Monero Mining Performance

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Patrick

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Staff member
Dec 21, 2010
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CPU Results (wolf's) Using (MB L3 cache/ 2) for threads
4x Intel Xeon Platinum 8180 = 5100H/s
2x AMD EPYC 7601 = 3100H/s 332w
4x Intel Xeon E7-8870 V3 = 2600H/s (NB drops to 2000 over time)
2x Intel Xeon Gold 6152 = 1965H/s (44 threads)
2x Intel Xeon Gold 6148F = 1903H/s (40 threads)
1x AMD EPYC 7601 = 1786H/s (196W)
2x AMD EPYC 7281 = 1753H/s (258W)
1x AMD EPYC 7551 = 1734H/s
2x Intel Xeon E5-2699 V4 = 1723H/s
1x AMD EPYC 7501 = 1720H/s (205W)
1x AMD EPYC 7451 =1652H/s (210W)
1x AMD EPYC 7401 = 1598H/s (210W)
2x Intel Xeon E5-2698 V4 = 1572H/s
2x Intel Xeon E5-2698 V3 = 1463H/s
1x AMD EPYC 7351P = 1438H/s (32 threads 179W)
2x AMD EPYC 7251 = 1344H/s (217W)
1x AMD EPYC 7301 = 1331H/s (176W)
2x Intel Xeon E5-2690 V4 = 1312H/s
2x Intel Xeon E5-2697 V3 = 1301H/s
1x AMD Ryzen Threadripper 1950X = 1204H/s
2x Intel Xeon E5-2690 V3 = 1100H/s
2x Intel Xeon E5-2667 V3 = 1090H/s
2x Intel Xeon E5-2658 V3 = 1050H/s
2x Intel Xeon E5-2650 V4 = 1047H/s
2x Intel Xeon E5-2650L V4 = 1031H/s
2x Intel Xeon Gold 6134 = 1023H/s (32 threads)
2x Intel Xeon E5-2683 V3 = 1014H/s
1x Intel Xeon Gold 6152 = 991H/s (22 threads)
2x Intel Xeon E5-2680 V3 = 969H/s
2x Intel Xeon E5-2670 V3 = 969H/s
2x Intel Xeon E5-2628L V4 = 897H/s
2x Intel Xeon E5-2650L V3 = 874H/s
1x AMD EPYC 7281 = 870H/s
2x Intel Xeon E5-2630 V4 = 866H/s
1x Intel Xeon Gold 6138 = 856H/s (19 threads)
2x Intel Xeon E5-2670 V1 = 829H/s
2x Intel Xeon E5-2650 V1 = 750H/s
1x Intel Xeon Gold 6132 = 691H/s (14 threads)
1x AMD EPYC 7251 = 672H/s (136W)
2x Intel Xeon Silver 4110 = 663H/s (16 threads 169W)
2x Intel Xeon Silver 4108 = 608H/s (16 threads 160W)
1x Intel Xeon Phi 7210 = 602H/s (case to use nproc-1)
1x Intel Xeon E5-2667 V4 = 538H/s
1x AMD Ryzen 7 1800X = 537H/s
1x AMD Ryzen 7 1700X = 516H/s
1x AMD Ryzen 7 1700 = 481H/s
2x Intel Xeon E5-2620 V1 = 480H/s
1x AMD Ryzen 5 1600X = 451H/s
2x Intel Xeon Silver 4112 = 429H/s (10 threads)
1x Intel Xeon Silver 4116 = 404H/s (10 threads)
1x Intel Xeon Silver 4114 = 395H/s
1x Intel Xeon D-1587 = 388H/s
1x AMD Ryzen 5 1600 =363H/s
1x AMD Ryzen 5 1500X = 361H/s
1x Intel Xeon E5-2630L V3 = 354H/s
1x Intel Core i7-7700K = 322H/s
1x Intel Xeon Silver 4110 = 330 H/s (8 threads)
1x Intel Xeon Silver 4108 = 305H/s
1x Intel Xeon E3-1280 V6 = 281H/s
1x Intel Xeon E3-1270 V6 = 273H/s
1x Intel Xeon E3-1275 V6 = 272H/s
1x Intel Xeon E3-1240 V6 = 265H/s
1x Intel Xeon E3-1245 V6 = 263H/s
1x Intel Core i7-7700 = 258H/s
1x Intel Xeon E3-1585 V5 = 257H/s (CPU only)
1x Intel Xeon Bronze 3106 = 256H/s
1x Intel Xeon E3-1230 V6 = 250H/s
1x Intel Xeon E3-1230 V5 = 249H/s
1x Intel Xeon D-1541 = 242H/s
1x Intel Xeon E3-1515M V5 = 240H/s
1x Intel Atom C3955 = 240H/s (8 threads)
1x Intel Xeon E3-1225 V6 = 236H/s
1x AMD Ryzen 5 1400 = 234H/s
1x Intel Xeon D-1540 = 218H/s
1x Intel Xeon Silver 4112 = 215H/s
1x Intel Xeon E3-1220 V6 = 214H/s
1x Intel Xeon E3-1220 V3 = 186H/s
1x Intel Core i5-7400 = 165H/s
1x Intel Xeon E3-1245 V5 = 161H/s
1x Intel Xeon E5-2603 V3 = 156H/s (case to use nproc)
1x Special CPU = 153H/s (case to use nproc)
1x Intel Atom C3338 = 77H/s (case to use nproc)
1x Intel Pentium D1508 = 47H/s (case to use nproc-1)
1x Intel Atom C2358 = 18H/s (use nproc)

ARM CPU Results (thanks Fractal)
ARM Cortex A7 (Odroid-C1) 5.9H/s (no AES)
ARM Cortex A53 (Odroid-C2) 7.2 H/s (no AES)
ARM Cortex A53 (Pine64) 12.5 H/s @ 4.1W (using AES instructions, thermal limited) 3H/W

GPU Results (ccminer NVIDIA, Wolfs AMD)
1x GRID M40 GPU = 880H/s
1/4x GRID M40 GPU = 220H/s
1x AMD RX 480 8GB Gigabyte = 620H/s
1x AMD RX 470 4GB ASUS = 535H/s
1x NVIDIA GTX 1080 (EVGA Reference) = 475H/s
1x NVIDIA GTX 1070 (ASUS STRIX) = 475H/s
1x NVIDIA GTX 1060 6GB (ASUS dual fan) = 431H/s
1x NVIDIA GTX 1060 6GB (EVGA ACX single fan) = 432H/s
1x NVIDIA GTX 1050 Ti 4GB (PNY) = 297H/s
1x NVIDIA GTX 970 (ASUS STRIX) = 375H/s
1x NVIDIA GTX 750 Ti = 205 H/s (Fractal)
1x NVIDIA GRID K520 (AWS g2.2xlarge) = 164H/s
1x NVIDIA K80 (one of two GPUs AWS p2.xlarge) = 209H/s

AWS Instance CPU Mining (Wolf's)
c4.8xlarge = 979H/s (25 threads)
r4.4xlarge = 560H/s (16 threads)
r4.2xlarge = 300H/s (9 threads)

AWS CPU Results (wolf's) Using (nproc-1) for threads
g2.2xlarge = 321H/s
p2.xlarge = 114H/s

CPU/ GPU Build Results
g2.2xlarge = 485H/s
p2.xlarge = 323H/s
DeepLearning01 = 649H/s
DeepLearning02 = 347H/s

It seems like a dual E5-2620 V4 system with two GRID M40 cards outpaces a quad E7-8890 V4 system.

Depreciated
CPU Results (wolf's) Using (nproc - 1) for threads
4x Intel Xeon E7-8890 V4 = 2280H/s
4x Intel Xeon E7-8870 V4 = 1585H/s
2x Intel Xeon X5675 = 340H/s (Fractal)
1x Intel Xeon D-1541 = 178H/s
1x Intel Xeon D-1540 = 157H/s
2x Intel Xeon E5620 = 150H/s (cafcwest)
 
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Patrick

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Dec 21, 2010
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Another dual CPU system added. Should have GTX 1060 and maybe 1070 tomorrow.
 
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Patrick

Administrator
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Dec 21, 2010
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Added GTX 1060! Ran into some issues so it took a bit longer than I had expected/ wanted. I am now going to run the 1070 (finally) then the 970.
 

RobertFontaine

Active Member
Dec 17, 2015
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Winterpeg, Canuckistan
I'll match your 980 ti and raise you a 770 ti. The numbers I've looked at for blender rendering show the 770 ti as the preferable card. NVidia killed double precision floating in their cards and there is little sign of it coming back soon to the consumer market.
 

fractal

Active Member
Jun 7, 2016
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CPU Results (wolf's)
2x Intel Xeon X5675 = 340H/s (don't laugh too hard, lack of AES-NI hurts the new crypto projects)
ARM Cortex A7 (Odroid-C1) 5.9H/s (no AES)
ARM Cortex A53 (Odroic-C2) 7.2 H/s (no AES)
ARM Cortex A53 (Pine64) 12.5 H/s @ 4.1W (using AES instructions, thermal limited) 3H/W

GPU Results (ccminer)
1x GeForce GTX 650 Ti, 92 H/s. Not much love for Kepler on this project. Too old for nvidia-smi power report too.
1x GeForce GTX 750 Ti, 205 H/s lotsa Maxwell loving going on. nvidia-smi reports 16 watt usage
2 x GeForce GTX 970, 890 H/s. More Maxwell loving. nvidia-smi reports 100 watt usage per card.
 
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Patrick

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Dec 21, 2010
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Thus far disappointed in the GTX 1070 mining performance. 475H/s seems low. What is also interesting is that the power consumption via nvidia-smi is exactly the same as the 1060. 10% more performance at the same power is not a bad result but the card costs significantly more.
 
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Jeggs101

Well-Known Member
Dec 29, 2010
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Commenting here not the Xeon Phi thread.

What's the payback like if that does such a high H/s rate? Is it profitable? It's cheaper than two E5-2698 V4's right? Aren't those like $4000 each? The 7210 is what? $2500? 1/3 the cost for the same hash rate?
 

Patrick

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Dec 21, 2010
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First of all, that is not really an optimized figure. 1.1 KH/s is like $1.68/ day with $8 XMR. That means about 7.44 year payoff excluding power and a system to put it in. 244w for those wondering.
 
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