[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.