- [Main thread Apr 29 22:13] Mersenne number primality test program version 27.9
- [Main thread Apr 29 22:13] Optimizing for CPU architecture: AMD K10, L2 cache size: 512 KB, L3 cache size: 2 MB
- Welcome to GIMPS, the hunt for huge prime numbers. You will be asked a
- few simple questions and then the program will contact the primenet server
- to get some work for your computer. Good luck!
- Attention OVERCLOCKERS!! Mprime has gained a reputation as a useful
- stress testing tool for people that enjoy pushing their hardware to the
- limit. You are more than welcome to use this software for that purpose.
- Please select the stress testing choice below to avoid interfering with
- the PrimeNet server. Use the Options/Torture Test menu choice for your
- stress tests. Also, read the stress.txt file.
- If you want to both join GIMPS and run stress tests, then Join GIMPS and
- answer the questions. After the server gets some work for you, stop
- mprime, then run mprime -m and choose Options/Torture Test.
- Join Gimps? (Y=Yes, N=Just stress testing) (Y): Number of torture test threads to run (4): Choose a type of torture test to run.
- 1 = Small FFTs (maximum FPU stress, data fits in L2 cache, RAM not tested
- much).
- 2 = In-place large FFTs (maximum heat and power consumption, some RAM
- tested).
- 3 = Blend (tests some of everything, lots of RAM tested).
- 11,12,13 = Allows you to fine tune the above three selections.
- Blend is the default. NOTE: if you fail the blend test, but can pass the
- small FFT test then your problem is likely bad memory or a bad memory
- controller.
- Type of torture test to run (3):
- Accept the answers above? (Y): [Main thread Apr 29 22:13] Starting workers.
- [Worker #2 Apr 29 22:13] Worker starting
- [Worker #1 Apr 29 22:13] Worker starting
- [Worker #3 Apr 29 22:13] Worker starting
- [Worker #4 Apr 29 22:13] Worker starting
- [Worker #2 Apr 29 22:13] Setting affinity to run worker on logical CPU #2
- [Worker #1 Apr 29 22:13] Setting affinity to run worker on logical CPU #1
- [Worker #3 Apr 29 22:13] Setting affinity to run worker on logical CPU #3
- [Worker #4 Apr 29 22:13] Setting affinity to run worker on logical CPU #4
- [Worker #2 Apr 29 22:13] Beginning a continuous self-test to check your computer.
- [Worker #2 Apr 29 22:13] Please read stress.txt. Hit ^C to end this test.
- [Worker #3 Apr 29 22:13] Beginning a continuous self-test to check your computer.
- [Worker #3 Apr 29 22:13] Please read stress.txt. Hit ^C to end this test.
- [Worker #1 Apr 29 22:13] Beginning a continuous self-test to check your computer.
- [Worker #1 Apr 29 22:13] Please read stress.txt. Hit ^C to end this test.
- [Worker #4 Apr 29 22:13] Beginning a continuous self-test to check your computer.
- [Worker #4 Apr 29 22:13] Please read stress.txt. Hit ^C to end this test.
- [Worker #1 Apr 29 22:13] Test 1, 6500 Lucas-Lehmer iterations of M12451841 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #3 Apr 29 22:13] Test 1, 6500 Lucas-Lehmer iterations of M12451841 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #4 Apr 29 22:13] Test 1, 6500 Lucas-Lehmer iterations of M12451841 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #2 Apr 29 22:13] Test 1, 6500 Lucas-Lehmer iterations of M12451841 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #1 Apr 29 22:16] Test 2, 6500 Lucas-Lehmer iterations of M12451839 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #2 Apr 29 22:16] Test 2, 6500 Lucas-Lehmer iterations of M12451839 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #3 Apr 29 22:16] Test 2, 6500 Lucas-Lehmer iterations of M12451839 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #4 Apr 29 22:16] Test 2, 6500 Lucas-Lehmer iterations of M12451839 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #3 Apr 29 22:18] Test 3, 6500 Lucas-Lehmer iterations of M12196481 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #1 Apr 29 22:18] Test 3, 6500 Lucas-Lehmer iterations of M12196481 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #2 Apr 29 22:18] Test 3, 6500 Lucas-Lehmer iterations of M12196481 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #4 Apr 29 22:19] Test 3, 6500 Lucas-Lehmer iterations of M12196481 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #3 Apr 29 22:22] Test 4, 6500 Lucas-Lehmer iterations of M11796481 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #1 Apr 29 22:22] Test 4, 6500 Lucas-Lehmer iterations of M11796481 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #2 Apr 29 22:22] Test 4, 6500 Lucas-Lehmer iterations of M11796481 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #4 Apr 29 22:22] Test 4, 6500 Lucas-Lehmer iterations of M11796481 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #1 Apr 29 22:24] Test 5, 6500 Lucas-Lehmer iterations of M11796479 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #3 Apr 29 22:24] Test 5, 6500 Lucas-Lehmer iterations of M11796479 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #2 Apr 29 22:24] Test 5, 6500 Lucas-Lehmer iterations of M11796479 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #4 Apr 29 22:24] Test 5, 6500 Lucas-Lehmer iterations of M11796479 using AMD K10 type-2 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #1 Apr 29 22:27] Test 6, 6500 Lucas-Lehmer iterations of M11596479 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #3 Apr 29 22:27] Test 6, 6500 Lucas-Lehmer iterations of M11596479 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #2 Apr 29 22:27] Test 6, 6500 Lucas-Lehmer iterations of M11596479 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.
- [Worker #4 Apr 29 22:27] Test 6, 6500 Lucas-Lehmer iterations of M11596479 using AMD K10 FFT length 640K, Pass1=640, Pass2=1K.