How many Gigaflops is your PC?

[DildorTheDecent]

5820K 4.6GHz

[MrTiC]

Stock I7-4770K: 175

win_xeon64.txt

[porina]

Spoiler

Intel(R) Optimized LINPACK Benchmark data

Current date/time: Thu Jun 30 20:00:26 2016

CPU frequency:    4.198 GHz
Number of CPUs: 1
Number of cores: 4
Number of threads: 4

Parameters are set to:

Number of tests: 12

Number of equations to solve (problem size) : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Leading dimension of array                  : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Number of trials to run                     : 4     4     4     4     4     2     2     2     2     1     1     1    
Data alignment value (in Kbytes)            : 4     4     4     4     4     4     4     4     4     4     4     4    
Maximum memory requested that can be used=12800804096, at the size=40000

=================== Timing linear equation system solver ===================

Size   LDA    Align. Time(s)    GFlops   Residual     Residual(norm) Check
1000   1000   4      0.004      151.7210 1.125544e-12 3.838395e-02   pass
1000   1000   4      0.004      167.5079 1.125544e-12 3.838395e-02   pass
1000   1000   4      0.004      166.4318 1.125544e-12 3.838395e-02   pass
1000   1000   4      0.004      161.5904 1.125544e-12 3.838395e-02   pass
2000   2000   4      0.030      175.2906 3.856387e-12 3.354585e-02   pass
2000   2000   4      0.030      178.5141 3.856387e-12 3.354585e-02   pass
2000   2000   4      0.030      178.8610 3.856387e-12 3.354585e-02   pass
2000   2000   4      0.030      180.4940 3.856387e-12 3.354585e-02   pass
3000   3000   4      0.096      188.1109 9.305945e-12 3.583496e-02   pass
3000   3000   4      0.093      194.0148 9.305945e-12 3.583496e-02   pass
3000   3000   4      0.092      195.5166 9.305945e-12 3.583496e-02   pass
3000   3000   4      0.093      193.8210 9.305945e-12 3.583496e-02   pass
4000   4000   4      0.211      202.4136 1.804024e-11 3.932040e-02   pass
4000   4000   4      0.211      202.4395 1.804024e-11 3.932040e-02   pass
4000   4000   4      0.209      204.0573 1.804024e-11 3.932040e-02   pass
4000   4000   4      0.212      201.3084 1.804024e-11 3.932040e-02   pass
5000   5000   4      0.391      213.0508 2.552686e-11 3.559515e-02   pass
5000   5000   4      0.389      214.1102 2.552686e-11 3.559515e-02   pass
5000   5000   4      0.387      215.4494 2.552686e-11 3.559515e-02   pass
5000   5000   4      0.389      214.1615 2.552686e-11 3.559515e-02   pass
10000  10000  4      2.877      231.7809 8.775908e-11 3.094474e-02   pass
10000  10000  4      2.874      232.0658 8.775908e-11 3.094474e-02   pass
15000  15000  4      9.696      232.0994 1.887294e-10 2.972520e-02   pass
15000  15000  4      9.677      232.5684 1.887294e-10 2.972520e-02   pass
20000  20000  4      22.604     235.9793 3.770418e-10 3.337646e-02   pass
20000  20000  4      22.584     236.1915 3.770418e-10 3.337646e-02   pass
25000  25000  4      43.866     237.4944 5.505751e-10 3.130924e-02   pass
25000  25000  4      44.027     236.6250 5.505751e-10 3.130924e-02   pass
30000  30000  4      75.876     237.2523 7.619971e-10 3.003801e-02   pass
35000  35000  4      119.126    239.9636 1.136089e-09 3.297894e-02   pass
40000  40000  4      177.442    240.4724 1.420341e-09 3.158887e-02   pass

Performance Summary (GFlops)

Size   LDA    Align.  Average  Maximal
1000   1000   4       161.8128 167.5079
2000   2000   4       178.2899 180.4940
3000   3000   4       192.8658 195.5166
4000   4000   4       202.5547 204.0573
5000   5000   4       214.1930 215.4494
10000  10000  4       231.9234 232.0658
15000  15000  4       232.3339 232.5684
20000  20000  4       236.0854 236.1915
25000  25000  4       237.0597 237.4944
30000  30000  4       237.2523 237.2523
35000  35000  4       239.9636 239.9636
40000  40000  4       240.4724 240.4724

Residual checks PASSED

End of tests

30/06/2016 
20:13
 

Like previous poster(s) I can only get the runme batch file to... run. Above is my main system: 6700k at 4.2 GHz, with dual channel, dual rank 3200 ram. Below is my VR system, which is a 6700k at 4.2 GHz, dual channel, single rank ram at 3000.

 

Spoiler

Intel(R) Optimized LINPACK Benchmark data

Current date/time: Thu Jun 30 20:05:09 2016

CPU frequency:    4.198 GHz
Number of CPUs: 1
Number of cores: 4
Number of threads: 4

Parameters are set to:

Number of tests: 12

Number of equations to solve (problem size) : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Leading dimension of array                  : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Number of trials to run                     : 4     4     4     4     4     2     2     2     2     1     1     1    
Data alignment value (in Kbytes)            : 4     4     4     4     4     4     4     4     4     4     4     4    
Maximum memory requested that can be used=7200604096, at the size=30000

=================== Timing linear equation system solver ===================

Size   LDA    Align. Time(s)    GFlops   Residual     Residual(norm) Check
1000   1000   4      0.005      128.5718 1.125544e-12 3.838395e-02   pass
1000   1000   4      0.004      156.6286 1.125544e-12 3.838395e-02   pass
1000   1000   4      0.004      155.6812 1.125544e-12 3.838395e-02   pass
1000   1000   4      0.004      158.2697 1.125544e-12 3.838395e-02   pass
2000   2000   4      0.034      157.2864 3.856387e-12 3.354585e-02   pass
2000   2000   4      0.033      160.1803 3.856387e-12 3.354585e-02   pass
2000   2000   4      0.033      161.5565 3.856387e-12 3.354585e-02   pass
2000   2000   4      0.033      161.6932 3.856387e-12 3.354585e-02   pass
3000   3000   4      0.102      176.1991 9.305945e-12 3.583496e-02   pass
3000   3000   4      0.103      175.1953 9.305945e-12 3.583496e-02   pass
3000   3000   4      0.104      174.0493 9.305945e-12 3.583496e-02   pass
3000   3000   4      0.101      177.7256 9.305945e-12 3.583496e-02   pass
4000   4000   4      0.230      185.7635 1.804024e-11 3.932040e-02   pass
4000   4000   4      0.229      186.8386 1.804024e-11 3.932040e-02   pass
4000   4000   4      0.229      186.3909 1.804024e-11 3.932040e-02   pass
4000   4000   4      0.231      184.6451 1.804024e-11 3.932040e-02   pass
5000   5000   4      0.420      198.4305 2.552686e-11 3.559515e-02   pass
5000   5000   4      0.418      199.5796 2.552686e-11 3.559515e-02   pass
5000   5000   4      0.417      199.9342 2.552686e-11 3.559515e-02   pass
5000   5000   4      0.417      199.9217 2.552686e-11 3.559515e-02   pass
10000  10000  4      3.026      220.3491 8.775908e-11 3.094474e-02   pass
10000  10000  4      3.026      220.4136 8.775908e-11 3.094474e-02   pass
15000  15000  4      10.193     220.7923 1.887294e-10 2.972520e-02   pass
15000  15000  4      10.193     220.7913 1.887294e-10 2.972520e-02   pass
20000  20000  4      23.723     224.8508 3.770418e-10 3.337646e-02   pass
20000  20000  4      24.105     221.2895 3.770418e-10 3.337646e-02   pass
25000  25000  4      45.715     227.8887 5.505751e-10 3.130924e-02   pass
25000  25000  4      45.772     227.6040 5.505751e-10 3.130924e-02   pass
30000  30000  4      88.856     202.5949 7.619971e-10 3.003801e-02   pass

Performance Summary (GFlops)

Size   LDA    Align.  Average  Maximal
1000   1000   4       149.7878 158.2697
2000   2000   4       160.1791 161.6932
3000   3000   4       175.7923 177.7256
4000   4000   4       185.9095 186.8386
5000   5000   4       199.4665 199.9342
10000  10000  4       220.3813 220.4136
15000  15000  4       220.7918 220.7923
20000  20000  4       223.0702 224.8508
25000  25000  4       227.7464 227.8887
30000  30000  4       202.5949 202.5949

Residual checks PASSED

End of tests

30/06/2016 
20:11

Note the 2nd system is quite a bit slower. I suspect Linpack is similar in performance demands as Prime95, and ram performance may be the limiting factor for faster CPUs.

 

I'm about to fire up the 14 core Xeon and see what happens...

[BuckGup]

Do we count GPUs? 

[Superspeed07]

256 gflops here with my work computer which has a stock clocked 5820k

[DildorTheDecent]

27 minutes ago, porina said:

Like previous poster(s) I can only get the runme batch file to... run. Above is my main system: 6700k at 4.2 GHz, with dual channel, dual rank 3200 ram. Below is my VR system, which is a 6700k at 4.2 GHz, dual channel, single rank ram at 3000.

 

Note the 2nd system is quite a bit slower. I suspect Linpack is similar in performance demands as Prime95, and ram performance may be the limiting factor for faster CPUs.

 

I'm about to fire up the 14 core Xeon and see what happens...

Linpack is the hardest test for a CPU to run. 

 

IntelBurnTest uses linpack. 10 hardest tests of my life with my old 3570K since it was a terrible clocker

[porina]

1 minute ago, DildorTheDecent said:

Linpack is the hardest test for a CPU to run. 

 

IntelBurnTest uses linpack. 10 hardest tests of my life with my old 3570K since it was a terrible clocker

IBT is out of date and doesn't support instructions added since Haswell. Prime95 is more stressful in that respect.

 

While here, the Xeon run has finished: 14 Haswell cores at 2.3 GHz, quad channel single rank 2133.

 

Spoiler

Intel(R) Optimized LINPACK Benchmark data

Current date/time: Thu Jun 30 20:26:56 2016

CPU frequency:    1.999 GHz
Number of CPUs: 1
Number of cores: 14
Number of threads: 14

Parameters are set to:

Number of tests: 12

Number of equations to solve (problem size) : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Leading dimension of array                  : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Number of trials to run                     : 4     4     4     4     4     2     2     2     2     1     1     1    
Data alignment value (in Kbytes)            : 4     4     4     4     4     4     4     4     4     4     4     4    
Maximum memory requested that can be used=12800804096, at the size=40000

=================== Timing linear equation system solver ===================

Size   LDA    Align. Time(s)    GFlops   Residual     Residual(norm) Check
1000   1000   4      0.008      81.1064  8.866796e-13 3.023805e-02   pass
1000   1000   4      0.009      75.2991  8.866796e-13 3.023805e-02   pass
1000   1000   4      0.006      107.9685 8.866796e-13 3.023805e-02   pass
1000   1000   4      0.005      144.4640 8.866796e-13 3.023805e-02   pass
2000   2000   4      0.019      282.9987 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.018      293.9005 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.023      236.5370 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.018      295.9873 4.451661e-12 3.872400e-02   pass
3000   3000   4      0.078      231.1273 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.077      233.5862 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.077      232.9960 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.078      230.9489 8.343798e-12 3.212997e-02   pass
4000   4000   4      0.166      257.8607 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.169      252.0712 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.164      260.8487 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.162      262.9272 1.673071e-11 3.646616e-02   pass
5000   5000   4      0.258      323.1460 2.328596e-11 3.247039e-02   pass
5000   5000   4      0.259      321.5917 3.558998e-11 4.962735e-02   pass
5000   5000   4      0.257      324.3981 2.367578e-11 3.301397e-02   pass
5000   5000   4      0.257      325.0165 2.387807e-11 3.329604e-02   pass
10000  10000  4      1.868      357.0855 9.163764e-11 3.231236e-02   pass
10000  10000  4      1.676      397.9224 9.792611e-11 3.452974e-02   pass
15000  15000  4      5.378      418.4715 1.985677e-10 3.127474e-02   pass
15000  15000  4      5.399      416.8592 2.101409e-10 3.309755e-02   pass
20000  20000  4      12.270     434.7240 3.837962e-10 3.397437e-02   pass
20000  20000  4      12.215     436.6841 3.837962e-10 3.397437e-02   pass
25000  25000  4      23.765     438.3747 6.029738e-10 3.428896e-02   pass
25000  25000  4      23.668     440.1780 6.029738e-10 3.428896e-02   pass
30000  30000  4      40.764     441.6071 8.798400e-10 3.468338e-02   pass
35000  35000  4      64.675     441.9894 1.148228e-09 3.333133e-02   pass
40000  40000  4      96.109     443.9739 1.213392e-09 2.698626e-02   pass

Performance Summary (GFlops)

Size   LDA    Align.  Average  Maximal
1000   1000   4       102.2095 144.4640
2000   2000   4       277.3559 295.9873
3000   3000   4       232.1646 233.5862
4000   4000   4       258.4269 262.9272
5000   5000   4       323.5381 325.0165
10000  10000  4       377.5039 397.9224
15000  15000  4       417.6653 418.4715
20000  20000  4       435.7041 436.6841
25000  25000  4       439.2764 440.1780
30000  30000  4       441.6071 441.6071
35000  35000  4       441.9894 441.9894
40000  40000  4       443.9739 443.9739

Residual checks PASSED

End of tests

30/06/2016 
20:38
 

 

[DildorTheDecent]

8 minutes ago, porina said:

IBT is out of date and doesn't support instructions added since Haswell. Prime95 is more stressful in that respect.

 

While here, the Xeon run has finished: 14 Haswell cores at 2.3 GHz, quad channel single rank 2133.

 

  Reveal hidden contents

Intel(R) Optimized LINPACK Benchmark data

Current date/time: Thu Jun 30 20:26:56 2016

CPU frequency:    1.999 GHz
Number of CPUs: 1
Number of cores: 14
Number of threads: 14

Parameters are set to:

Number of tests: 12

Number of equations to solve (problem size) : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Leading dimension of array                  : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Number of trials to run                     : 4     4     4     4     4     2     2     2     2     1     1     1    
Data alignment value (in Kbytes)            : 4     4     4     4     4     4     4     4     4     4     4     4    
Maximum memory requested that can be used=12800804096, at the size=40000

=================== Timing linear equation system solver ===================

Size   LDA    Align. Time(s)    GFlops   Residual     Residual(norm) Check
1000   1000   4      0.008      81.1064  8.866796e-13 3.023805e-02   pass
1000   1000   4      0.009      75.2991  8.866796e-13 3.023805e-02   pass
1000   1000   4      0.006      107.9685 8.866796e-13 3.023805e-02   pass
1000   1000   4      0.005      144.4640 8.866796e-13 3.023805e-02   pass
2000   2000   4      0.019      282.9987 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.018      293.9005 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.023      236.5370 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.018      295.9873 4.451661e-12 3.872400e-02   pass
3000   3000   4      0.078      231.1273 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.077      233.5862 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.077      232.9960 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.078      230.9489 8.343798e-12 3.212997e-02   pass
4000   4000   4      0.166      257.8607 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.169      252.0712 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.164      260.8487 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.162      262.9272 1.673071e-11 3.646616e-02   pass
5000   5000   4      0.258      323.1460 2.328596e-11 3.247039e-02   pass
5000   5000   4      0.259      321.5917 3.558998e-11 4.962735e-02   pass
5000   5000   4      0.257      324.3981 2.367578e-11 3.301397e-02   pass
5000   5000   4      0.257      325.0165 2.387807e-11 3.329604e-02   pass
10000  10000  4      1.868      357.0855 9.163764e-11 3.231236e-02   pass
10000  10000  4      1.676      397.9224 9.792611e-11 3.452974e-02   pass
15000  15000  4      5.378      418.4715 1.985677e-10 3.127474e-02   pass
15000  15000  4      5.399      416.8592 2.101409e-10 3.309755e-02   pass
20000  20000  4      12.270     434.7240 3.837962e-10 3.397437e-02   pass
20000  20000  4      12.215     436.6841 3.837962e-10 3.397437e-02   pass
25000  25000  4      23.765     438.3747 6.029738e-10 3.428896e-02   pass
25000  25000  4      23.668     440.1780 6.029738e-10 3.428896e-02   pass
30000  30000  4      40.764     441.6071 8.798400e-10 3.468338e-02   pass
35000  35000  4      64.675     441.9894 1.148228e-09 3.333133e-02   pass
40000  40000  4      96.109     443.9739 1.213392e-09 2.698626e-02   pass

Performance Summary (GFlops)

Size   LDA    Align.  Average  Maximal
1000   1000   4       102.2095 144.4640
2000   2000   4       277.3559 295.9873
3000   3000   4       232.1646 233.5862
4000   4000   4       258.4269 262.9272
5000   5000   4       323.5381 325.0165
10000  10000  4       377.5039 397.9224
15000  15000  4       417.6653 418.4715
20000  20000  4       435.7041 436.6841
25000  25000  4       439.2764 440.1780
30000  30000  4       441.6071 441.6071
35000  35000  4       441.9894 441.9894
40000  40000  4       443.9739 443.9739

Residual checks PASSED

End of tests

30/06/2016 
20:38
 

 

IntelBurnTest AVX is a thing. That or OCCT for harcore stability testing. 

[porina]

10 minutes ago, DildorTheDecent said:

IntelBurnTest AVX is a thing. That or OCCT for harcore stability testing. 

Last time I checked IBT hadn't been updated in a long time and misses out on FMA. I'm not familiar with OCCT.

[pyrojoe34]

I got 306.48 on an i7-6800k at 4.0 Ghz.

 

Although that's with the CPU only using ~55% during the test. I don't know if that's normal though since it doesn't seem like it used HT.

 

 

Edit: I just ran it again using the exact same settings as OP and got 270.15 for 5000,10000,1000000(64).

[DildorTheDecent]

45 minutes ago, porina said:

Last time I checked IBT hadn't been updated in a long time and misses out on FMA. I'm not familiar with OCCT.

Haven't really seen much about FMA with OCCT. AVX2 is present with IBT-AVX

 

Guess the true hardcore stability test still is Prime95.

 

Also this doesn't seem to be using all the cores and threads that my 5820K has. It's capping to 4 threads. weird. 

 

 

[porina]

1 hour ago, pyrojoe34 said:

Although that's with the CPU only using ~55% during the test. I don't know if that's normal though since it doesn't seem like it used HT.

Believe Linpack is FP heavy, for which HT gives zero benefit.

1 hour ago, DildorTheDecent said:

Haven't really seen much about FMA with OCCT. AVX2 is present with IBT-AVX

I'm having search fail and can't find it. Got a link? All I found is a reference somewhere to replacing the executable manually to a version supporting it.

1 hour ago, DildorTheDecent said:

Also this doesn't seem to be using all the cores and threads that my 5820K has. It's capping to 4 threads. weird. 

Used all 14 cores of my Xeon without me touching anything using the runme batch file. I have HT off on that system, but on the two 6700k systems I have HT on and it used physical cores only.

[DildorTheDecent]

9 minutes ago, porina said:

I'm having search fail and can't find it. Got a link? All I found is a reference somewhere to replacing the executable manually to a version supporting it.

I think this is what i may have read. IBT-AVX exists but not sure about AVX2

10 minutes ago, porina said:

Used all 14 cores of my Xeon without me touching anything using the runme batch file. I have HT off on that system, but on the two 6700k systems I have HT on and it used physical cores only.

I'll probably try a reboot at a later time and re run. Or more clock. More clock could probably help

[NumLock21]

There is a easier version called LinX Linpack. Can be used for both AMD and Intel CPUs. It's basically a GUI version linpack.

[Stefan1024]

21 hours ago, porina said:

IBT is out of date and doesn't support instructions added since Haswell. Prime95 is more stressful in that respect.

 

While here, the Xeon run has finished: 14 Haswell cores at 2.3 GHz, quad channel single rank 2133.

 

  Reveal hidden contents

Intel(R) Optimized LINPACK Benchmark data

Current date/time: Thu Jun 30 20:26:56 2016

CPU frequency:    1.999 GHz
Number of CPUs: 1
Number of cores: 14
Number of threads: 14

Parameters are set to:

Number of tests: 12

Number of equations to solve (problem size) : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Leading dimension of array                  : 1000  2000  3000  4000  5000  10000 15000 20000 25000 30000 35000 40000
Number of trials to run                     : 4     4     4     4     4     2     2     2     2     1     1     1    
Data alignment value (in Kbytes)            : 4     4     4     4     4     4     4     4     4     4     4     4    
Maximum memory requested that can be used=12800804096, at the size=40000

=================== Timing linear equation system solver ===================

Size   LDA    Align. Time(s)    GFlops   Residual     Residual(norm) Check
1000   1000   4      0.008      81.1064  8.866796e-13 3.023805e-02   pass
1000   1000   4      0.009      75.2991  8.866796e-13 3.023805e-02   pass
1000   1000   4      0.006      107.9685 8.866796e-13 3.023805e-02   pass
1000   1000   4      0.005      144.4640 8.866796e-13 3.023805e-02   pass
2000   2000   4      0.019      282.9987 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.018      293.9005 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.023      236.5370 4.451661e-12 3.872400e-02   pass
2000   2000   4      0.018      295.9873 4.451661e-12 3.872400e-02   pass
3000   3000   4      0.078      231.1273 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.077      233.5862 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.077      232.9960 8.343798e-12 3.212997e-02   pass
3000   3000   4      0.078      230.9489 8.343798e-12 3.212997e-02   pass
4000   4000   4      0.166      257.8607 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.169      252.0712 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.164      260.8487 1.673071e-11 3.646616e-02   pass
4000   4000   4      0.162      262.9272 1.673071e-11 3.646616e-02   pass
5000   5000   4      0.258      323.1460 2.328596e-11 3.247039e-02   pass
5000   5000   4      0.259      321.5917 3.558998e-11 4.962735e-02   pass
5000   5000   4      0.257      324.3981 2.367578e-11 3.301397e-02   pass
5000   5000   4      0.257      325.0165 2.387807e-11 3.329604e-02   pass
10000  10000  4      1.868      357.0855 9.163764e-11 3.231236e-02   pass
10000  10000  4      1.676      397.9224 9.792611e-11 3.452974e-02   pass
15000  15000  4      5.378      418.4715 1.985677e-10 3.127474e-02   pass
15000  15000  4      5.399      416.8592 2.101409e-10 3.309755e-02   pass
20000  20000  4      12.270     434.7240 3.837962e-10 3.397437e-02   pass
20000  20000  4      12.215     436.6841 3.837962e-10 3.397437e-02   pass
25000  25000  4      23.765     438.3747 6.029738e-10 3.428896e-02   pass
25000  25000  4      23.668     440.1780 6.029738e-10 3.428896e-02   pass
30000  30000  4      40.764     441.6071 8.798400e-10 3.468338e-02   pass
35000  35000  4      64.675     441.9894 1.148228e-09 3.333133e-02   pass
40000  40000  4      96.109     443.9739 1.213392e-09 2.698626e-02   pass

Performance Summary (GFlops)

Size   LDA    Align.  Average  Maximal
1000   1000   4       102.2095 144.4640
2000   2000   4       277.3559 295.9873
3000   3000   4       232.1646 233.5862
4000   4000   4       258.4269 262.9272
5000   5000   4       323.5381 325.0165
10000  10000  4       377.5039 397.9224
15000  15000  4       417.6653 418.4715
20000  20000  4       435.7041 436.6841
25000  25000  4       439.2764 440.1780
30000  30000  4       441.6071 441.6071
35000  35000  4       441.9894 441.9894
40000  40000  4       443.9739 443.9739

Residual checks PASSED

End of tests

30/06/2016 
20:38
 

 

Nice score, you beat my old 2x8 core xeons at 3 GHz by a fair margin. Now add a Xeon Phi for 200$ and you will break the 1 TFlop/s barrier.

[porina]

35 minutes ago, Stefan1024 said:

Nice score, you beat my old 2x8 core xeons at 3 GHz by a fair margin. Now add a Xeon Phi for 200$ and you will break the 1 TFlop/s barrier.

Which Phi? They're not that cheap locally to me, and the ones that are available are so old I'm not sure they're worth anything. Plus, outside of this benchmark, I don't have anything that'll run on it...

[Stefan1024]

11 minutes ago, porina said:

Which Phi? They're not that cheap locally to me, and the ones that are available are so old I'm not sure they're worth anything. Plus, outside of this benchmark, I don't have anything that'll run on it...

Look in my signature. But when you have no application actually using it, it doesn't make sense.

[porina]

50 minutes ago, Stefan1024 said:

Look in my signature. But when you have no application actually using it, it doesn't make sense.

Ok, that's the only one I could see that was lower priced. It probably would do well at the DP heavy tasks I run, if only it took unmodified x86 code. That is, look like a regular CPU core. Until then consumer and lower cost Xeon CPUs will do.