CompuLab Utilite Quad-Core ARM PC Testing by Michael Larabel of Phoronix.
Compare your own system(s) to this result file with the
Phoronix Test Suite by running the command:
phoronix-test-suite benchmark 1401235-PL-COMPULABU49 CompuLab Utilite Processor: ARMv7 rev 10 @ 1.00GHz (4 Cores), Motherboard: Compulab CM-FX6, Memory: 2048MB, Disk: 32GB SanDisk SSD U100, Graphics: GC2000 Engine, Network: Intel I211 Gigabit Connection
OS: Ubuntu 12.04, Kernel: 3.0.35-cm-fx6-5.1 (armv7l), Desktop: GNOME 3.2.1, Display Server: X Server 1.11.3, OpenGL: 2.1, Compiler: GCC 4.6, File-System: ext4, Screen Resolution: 1920x1080
Compiler Notes: --build=arm-linux-gnueabi --disable-sjlj-exceptions --disable-werror --enable-checking=release --enable-clocale=gnu --enable-gnu-unique-object --enable-languages=c,c++,fortran,objc,obj-c++ --enable-libstdcxx-debug --enable-libstdcxx-time=yes --enable-multilib --enable-nls --enable-objc-gc --enable-plugin --enable-shared --enable-threads=posix --host=arm-linux-gnueabi --target=arm-linux-gnueabi --with-arch=armv7-a --with-float=softfp --with-fpu=vfpv3-d16 --with-mode=thumb -vProcessor Notes: Scaling Governor: imx ondemand
TSCP OpenBenchmarking.org Nodes Per Second, More Is Better TSCP 1.81 AI Chess Performance CompuLab Utilite 30K 60K 90K 120K 150K SE +/- 843.03, N = 5 127979 1. (CC) gcc options: -O3 -march=native
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 CompuLab Utilite 14 28 42 56 70 SE +/- 0.07, N = 4 62.15
OpenBenchmarking.org Mflops, More Is Better SciMark 2.0 Computational Test: Jacobi Successive Over-Relaxation CompuLab Utilite 30 60 90 120 150 SE +/- 0.10, N = 4 124.12
Crafty OpenBenchmarking.org Seconds, Fewer Is Better Crafty 23.4 Elapsed Time CompuLab Utilite 0.0248 0.0496 0.0744 0.0992 0.124 SE +/- 0.00, N = 6 0.11 1. (CC) gcc options: -lstdc++ -lm
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 CompuLab Utilite 1.0418 2.0836 3.1254 4.1672 5.209 SE +/- 0.27, N = 10 4.63 1. (CC) gcc options: --openmp -O3 -lm
HPC Challenge OpenBenchmarking.org GFLOPS, More Is Better HPC Challenge 1.4.3 Test / Class: G-HPL CompuLab Utilite 0.4537 0.9074 1.3611 1.8148 2.2685 SE +/- 0.00153, N = 3 2.01655 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org GFLOPS, More Is Better HPC Challenge 1.4.3 Test / Class: G-Ffte CompuLab Utilite 0.0562 0.1124 0.1686 0.2248 0.281 SE +/- 0.00089, N = 3 0.24977 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org GFLOPS, More Is Better HPC Challenge 1.4.3 Test / Class: EP-DGEMM CompuLab Utilite 0.1282 0.2564 0.3846 0.5128 0.641 SE +/- 0.00029, N = 3 0.56971 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org GB/s, More Is Better HPC Challenge 1.4.3 Test / Class: G-Ptrans CompuLab Utilite 0.0202 0.0404 0.0606 0.0808 0.101 SE +/- 0.00203, N = 3 0.08971 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org GB/s, More Is Better HPC Challenge 1.4.3 Test / Class: EP-STREAM Triad CompuLab Utilite 0.1158 0.2316 0.3474 0.4632 0.579 SE +/- 0.00478, N = 3 0.51484 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org GUP/s, More Is Better HPC Challenge 1.4.3 Test / Class: G-Random Access CompuLab Utilite 0.0004 0.0008 0.0012 0.0016 0.002 SE +/- 0.00001, N = 3 0.00162 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org usecs, Fewer Is Better HPC Challenge 1.4.3 Test / Class: Random Ring Latency CompuLab Utilite 0.9739 1.9478 2.9217 3.8956 4.8695 SE +/- 0.02778, N = 3 4.32837 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org GB/s, More Is Better HPC Challenge 1.4.3 Test / Class: Random Ring Bandwidth CompuLab Utilite 0.0319 0.0638 0.0957 0.1276 0.1595 SE +/- 0.00126, N = 3 0.14196 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
OpenBenchmarking.org MB/s, More Is Better HPC Challenge 1.4.3 Test / Class: Max Ping Pong Bandwidth CompuLab Utilite 150 300 450 600 750 SE +/- 7.87, N = 3 711.96 1. (CC) gcc options: -lblas -lm -pthread -lmpi -lopen-rte -lopen-pal -ldl -lnsl -lutil -fomit-frame-pointer -O3 -march=native -funroll-loops 2. BLAS + Open MPI 1.4.3
Dolfyn Dolfyn is a Computational Fluid Dynamics (CFD) code of modern numerical simulation techniques. The Dolfyn test profile measures the execution time of the bundled computational fluid dynamics demos that are bundled with Dolfyn. Learn more via the OpenBenchmarking.org test page.
OpenBenchmarking.org Seconds, Fewer Is Better Dolfyn 0.527 Computational Fluid Dynamics CompuLab Utilite 130 260 390 520 650 SE +/- 1.29, N = 3 578.60
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 5.0 Test: N=64, 1D Complex FFT Routine CompuLab Utilite 80 160 240 320 400 SE +/- 0.47, N = 3 387.34 1. (F9X) gfortran options: -O3 -fomit-frame-pointer -fopenmp -lmpichf90 -lmpich -lopa -lmpl -lrt -lcr -lpthread
Primesieve OpenBenchmarking.org Seconds, Fewer Is Better Primesieve 4.2 1e12 Prime Number Generation CompuLab Utilite 300 600 900 1200 1500 SE +/- 44.53, N = 3 1382.41 1. (CXX) g++ options: -O2 -fopenmp
x264 OpenBenchmarking.org Frames Per Second, More Is Better x264 2014-01-09 H.264 Video Encoding CompuLab Utilite 3 6 9 12 15 SE +/- 0.08, N = 5 9.06 1. (CC) gcc options: -ldl -lm -lpthread
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 CompuLab Utilite 140 280 420 560 700 SE +/- 4.34, N = 3 630.47 1. (CC) gcc options: -lm -lpthread -O3
FFmpeg OpenBenchmarking.org Seconds, Fewer Is Better FFmpeg 2.1.1 H.264 HD To NTSC DV CompuLab Utilite 80 160 240 320 400 SE +/- 1.40, N = 3 357.63 1. (CC) gcc options: -lavdevice -lavfilter -lavformat -lavcodec -lswresample -lswscale -lavutil -ldl -lm -pthread -lrt -march=armv7-a -std=c99 -fomit-frame-pointer -mthumb -O3 -fno-math-errno -fno-signed-zeros -fno-tree-vectorize -MMD -MF -MT
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; 100 Samples CompuLab Utilite 300 600 900 1200 1500 SE +/- 0.58, N = 3 1419 1. (CXX) g++ options: -fopenmp
Apache Benchmark OpenBenchmarking.org Requests Per Second, More Is Better Apache Benchmark 2.4.7 Static Web Page Serving CompuLab Utilite 500 1000 1500 2000 2500 SE +/- 1.78, N = 3 2512.24 1. (CC) gcc options: -shared -fPIC -O2 -pthread
OpenSSL OpenBenchmarking.org Signs Per Second, More Is Better OpenSSL 1.0.1f RSA 4096-bit Performance CompuLab Utilite 4 8 12 16 20 SE +/- 0.00, N = 3 16.60 1. (CC) gcc options: -march=armv7-a -O3 -lssl -lcrypto -ldl
CompuLab Utilite Processor: ARMv7 rev 10 @ 1.00GHz (4 Cores), Motherboard: Compulab CM-FX6, Memory: 2048MB, Disk: 32GB SanDisk SSD U100, Graphics: GC2000 Engine, Network: Intel I211 Gigabit Connection
OS: Ubuntu 12.04, Kernel: 3.0.35-cm-fx6-5.1 (armv7l), Desktop: GNOME 3.2.1, Display Server: X Server 1.11.3, OpenGL: 2.1, Compiler: GCC 4.6, File-System: ext4, Screen Resolution: 1920x1080
Compiler Notes: --build=arm-linux-gnueabi --disable-sjlj-exceptions --disable-werror --enable-checking=release --enable-clocale=gnu --enable-gnu-unique-object --enable-languages=c,c++,fortran,objc,obj-c++ --enable-libstdcxx-debug --enable-libstdcxx-time=yes --enable-multilib --enable-nls --enable-objc-gc --enable-plugin --enable-shared --enable-threads=posix --host=arm-linux-gnueabi --target=arm-linux-gnueabi --with-arch=armv7-a --with-float=softfp --with-fpu=vfpv3-d16 --with-mode=thumb -vProcessor Notes: Scaling Governor: imx ondemand
Testing initiated at 23 January 2014 15:00 by user utilite.