 0.042, N = 2 0.261 0.370
OpenBenchmarking.org Seconds, Fewer Is Better Darktable 2.4.1 Test: Server Room - Acceleration: CPU-only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 0.1868 0.3736 0.5604 0.7472 0.934 SE +/- 0.001, N = 3 SE +/- 0.061, N = 2 0.464 0.830
Blender Blender is an open-source 3D creation software project. This test is of Blender's Cycles benchmark with various sample files. GPU computing via OpenCL or CUDA is supported. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: BMW27 - Compute: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 90 180 270 360 450 SE +/- 5.71, N = 3 SE +/- 1.72, N = 2 378 414
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: BMW27 - Compute: CPU-Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 70 140 210 280 350 SE +/- 0.34, N = 3 SE +/- 3.10, N = 2 69.77 317.76
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Classroom - Compute: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 200 400 600 800 1000 SE +/- 2.41, N = 3 SE +/- 3.63, N = 2 303 903
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Fishy Cat - Compute: OpenCL gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 300 600 900 1200 1500 SE +/- 6.72, N = 2 SE +/- 8.08, N = 3 1193 1209
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Barbershop - Compute: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 400 800 1200 1600 2000 SE +/- 6.95, N = 9 SE +/- 10.68, N = 2 614 1748
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Classroom - Compute: CPU-Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 200 400 600 800 1000 SE +/- 0.79, N = 3 SE +/- 9.55, N = 2 188 887
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Fishy Cat - Compute: CPU-Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 110 220 330 440 550 SE +/- 0.94, N = 3 SE +/- 37.68, N = 2 104 529
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Barbershop - Compute: CPU-Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 400 800 1200 1600 2000 SE +/- 1.12, N = 3 SE +/- 22.16, N = 2 303 1693
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Pabellon Barcelona - Compute: OpenCL ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 400 800 1200 1600 2000 SE +/- 3.72, N = 3 SE +/- 2.79, N = 2 1211 2002
OpenBenchmarking.org Seconds, Fewer Is Better Blender 2.82 Blend File: Pabellon Barcelona - Compute: CPU-Only ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 300 600 900 1200 1500 SE +/- 0.87, N = 3 SE +/- 1.71, N = 2 225 1206
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 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 160 320 480 640 800 SE +/- 4.83, N = 3 SE +/- 7.57, N = 2 731 673
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 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 1400 2800 4200 5600 7000 SE +/- 32.15, N = 3 6503.83
Novabench This is a benchmark of Novabench. The test profile automates the execution of Novabench under the Phoronix Test Suite, assuming you have a valid license key for Novabench Pro or Novabench Commercial. This test will not work without a valid license key and activating Novabench. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org CPU Score, More Is Better Novabench Test: CPU ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 140 280 420 560 700 SE +/- 11.10, N = 15 633
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 ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 80K 160K 240K 320K 400K SE +/- 563.19, N = 3 SE +/- 596.00, N = 2 382488 234849
Tesseract OCR Tesseract-OCR is the open-source optical character recognition (OCR) engine for the conversion of text within images to raw text output. This test profile relies upon a system-supplied Tesseract installation. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Tesseract OCR v4.0.0.20181030 Time To OCR 7 Images ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 80 160 240 320 400 SE +/- 0.21, N = 3 SE +/- 3.22, N = 2 53.89 381.47
ThreadR1-win10-ent-CCTA-CPU-Massive-21sep2020 Processor: AMD Ryzen Threadripper 3960X 24-Core @ 3.80GHz (24 Cores / 48 Threads), Motherboard: MSI Creator TRX40 (MS-7C59) (1.50 BIOS), Memory: 4 x 16384 MB 1800MHz CMT64GX4M4K3600C16, Disk: 932GB Samsung SSD 860 EVO 1TB + 2 x 466GB Force MP600 + 4 x 477GB Samsung SSD 970 PRO 512GB + 57GB SanDisk Cruzer Blade USB + 477GB Samsung SSD 860 PRO 512GB + 10GB USB DISK CD USB + 932GB Force MP600 + 932GB JMicron Generic Disk + 932GB Inateck ASM1153E Disk + 954GB Inateck Disk + 954GB Samsung SSD 860 PRO 1TB + 1863GB Inateck ASM1153E Disk, Graphics: AMD Radeon VII 4GB, Network: Intel I211 Gigabit Connection + Intel Wi-Fi 6 AX200 160MHz
OS: Microsoft Windows 10 Enterprise LTSC Build 17763, Kernel: 10.0 (x86_64), Display Driver: 27.20.1027.2005, OpenCL: OpenCL 2.1 AMD-APP (3075.13), Compiler: GCC 8.3.0, File-System: NTFS, Screen Resolution: 1920x1080
Java Notes: OpenJDK Runtime Environment 18.9 (build 11.0.6+10-LTS)Python Notes: Python 3.7.9Security Notes: __user pointer sanitization: Disabled + Retpoline: Full + IBPB: Always + STIBP: Enabled
Testing initiated at 22 September 2020 01:01 by user SpingBasic.
gnsft-win10-pro3-vm1-ccta-cpu-massive-8jan2021 Processor: AMD Ryzen Threadripper 3960X 24-Core @ 3.80GHz (8 Cores), Motherboard: Intel 440BX, Memory: 1 x 16384 MB 0MHz VMW-16384MB, Disk: 512GB VMware Virtual S, Graphics: VMware SVGA 3D, Network: TAP-Windows V9 + Intel Dual Band Wireless-AC 8265 + Bluetooth Device (Personal Area )
OS: Microsoft Windows 10 Pro Build 18362, Kernel: 10.0 (x86_64), Display Driver: 8.16.7.5, Compiler: GCC 7.1.0, File-System: NTFS, Screen Resolution: 919x968, System Layer: VMware
Testing initiated at 9 January 2021 02:31 by user Chi.