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Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9502 - Posted: 10 Jan 2024, 20:03:43 UTC - in response to Message 9501. Last modified: 10 Jan 2024, 20:10:18 UTC
	residues are 0, not correct, Gerbicz=1 must be -Gerbicz=1 How are the CPU temps? Without Gerbiczcheck running you cant find hardware errors. with -Gerbics=1 I get ./llr2 -d -t4 -Gerbicz=1 -q "1328896^204730-1" Invalid switch Usage: llr [-aN] [-bdhmoqv] [-wDIR] [input file name] -aN Use an alternate set of INI and output files. -bN Run in the background. -d Print detailed information to stdout. -h Print this. -m Menu to configure llr. -okeyword=value Set an option in .ini file. -q"expression" Test a single kb^n+c or b^n-b^m+c number. -v Print the version number. -wDIR Run from a different working directory. also without space between q and expression ./llr2 -d -t4 -Gerbicz=1 -q"1328896^204730-1" Invalid switch Usage: llr [-aN] [-bdhmoqv] [-wDIR] [input file name] -aN Use an alternate set of INI and output files. -bN Run in the background. -d Print detailed information to stdout. -h Print this. -m Menu to configure llr. -okeyword=value Set an option in .ini file. -q"expression" Test a single kb^n+c or b^n-b^m+c number. -v Print the version number. -wDIR Run from a different working directory. re-testing ./llr2 -d -t4 Gerbicz=1 -q "13288*96^204730-1" saw a rise in CPU temps from 36 degrees Celsius to 59 in thermal zones 0, 6 and 7 (or all cpu cores).
	ID: 9502 · Rating: 0 · rate: / Reply Quote

rebirther Volunteer moderator Project administrator Project developer Project tester Project scientist Send message Joined: 2 Jan 13 Posts: 7258 Credit: 42,729,227 RAC: 1	Message 9503 - Posted: 10 Jan 2024, 20:05:34 UTC - in response to Message 9502.
	residues are 0, not correct, Gerbicz=1 must be -Gerbicz=1 How are the CPU temps? Without Gerbiczcheck running you cant find hardware errors. with -Gerbics=1 I get ./llr2 -d -t4 -Gerbicz=1 -q "1328896^204730-1" Invalid switch Usage: llr [-aN] [-bdhmoqv] [-wDIR] [input file name] -aN Use an alternate set of INI and output files. -bN Run in the background. -d Print detailed information to stdout. -h Print this. -m Menu to configure llr. -okeyword=value Set an option in .ini file. -q"expression" Test a single kb^n+c or b^n-b^m+c number. -v Print the version number. -wDIR Run from a different working directory. ah yes,try -oGerbicz=1
	ID: 9503 · Rating: 0 · rate: / Reply Quote

Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9504 - Posted: 10 Jan 2024, 20:59:14 UTC
	./llr2 -d -t4 -oGerbicz=1 -q"1328896^204730-1" Gerbicz check is requested, switching to PRP. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 160K, Pass1=640, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 160K, Pass1=640, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Too much errors ; Restarting with next larger FFT length... Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^204730*2^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Too many errors, aborting.
	ID: 9504 · Rating: 0 · rate: / Reply Quote

rebirther Volunteer moderator Project administrator Project developer Project tester Project scientist Send message Joined: 2 Jan 13 Posts: 7258 Credit: 42,729,227 RAC: 1	Message 9505 - Posted: 10 Jan 2024, 21:03:32 UTC - in response to Message 9504. Last modified: 10 Jan 2024, 21:05:42 UTC
	./llr2 -d -t4 -oGerbicz=1 -q"1328896^204730-1" Gerbicz check is requested, switching to PRP. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 160K, Pass1=640, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 160K, Pass1=640, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Too much errors ; Restarting with next larger FFT length... Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^204730*2^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Too many errors, aborting. Thx! I guess its a heating issue, never seen failed +1 bases, so its not the current problem. If you can run without Gerbiczcheck then we know if latest gwnum is running.
	ID: 9505 · Rating: 0 · rate: / Reply Quote

Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9506 - Posted: 10 Jan 2024, 21:08:26 UTC
	If you can run without Gerbiczcheck then we know if latest gwnum is running. Didn't I already do that? If not: what should be the exact command/arguments?
	ID: 9506 · Rating: 0 · rate: / Reply Quote

rebirther Volunteer moderator Project administrator Project developer Project tester Project scientist Send message Joined: 2 Jan 13 Posts: 7258 Credit: 42,729,227 RAC: 1	Message 9507 - Posted: 10 Jan 2024, 21:10:00 UTC - in response to Message 9506.
	If you can run without Gerbiczcheck then we know if latest gwnum is running. Didn't I already do that? If not: what should be the exact command/arguments? remove -oGerbicz=1 from commandline
	ID: 9507 · Rating: 0 · rate: / Reply Quote

Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9508 - Posted: 10 Jan 2024, 21:14:06 UTC - in response to Message 9507. Last modified: 10 Jan 2024, 21:37:47 UTC
	If you can run without Gerbiczcheck then we know if latest gwnum is running. Didn't I already do that? If not: what should be the exact command/arguments? remove -oGerbicz=1 from commandline I already thought of that, but it just starts again -WITH Gerbicz test... ./llr2 -d -t4 -q"1328896^204730-1" Gerbicz check is requested, switching to PRP. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Too much errors ; Restarting with next larger FFT length... Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using zero-padded Pentium4 FFT length 240K, Pass1=320, Pass2=768, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using zero-padded Pentium4 FFT length 240K, Pass1=320, Pass2=768, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using zero-padded Pentium4 FFT length 240K, Pass1=320, Pass2=768, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Continuing from last save file. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using zero-padded Pentium4 FFT length 240K, Pass1=320, Pass2=768, clm=4, 4 threads, a = 3, L2 = 123104 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1600 / 204730 [0.78%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 3199 / 204730 [1.56%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 4798 / 204730 [2.34%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 6397 / 204730 [3.12%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 7996 / 204730 [3.90%], 0 ch1328896^204730-1 = 132883^2047302^1023650-1, bit: 9595 / 204730 [4.68%], 0 ch1328896^204730-1 = 132883^204730*2^1023650-1, bit: 11194 / 204730 [5.46%], 0 c Gerbicz check failed at 12792. Too many errors, aborting.
	ID: 9508 · Rating: 0 · rate: / Reply Quote

rebirther Volunteer moderator Project administrator Project developer Project tester Project scientist Send message Joined: 2 Jan 13 Posts: 7258 Credit: 42,729,227 RAC: 1	Message 9509 - Posted: 10 Jan 2024, 21:18:56 UTC - in response to Message 9508. Last modified: 10 Jan 2024, 21:24:04 UTC
	If you can run without Gerbiczcheck then we know if latest gwnum is running. Didn't I already do that? If not: what should be the exact command/arguments? remove -oGerbicz=1 from commandline I already thought of that, but it just starts again -WITH Gerbicz test... ./llr2 -d -t4 -q"1328896^204730-1" Gerbicz check is requested, switching to PRP. Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using FFT length 192K, Pass1=768, Pass2=256, clm=4, 4 threads, a = 3, L2 = 123*104 never seen it, should not running with, then try -oGerbicz=0 https://www.mersenneforum.org/showthread.php?t=28276&page=3
	ID: 9509 · Rating: 0 · rate: / Reply Quote

Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9510 - Posted: 10 Jan 2024, 22:06:03 UTC - in response to Message 9509. Last modified: 10 Jan 2024, 22:35:50 UTC
	The Pentium J5005 and J5040 have no FMA3 instruction capability (just as the Celerons J4005, J4025, J4105 and J4125): Pentium/Celeron Gemini Lake Instruction set extensions AES / Advanced Encryption Standard + AMD64 / EM64T 64-bit technology + MMX + SSE + SSE2 + SSE3 + SSE4.1 + SSE4.2 + SSSE3 / Supplemental SSE3 +
	ID: 9510 · Rating: 0 · rate: / Reply Quote

Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9511 - Posted: 10 Jan 2024, 22:30:36 UTC
	We've seen this before, with the missing -o before Gerbicz: ./llr2 -d -t4 -oGerbicz=0 -q"1328896^204730-1" Starting probable prime test of 1328896^204730-1 = 132883^2047302^1023650-1 Using zero-padded Pentium4 FFT length 240K, Pass1=320, Pass2=768, clm=4, 4 threads, a = 3 1328896^204730-1 = 132883^2047302^1023650-1, bit: 10000 / 1348154 [0.74%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 20000 / 1348154 [1.48%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 30000 / 1348154 [2.22%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 40000 / 1348154 [2.96%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 50000 / 1348154 [3.70%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 60000 / 1348154 [4.45%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 70000 / 1348154 [5.19%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 80000 / 1348154 [5.93%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 90000 / 1348154 [6.67%]. T1328896^204730-1 = 132883^2047302^1023650-1, bit: 100000 / 1348154 [7.41%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 110000 / 1348154 [8.15%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 120000 / 1348154 [8.90%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 130000 / 1348154 [9.64%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 140000 / 1348154 [10.38%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 150000 / 1348154 [11.12%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 160000 / 1348154 [11.86%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 170000 / 1348154 [12.60%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 180000 / 1348154 [13.35%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 190000 / 1348154 [14.09%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 200000 / 1348154 [14.83%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 210000 / 1348154 [15.57%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 220000 / 1348154 [16.31%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 230000 / 1348154 [17.06%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 240000 / 1348154 [17.80%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 250000 / 1348154 [18.54%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 260000 / 1348154 [19.28%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 270000 / 1348154 [20.02%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 280000 / 1348154 [20.76%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 290000 / 1348154 [21.51%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 300000 / 1348154 [22.25%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 310000 / 1348154 [22.99%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 320000 / 1348154 [23.73%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 330000 / 1348154 [24.47%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 340000 / 1348154 [25.21%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 350000 / 1348154 [25.96%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 360000 / 1348154 [26.70%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 370000 / 1348154 [27.44%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 380000 / 1348154 [28.18%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 390000 / 1348154 [28.92%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 400000 / 1348154 [29.67%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 410000 / 1348154 [30.41%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 420000 / 1348154 [31.15%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 430000 / 1348154 [31.89%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 440000 / 1348154 [32.63%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 450000 / 1348154 [33.37%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 460000 / 1348154 [34.12%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 470000 / 1348154 [34.86%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 480000 / 1348154 [35.60%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 490000 / 1348154 [36.34%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 500000 / 1348154 [37.08%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 510000 / 1348154 [37.82%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 520000 / 1348154 [38.57%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 530000 / 1348154 [39.31%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 540000 / 1348154 [40.05%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 550000 / 1348154 [40.79%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 560000 / 1348154 [41.53%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 570000 / 1348154 [42.28%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 580000 / 1348154 [43.02%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 590000 / 1348154 [43.76%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 600000 / 1348154 [44.50%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 610000 / 1348154 [45.24%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 620000 / 1348154 [45.98%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 630000 / 1348154 [46.73%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 640000 / 1348154 [47.47%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 650000 / 1348154 [48.21%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 660000 / 1348154 [48.95%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 670000 / 1348154 [49.69%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 680000 / 1348154 [50.43%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 690000 / 1348154 [51.18%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 700000 / 1348154 [51.92%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 710000 / 1348154 [52.66%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 720000 / 1348154 [53.40%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 730000 / 1348154 [54.14%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 740000 / 1348154 [54.88%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 750000 / 1348154 [55.63%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 760000 / 1348154 [56.37%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 770000 / 1348154 [57.11%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 780000 / 1348154 [57.85%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 790000 / 1348154 [58.59%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 800000 / 1348154 [59.34%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 810000 / 1348154 [60.08%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 820000 / 1348154 [60.82%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 830000 / 1348154 [61.56%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 840000 / 1348154 [62.30%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 850000 / 1348154 [63.04%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 860000 / 1348154 [63.79%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 870000 / 1348154 [64.53%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 880000 / 1348154 [65.27%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 890000 / 1348154 [66.01%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 900000 / 1348154 [66.75%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 910000 / 1348154 [67.49%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 920000 / 1348154 [68.24%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 930000 / 1348154 [68.98%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 940000 / 1348154 [69.72%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 950000 / 1348154 [70.46%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 960000 / 1348154 [71.20%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 970000 / 1348154 [71.95%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 980000 / 1348154 [72.69%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 990000 / 1348154 [73.43%]. 1328896^204730-1 = 132883^2047302^1023650-1, bit: 1000000 / 1348154 [74.17%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1010000 / 1348154 [74.91%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1020000 / 1348154 [75.65%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1030000 / 1348154 [76.40%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1040000 / 1348154 [77.14%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1050000 / 1348154 [77.88%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1060000 / 1348154 [78.62%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1070000 / 1348154 [79.36%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1080000 / 1348154 [80.10%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1090000 / 1348154 [80.85%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1100000 / 1348154 [81.59%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1110000 / 1348154 [82.33%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1120000 / 1348154 [83.07%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1130000 / 1348154 [83.81%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1140000 / 1348154 [84.56%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1150000 / 1348154 [85.30%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1160000 / 1348154 [86.04%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1170000 / 1348154 [86.78%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1180000 / 1348154 [87.52%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1190000 / 1348154 [88.26%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1200000 / 1348154 [89.01%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1210000 / 1348154 [89.75%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1220000 / 1348154 [90.49%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1230000 / 1348154 [91.23%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1240000 / 1348154 [91.97%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1250000 / 1348154 [92.71%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1260000 / 1348154 [93.46%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1270000 / 1348154 [94.20%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1280000 / 1348154 [94.94%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1290000 / 1348154 [95.68%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1300000 / 1348154 [96.42%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1310000 / 1348154 [97.16%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1320000 / 1348154 [97.91%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1330000 / 1348154 [98.65%].1328896^204730-1 = 132883^2047302^1023650-1, bit: 1340000 / 1348154 [99.39%]. 1328896^204730-1 = 132883^204730*2^1023650-1 is not prime. RES64: 0000000000000000. OLD64: 0000000000000003 Time : 1754.982 sec.
	ID: 9511 · Rating: 0 · rate: / Reply Quote

Dirk Broer Send message Joined: 2 Jan 15 Posts: 71 Credit: 130,549,152 RAC: 3,216	Message 9512 - Posted: 10 Jan 2024, 22:41:10 UTC - in response to Message 9510.
	The Pentium J5005 and J5040 have no FMA3 instruction capability (just as the Celerons J4005, J4025, J4105 and J4125): Pentium/Celeron Gemini Lake Instruction set extensions AES / Advanced Encryption Standard + AMD64 / EM64T 64-bit technology + MMX + SSE + SSE2 + SSE3 + SSE4.1 + SSE4.2 + SSSE3 / Supplemental SSE3 + People that use boards with these processors are advised to replace them with boards featuring the Intel N100 processor Supported Extensions & Technologies: AES / Advanced Encryption Standard AMD64 / EM64T 64-bit technology MMX SSE SSE2 SSE3 SSSE3 SSE4 SSE4.1 SSE4.2 AVX AVX2 FMA3 SHA VT-x VT-d
	ID: 9512 · Rating: 0 · rate: / Reply Quote

rebirther Volunteer moderator Project administrator Project developer Project tester Project scientist Send message Joined: 2 Jan 13 Posts: 7258 Credit: 42,729,227 RAC: 1	Message 9513 - Posted: 10 Jan 2024, 22:44:13 UTC - in response to Message 9511.
	ok, thx! for summary: llr3.8.2x - is running, valid residues llr2 with Gerbiczcheck - failed due hardware issues (heating issues) llr2 without Gerbiczcheck - failed, invalid residues (heating issues) prstv10 - failed prstv11 - failed
	ID: 9513 · Rating: 0 · rate: / Reply Quote

happy5214 Send message Joined: 25 Nov 21 Posts: 3 Credit: 929,872 RAC: 0	Message 9522 - Posted: 13 Jan 2024, 3:59:26 UTC - in response to Message 9510. Last modified: 13 Jan 2024, 4:03:01 UTC
	The Pentium J5005 and J5040 have no FMA3 instruction capability (just as the Celerons J4005, J4025, J4105 and J4125): Pentium/Celeron Gemini Lake Instruction set extensions AES / Advanced Encryption Standard + AMD64 / EM64T 64-bit technology + MMX + SSE + SSE2 + SSE3 + SSE4.1 + SSE4.2 + SSSE3 / Supplemental SSE3 + To follow up on this, none of the three listed affected processors have FMA3 or any form of AVX. This leads me to believe the gwnum bug may be related to its pre-AVX FFT implementations (which I believe are based on SSE2). Therefore, this should be testable on any pre-Sandy Bridge CPU (ca. 2011).
	ID: 9522 · Rating: 0 · rate: / Reply Quote

rebirther Volunteer moderator Project administrator Project developer Project tester Project scientist Send message Joined: 2 Jan 13 Posts: 7258 Credit: 42,729,227 RAC: 1	Message 9530 - Posted: 14 Jan 2024, 3:24:36 UTC - in response to Message 9522.
	The Pentium J5005 and J5040 have no FMA3 instruction capability (just as the Celerons J4005, J4025, J4105 and J4125): Pentium/Celeron Gemini Lake Instruction set extensions AES / Advanced Encryption Standard + AMD64 / EM64T 64-bit technology + MMX + SSE + SSE2 + SSE3 + SSE4.1 + SSE4.2 + SSSE3 / Supplemental SSE3 + To follow up on this, none of the three listed affected processors have FMA3 or any form of AVX. This leads me to believe the gwnum bug may be related to its pre-AVX FFT implementations (which I believe are based on SSE2). Therefore, this should be testable on any pre-Sandy Bridge CPU (ca. 2011). What we need to find out is that +1 bases have no issues but -1 are failing.
	ID: 9530 · Rating: 0 · rate: / Reply Quote

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