File suite-definition.xml of Package phoronix-test-suite_data

<?xml version="1.0"?>
<!--Phoronix Test Suite v5.4.1 (Lipki)-->
<PhoronixTestSuite>
  <SuiteInformation>
    <Title>SUSE Basic test suite</Title>
    <Version>1.0.0</Version>
    <TestType>Other</TestType>
    <Description>All basic and small PTS tests</Description>
    <Maintainer>aginies@suse.com</Maintainer>
  </SuiteInformation>
  <Execute>
    <Test>pts/aio-stress</Test>
    <Arguments>-o 2</Arguments>
    <Description>Test: Random Write</Description>
  </Execute>
  <Execute>
    <Test>pts/bork</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/byte</Test>
    <Arguments>TEST_DHRY2</Arguments>
    <Description>Computational Test: Dhrystone 2</Description>
  </Execute>
  <Execute>
    <Test>pts/byte</Test>
    <Arguments>TEST_REGISTER</Arguments>
    <Description>Computational Test: Register Arithmetic</Description>
  </Execute>
  <Execute>
    <Test>pts/byte</Test>
    <Arguments>TEST_INT</Arguments>
    <Description>Computational Test: Integer Arithmetic</Description>
  </Execute>
  <Execute>
    <Test>pts/byte</Test>
    <Arguments>TEST_FLOAT</Arguments>
    <Description>Computational Test: Floating-Point Arithmetic</Description>
  </Execute>
  <Execute>
    <Test>pts/cachebench</Test>
    <Arguments>-r</Arguments>
    <Description>Test: Read</Description>
  </Execute>
  <Execute>
    <Test>pts/cachebench</Test>
    <Arguments>-w</Arguments>
    <Description>Test: Write</Description>
  </Execute>
  <Execute>
    <Test>pts/cachebench</Test>
    <Arguments>-b</Arguments>
    <Description>Test: Read / Modify / Write</Description>
  </Execute>
  <Execute>
    <Test>pts/ffte</Test>
    <Arguments>echo 64; exec tests/speed1d</Arguments>
    <Description>Test: N=64, 1D Complex FFT Routine</Description>
  </Execute>
  <Execute>
    <Test>pts/hdparm-read</Test>
    <Arguments>-t /dev/sda</Arguments>
    <Description>Disk To Read: /dev/sda</Description>
  </Execute>
  <Execute>
    <Test>pts/hdparm-read</Test>
    <Arguments>-t /dev/sda1</Arguments>
    <Description>Disk To Read: /dev/sda1</Description>
  </Execute>
  <Execute>
    <Test>pts/hdparm-read</Test>
    <Arguments>-t /dev/sda2</Arguments>
    <Description>Disk To Read: /dev/sda2</Description>
  </Execute>
  <Execute>
    <Test>pts/hint</Test>
    <Arguments>DOUBLE</Arguments>
    <Description>Test: DOUBLE</Description>
  </Execute>
<!--
  <Execute>
    <Test>pts/hint</Test>
    <Arguments>FLOAT</Arguments>
    <Description>Test: FLOAT</Description>
  </Execute>
  <Execute>
    <Test>pts/hint</Test>
    <Arguments>INT</Arguments>
    <Description>Test: INT</Description>
  </Execute>
-->
  <Execute>
    <Test>pts/idle</Test>
    <Arguments>2</Arguments>
    <Description>Time To Idle (In Minutes): 2</Description>
  </Execute>
  <Execute>
    <Test>pts/idle-power-usage</Test>
    <Arguments>2</Arguments>
    <Description>Minutes Idle: 2</Description>
  </Execute>
  <Execute>
    <Test>pts/java-scimark2</Test>
    <Arguments>TEST_COMPOSITE</Arguments>
    <Description>Computational Test: Composite</Description>
  </Execute>
  <Execute>
    <Test>pts/java-scimark2</Test>
    <Arguments>TEST_FFT</Arguments>
    <Description>Computational Test: Fast Fourier Transform</Description>
  </Execute>
  <Execute>
    <Test>pts/java-scimark2</Test>
    <Arguments>TEST_SOR</Arguments>
    <Description>Computational Test: Jacobi Successive Over-Relaxation</Description>
  </Execute>
  <Execute>
    <Test>pts/java-scimark2</Test>
    <Arguments>TEST_MONTE</Arguments>
    <Description>Computational Test: Monte Carlo</Description>
  </Execute>
  <Execute>
    <Test>pts/java-scimark2</Test>
    <Arguments>TEST_SPARSE</Arguments>
    <Description>Computational Test: Sparse Matrix Multiply</Description>
  </Execute>
  <Execute>
    <Test>pts/java-scimark2</Test>
    <Arguments>TEST_DENSE</Arguments>
    <Description>Computational Test: Dense LU Matrix Factorization</Description>
  </Execute>
  <Execute>
    <Test>pts/jgfxbat</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/network-loopback</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/noise-level</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/phpbench</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/postmark</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/pybench</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/sample-program</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/scimark2</Test>
    <Arguments>TEST_COMPOSITE</Arguments>
    <Description>Computational Test: Composite</Description>
  </Execute>
  <Execute>
    <Test>pts/scimark2</Test>
    <Arguments>TEST_FFT</Arguments>
    <Description>Computational Test: Fast Fourier Transform</Description>
  </Execute>
  <Execute>
    <Test>pts/scimark2</Test>
    <Arguments>TEST_SOR</Arguments>
    <Description>Computational Test: Jacobi Successive Over-Relaxation</Description>
  </Execute>
  <Execute>
    <Test>pts/scimark2</Test>
    <Arguments>TEST_MONTE</Arguments>
    <Description>Computational Test: Monte Carlo</Description>
  </Execute>
  <Execute>
    <Test>pts/scimark2</Test>
    <Arguments>TEST_SPARSE</Arguments>
    <Description>Computational Test: Sparse Matrix Multiply</Description>
  </Execute>
  <Execute>
    <Test>pts/scimark2</Test>
    <Arguments>TEST_DENSE</Arguments>
    <Description>Computational Test: Dense LU Matrix Factorization</Description>
  </Execute>
  <Execute>
    <Test>pts/stream</Test>
    <Arguments>Copy</Arguments>
    <Description>Type: Copy</Description>
  </Execute>
  <Execute>
    <Test>pts/stream</Test>
    <Arguments>Scale</Arguments>
    <Description>Type: Scale</Description>
  </Execute>
  <Execute>
    <Test>pts/stream</Test>
    <Arguments>Add</Arguments>
    <Description>Type: Add</Description>
  </Execute>
  <Execute>
    <Test>pts/stream</Test>
    <Arguments>Triad</Arguments>
    <Description>Type: Triad</Description>
  </Execute>
  <Execute>
    <Test>pts/systemd-boot-kernel</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/systemd-boot-total</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/systemd-boot-userspace</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
  <Execute>
    <Test>pts/systester</Test>
    <Arguments>-gausslg 4M -threads 4</Arguments>
    <Description>Algorithm Choice: Gauss-Legendre algorithm - Digits To Calculate: 4 Million Digits - Number of Threads: 4 threads</Description>
  </Execute>
  <Execute>
    <Test>pts/tiobench</Test>
    <Arguments>-k3 -k2 -k1 -f 128 -t 8</Arguments>
    <Description>Test: Write - Size Per Thread: 128MB - Thread Count: 8</Description>
  </Execute>
  <Execute>
    <Test>pts/tiobench</Test>
    <Arguments>-k3 -k2 -f 128 -t 8</Arguments>
    <Description>Test: Random Write - Size Per Thread: 128MB - Thread Count: 8</Description>
  </Execute>
  <Execute>
    <Test>pts/tiobench</Test>
    <Arguments>-k3 -k1 -f 128 -t 8</Arguments>
    <Description>Test: Read - Size Per Thread: 128MB - Thread Count: 8</Description>
  </Execute>
  <Execute>
    <Test>pts/tiobench</Test>
    <Arguments>-k2 -k1 -f 128 -t 8</Arguments>
    <Description>Test: Random Read - Size Per Thread: 128MB - Thread Count: 8</Description>
  </Execute>
  <Execute>
    <Test>pts/tscp</Test>
    <Arguments></Arguments>
    <Description></Description>
  </Execute>
</PhoronixTestSuite>