Hashrate of Graphics Cards
Bitcoin mining video card comparison hardware comparison
Graphics cards
Due to the rising hashrate of the bitcoin network caused by the introduction of ASICs to the market, GPU mining Bitcoins has become impracticable. The hashrate of most GPU units is below 1GH/s, and as ccard 2014, some single ASIC units are able to reach speeds of over 1,000GH/s while consuming far less power than used by a GPU. The information in this table is preserved for historical interest, but does not include many Bitcoin mining video card comparison which were released after the advent of ASIC mining.
AMD (ATI)
Stream SDK 2.5 seems to have resolved many of the problems with earlier versions. Everyone's setups will be unique so this should only Bitcoin mining video card comparison a guide or starting point, not an absolute.
3410 | 0.89 | 0.074 | ? | 12(?) | 222 | 40 | 1.4 beta | PCI-E 1.1 x8 | A custom Brook+ miner | Using 16,384 length streams | |||||||||
3XXX | OpenCL Not Supported | ||||||||||||||||||
42XX | OpenCL Not Viveo (integrated/mobile GPU) | ||||||||||||||||||
4350 | 6.93 | 0.346 | 0.16 | 20 | 575 | 80 | - | PCI-E 2.0 x16 | poclbm | - w 32, don't use vectors | |||||||||
4350 | 7.2 | 600 | 1.1 | PCI-E 2.0 x16 | cgminer/Linux | default settings | |||||||||||||
4350 | 8.14 | - | 0.19 | - | 730 | 80 | 2.4 | PCI-E 2.0 x16 | Diablo/Windows7 | - w 32. Model: Asus EAH4350 Silent. Memory at 400MHz. Runs at 60°C with ambient at 25°C. | |||||||||
4350 | 10.7 | - | - | - | 730 | - | 2.6 | PCI-E 2.0 x16 | CGMiner/Windows7 | - v - w 64 Voltage set at 0.900 core set at 800MHZ and memory set to 200MHZ | |||||||||
4550 | 7.23 | 0.289 | 0.13 | 25 | 600 | 80 | - | PCI-E 2.0 x16 | poclbm | - w 32, don't use vectors | |||||||||
4550 | 7.8 | - | PCI-E 2.0 x16 | guiminer /phoenix | worksize=64 VECTORS | ||||||||||||||
4570M | 8.02 | 0.297 | ? | 27 | 680 | 80 | Bitcoin mining video card comparison | PCI-E 2.0 x16 | Diablo/Windows7 | - w 64, SDK 2.4, Cat 11.4. Model: Sony Vaio NW | |||||||||
4570M | 9.6 | 0.300 | ? | 32 | 825(OC) | com;arison | - | PCI-E 2.0 x16 | Diablo/Windows7 | - w 64, SDK 2.4, Cat 11.4. Model: Sony Vaio NW. OC core 680->825. U/C memory 800->500. | |||||||||
4650 | 31.33 | 0.653 | 0.44 | 48 | 650 | 320 | - | PCI-E 2.0 x16 | poclbm | - w 32, don't use vectors | |||||||||
4670 | 36.14 | 0.613 | 0.34 | 59 | 750 | 320 | - | PCI-E 2.0 x16 | poclbm | - w 32, don't use vectors | |||||||||
4670 | 40.11 | 0.679 | 0.38 | 59 | 800 | 320 | - | AGP x8 | poclbm/Ubuntu 10.10 w/ H == 0 mod | - w 32 - f 0, don't use vectors source | |||||||||
4670 | 50 | - | 0.47 | 60 | 800 | 320 | - | PCI-E 2.0 x16 | guiminer | 2 miners set up i7 920 (130W), CPU: Bitcoin mining video card comparison, GPU: OpenCL; the CPU is getting about 40 Mhash/s while the GPU goes from 10-20 Mhash/s | |||||||||
4730 | 72.29 | 0.657 | ? | 110 | 750 | 640 | - | PCI-E 2.0 x16 | - | ||||||||||
4770 | 72.29 | 0.904 | 0.72 | 80 | 750 | 640 | - | PCI-E 2.0 x16 | - | ||||||||||
4830 | 55.42 | 0.583 | 95 | 575 | 640 | - | PCI-E 2.0 x16 | - | |||||||||||
4830 | 61.7 | - | - | 700 | - | 2.4 | PCI-E 2.0 x16 | poclbm-mod | Fedora 14 | ||||||||||
4830 | 64.9 | - | - | - | 700 | - | 2.4 | PCI-E 2.0 x16 | poclbm-mod | Fedora 14 | |||||||||
4830 | 66.12 | 0.503 | 105 | 700 | 1005 | - | PCI-E 2.0 x16 | - | |||||||||||
4850 | 75.30 | comparisoon | 110 | 625 | 800 | - | PCI-E 2.0 x16 | - | |||||||||||
4850 | 84.3 | 0.766 | 110 | 725 | 300 | - | PCI-E 2.0 x16 bigcoin - | - w64 fan at 70% temp 73C, stock voltage - gui miner | |||||||||||
4850 | 87.4 | 0.79 | - | 110 | 785 | vldeo Bitcoin mining video card comparison - | PCI-E 2.0 x16 | guiminer | Phoenix; - k poclbm | ||||||||||
4850 | 90.1 | 0.819 | 110 | 800 | 500 compagison - | PCI-E 2.0 x16 | guiminer | - f 30; Tried phoenix and phatk, got same max | |||||||||||
4850 | 101 | 0.918 | 110 | 817 | 500 | 2.1 | PCI-E 2.0 x16 | guiminer | - f 0, core 817mhz(default 625)@1.123vmem downclock to 500mhz (default 993) source | ||||||||||
4850x2 Bitcoin mining video card comparison 150.60 | 0.602 | 250 | 625 | 1600 | - | PCI-E 2.0 x16 | - | ||||||||||||
4860 | 67.47 | 0.519 | 130 | 700 | 640 | - | PCI-E 2.0 x16 | - | |||||||||||
4870 | 78 | 0.520 | 150 | - | - | - | PCI-E 2.0 x16 | m0mchil's OpenCL/Vista 64bit | Source | ||||||||||
4870 | 88 bticoin 140 | std | 800 | 12.3.6 | PCI-E 2.0 x16 | phoenix 1.50 / 64bit OS X pyopencl / poclbm | Standard Mac Pro 3,1 with Apple HD4870 upgrade. Flags: FASTLOOP WORKSIZE=64 AGGRESSION=5 (don't use Bitcoin mining video card comparison, and hash rate drops to 60-70 if browser windows are visible, speeds up to Bitcoin mining video card comparison if you hide them! | ||||||||||||
4870 | 90.36 | 0.602 | 150 | 750 | 800 | 2.1 | PCI-E 2.0 x16 | clmine | |||||||||||
4870 | 92.84 | 0.6189333(?) | 150(?) | 830(OC) | 800 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.48 | - k poclbm AGGRESSION=5 (Windows 7 64-Bit, GPU OC 750->830MHz, VRAM UC 900->450MHz, BIOS modded) | ||||||||||
4870 | 96 | 140 | 750 | Bitcoin mining video card comparison | 2.4 Bitcoin mining video card comparison PCI-E 2.0 x16 | Smartcoin r657s / phoenix 1.50 / Linuxcoin 0.2b final | Powercolor @ GPU 830 MHz/ MEM 200 Mhz @ 80% FAN @ 69 temp @ Flags: - k phatk bfi_int=false FASTLOOP=false WORKSIZE=256 AGGRESSION=11 bifcoin 4870 | 104 compsrison 140 | 750 | 800 | 2.4 | PCI-E 2.0 x16 | Smartcoin r657s / DiabloMiner / Linuxcoin 0.2b final | Powercolor @ Comparlson 830 MHz/ MEM 200 Mhz @ 80% FAN @ 69 temp @ Flags: - v 1 - w 256 | |||||
4870 | 104.2 | ? | ? | 830(OC) | 800 | 2.1 | PCI-E 2.0 x16 | poclbm | Windows 7 64-Bit, GPU Core OC to 830 MHz, GPU Memory UC to 200 MHz By MSI AfterBurner. Card: Gainward Golden Sample. Bitcoin mining video card comparison we have 55 GPU temp. | ||||||||||
4870 | 104.6 | 0.872 | 120 | 830(OC) | 800 | 2.1 | PCI-E 2.0 x16 | poclbm | - w 256 - f 1, Windows 7 64-Bit, GPU Core OC to 830 MHz, GPU Comparoson UC to 190 MHz (saves 30 watts at outlet) | ||||||||||
4870 | 112 | 140 | 750 | 800 | 2.4 | PCI-E 2.0 x16 | BAMT 0.5c / cgminer | Powercolor @ GPU 875 MHz/ MEM 300 Mhz/ 1,25VDC @ 100% FAN @ 65 temp @ Flags: - v 1 - w 256 | |||||||||||
4870x2 | 180.6 | 0.632 | 286 | 800 | 1600 | - | PCI-E 2.0 x16 | - | |||||||||||
4870x2 | 180.72 | 0.632 | 286 | 750 | 1600 | - | PCI-E 2.0 x16 | - | |||||||||||
4870x2 | 203 | 850(OC) | 1600 | 2.6 | PCI-E 2.0 x16 | poclbm-mod ver. 20 april 2011 | Gainward / Win7 x64 / - w 256 - f 1 / 850MHz GPU - 300MHz Mem - 1,262V - 100% fun : 72C | ||||||||||||
4890 | 97.1 | 0.511 | 190 | 870(OC) | 1050 | 2.4 | PCI-E 2.0 x16 | GUIMiner v2011-01-21 Solo settings | Sapphire fab. No flags options helped. Close all browsers and do full restart of GUIMiner and then Bitcoin via Bitcoin mining video card comparison server starter or the browsers GPU accl. will limit to 56~ ish Mhash/s - I can now start browser without slowdowns | ||||||||||
4890 | 102.41 | 0.539 | 190 | 850 | 800 | - | PCI-E 2.0 x16 | - | |||||||||||
4890 | 108.3 | 0.57 | 190 | 975 | crd | - vodeo PCI-E Bitcoin mining video card comparison x16 | - | ||||||||||||
4890 | 121.5 | - | 190 | 1025 (OC) | 800 | 2.4 | PCI-E 2.0 x16 | poclbm | no flags, Vcore 1.4 | ||||||||||
5450 | 11.99 | 0.631 | 19 | 650 | 80 | - | PCI-E mininy x16 | - bigcoin 5450 | 13.74 | - | - | 700 | - | - | Cpmparison 2.1 x16 | poclbm/Linuxcoin v0.2 | - v - w128 tried several options, seems to work Bitcoin mining video card comparison. | ||
5450 | 14.12 | - | Bitcoin mining video card comparison | 700 | - | cadd | PCI-E 2.1 x16 | Phoenix/Linuxcoin v0.2 | Flags: "DEVICE=0 VECTORS AGGRESSION=4 - v FASTLOOP BFI_INT WORKSIZE=64" Kernel: "phatk" | ||||||||||
5450 | 15.36 | - | - | 700 | - | - | PCI-E 2.1 x16 | Phoenix | Flags: "DEVICE=0 VECTORS AGRESSION=8 FASTLOOP BFI_ING WORKSIZE=128" Kernel: "phatk" - MagicSata | ||||||||||
5450 | 18.10 | - | - | 774 | - | - | PCI-E 2.1 x16 | poclbm | - v - w 128 - f 1 774.66MHz/300.37MHz | ||||||||||
5470 | 17.10 | - Bitcoin mining video card comparison - | - | - | - | - | poclbm | - v - w 128 Bigcoin | |||||||||||
5550 | 40.59 | 1.041 | 39 | 550 | 320 Bitcoin mining video card comparison - | PCI-E 2.1 x16 | - | ||||||||||||
5550 | 62.10 | - | - | - | 700 | - | - | PCI-E 2.1 x16 | Phoenix | 700MHz core 800MHz ram, phatk mod, Flags: "-k phatk worksize=128 vectors aggression=4 bfi_int" | |||||||||
5570 | 59.96 | Bitcoin mining video card comparison 39 | 650 | 400 | - | PCI-E 2.1 x16 | - | ||||||||||||
5570 | 62 | 1.59 | 39 | 650 | 400 | 2.4 | PCI-E 2.1 x16 Bitcoin mining video card comparison Phoenix 1.48 OpenCL/Linux x86_64 | - k phatk DEVICE=0 VECTORS AGGRESSION=4 - v FASTLOOP BFI_INT WORKSIZE=64 | |||||||||||
5570 | 64 | 1.641 | 39 | 650 | - | - | PCI-E 2.1 x16 | m0mchil's OpenCL/WinXP | Source | ||||||||||
5570 | 73 | 1.872 | 39 | 700 | 400 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.48 OpenCL/Linux x86_64 | - k phatk DEVICE=0 VECTORS AGGRESSION=4 - v FASTLOOP BFI_INT WORKSIZE=64 | ||||||||||
5570 | 86.3 | 2.397 | 36 | 775 | 300 | 2.4 | Bitcoi 2.1 x16 | Phoenix 1.75 OpenCL/Windows 7 x64 (no Aero) fideo phatk VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 - v WORKSIZE=256 Fan 100% 86C Undervolted @ 0.96v using Sapphire Trixx | |||||||||||
5570 | 94 | stock | 880 | 800 | 2.4 | PCI-E 2.1 x16 | GUI Miner 02-12/Windows 7 x86 | - v - w128 75C | |||||||||||
5570 | 102 | 1.46(+) | 75(-) | 950 | 400 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.48 OpenCL/Windows 7 x86 (no Aero) | - k phatk DEVICE=0 VECTORS AGGRESSION=7 - v FASTLOOP BFI_INT WORKSIZE=256 (Reference Sapphire card, 2 additional 120mm coolers, temperature is 79-82C) | ||||||||||
Bitcoin mining video card comparison | 48 | 1.37 | 35(?) | - | - | - | PCI-E 2.1 x16 | m0mchil's OpenCL/Win7-64 | Sourcesource -- not TDP but load | ||||||||||
5650 | 61.2 | 35 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.50 OpenCL/Windows 7 x64 | - k phatk DEVICE=0 VECTORS BFI_INT WORKSIZE=128 AGGRESSION=9 | |||||||||||||
5670 | 71.49 | 1.117 | 64 | 775 | 400 | - | PCI-E 2.1 x16 | - | |||||||||||
5670 | 72 | 1.64 | 44 | 850 | - | - | PCI-E 2.0 x16 | poclbm-mod (Win7-64) | Sapphire 100287VGAL card is low power | ||||||||||
5670 | 85 | Bitcoin mining video card comparison | - | 900 | 400 | - | PCI-E 2.1 x16 | poclbm | - v - f 0 - w 128 | ||||||||||
5670 | 91 | - | - | 890 | 400 | - | PCI-E 2.1 x16 | guiminer 2011-06-09 poclbm catalyst 11.2 win7 x86 | - v - f 0 - w 128 | ||||||||||
5670 | 100 | - | - | 890 | 400 | - | PCI-E 2.1 x16 | cgminer videl | GPU/Mem 890/800 temp 72C minong 5670 | 103 | - | - | 900/275 | 400 | 2.4 | PCI-E 2.1 x1 | phoenix-1.50 / phatk-mod / Ubuntu 11.04 | VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 WORKSIZE=256 / small fan, under 50 deg C, no voltage tweaks. catfish | |
5670 | 127.8 | - | - | 850 | - | - | PCI-E 2.1 x16 | Windows 7 (64bit) Phoenix 2.0 | Aggression=11 Worksize=128 Fastloop=False Opencl | ||||||||||
5750 | 105 | - | - | - | minng | - | - | - | poclbm | Apple iMac 27inch (Mid 2010), Mac OSX 10.7 Lion | |||||||||
5750 | 116.24 | 1.352 | 86 | 700 | 720 | - Bitcoin mining video card comparison PCI-E 2.1 x16 | - | ||||||||||||
5750 | 137 | - | - | 710 | 720 | - | Bitcoin mining video card comparison 1.1 x16 | poclbm | - v - f 0 - w 128 using stock memory fard GPU clocks | ||||||||||
5750 | 146.4 | - | - | 775 | 720 | - | PCI-E 2.0 x16 | GUIMiner Bitcoin mining video card comparison | - v - w128, AMD Catalyst overclock (775MHz GPU / 1225 MHz Memory) | ||||||||||
5750 | 154.56 | 1.45 | 106 | 830 | 720 | - | PCI-E 2.1 x16 | - | - v - w128 - f20 underclocked memory clocks from 1150MHz to 300MHz | ||||||||||
5750 | 170 | - | - | 870 | 720 com;arison - | PCI-E 1.1 x16 | poclbm | - v - f 0 - w 128 patched BIOS to underclock memory to 300MHz | |||||||||||
5750 | Bitcoin mining video card comparison | - | - | 875 | 720 | - | PCI-E 1.1 x16 Bitcoin mining video card comparison phoenix | 875/300 w/MSI Afterburner, BFI_INT VECTORS AGGRESSION=12 FASTLOOP=FALSE - k phatk | |||||||||||
5750 | 177 | - | - | 910/575 | 720 Bitcoin mining video card comparison 2.6 | PCI-E 2.0 x8 | phoenix 1.5.6 | PowerColor GoGreen+fan, MSI Afterburner 2.2Beta, - k phatk VECTORS AGGRESSION=12 FASTLOOP=FALSE WORKSIZE=64 | |||||||||||
5750 | 190 | - | - | 930/290 | Bitcoin mining video card comparison | atistream sdk | PCI-E 1.1 x16 | poclbm | 930gpu / 290mem (O. S. Ubuntu 10.10 x64, overclock gpu & underclock mem) with poclbm options - v - f 0 - w 256 | ||||||||||
5750 Vapor-X | 195 | - | - | 125 Bitcoin mining video card comparison 975/300 | - | 2.4 | PCI-E 1.1 x16 Bitcoin mining video card comparison cgminer 2.7.5 | (O. S. Ubuntu 12.01 AMD64 dedicated) cgminer options - Q 0 - I 9 - g 2 - w 256 --auto-fan --temp-target 65 --gpu-vddc 1.075 (Fan speed 60~65%) | |||||||||||
5750x2 CF | 356 | - | - | 870 | 720x2 | 2.4 | PCI-E 2.0 x16 | Cgminer v1.5.1 (Win7 64bit) | 870MHz GPU / - I 8 / 2x GIGABYTE GV-R575SL-1GI cards + GIGABYTE GA-790FXTA-UD5 MB + 1x 80mm, 1x 90mm Noctua coolers | ||||||||||
5770 | 156.83 | 1.452 | 108 | 850 | 800 | 2.1 | PCI-E 2.1 x16 | clmine | |||||||||||
5770 | 171.12 Bitcoin mining video card comparison - | - | - | - | stock | - | PCI-E 2.1 x16 | phoenix 1.7.3/debian gnu/linux 6 squeeze | - k phatk2 DEVICE=0 VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 WORKSIZE=256 | ||||||||||
5770 | 180 | 1.406(*) | 128(*) | 950(OC) | 800 | 2.4RC1 | PCI-E 2.1 x16 | poclbm | - v - w 128 - f 30 (*: Overclocked wattage calculated here) | ||||||||||
5770 Hawk | 182 | - | - | 875 | 800 | 2.4 | PCI-E 2.0 x16 | poclbm/GUIMiner/Win7-64 | - v - w 128 (875MHz is Bitcoin mining video card comparison for 5770 Hawk) | ||||||||||
5770 | 185 | - | - | 850 | 1200 | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 / phatk | - k phatk VECTORS BFI_INT WORKSIZE=128 FASTLOOP AGGRESSION=7 | ||||||||||
5770 | 205.58 | - cideo | 935 | 300 | 2.1 | PCI-E 2.1 x16 | poclbm 2011-04-28 | - v - w 256 Bitcoin mining video card comparison 5770 | 214.5 | 1.95(-) | 108(+) | 950 | 300 | 2.4 | PCI-E 2.1 x16 | phoenix 1.50/GUIMiner/Win7-64 | mem underclocked 300 mhz, 1.1vcore, 950mhz core, @69°C/57%FAN VECTORS BFI_INT AGGRESSION=12 - k phatk WORKSIZE=256 | ||
5770 | 214.7 | 1.95(-) | 108(+) | 950 | 800 | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 / win7x86 | mem underclocked 309 mhz, - k phatk DEVICE=0 VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 | ||||||||||
5770 | 216.5 | - | - | 955 | 2.1 | PCI-E 2.0 x16 | Phoenix bitcoih /phatk | Modified phatk kernel and Bitcoin mining video card comparison voltage for Sapphire (1.125V) VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 - k phatk WORKSIZE=256 | |||||||||||
5770 | 218.35 | - | - | 1000 | 1401 | 2.1 | PCI-E 2.0 x16 | DiabloMiner | - w 128 - v 2 (Overclocked to 1Ghz core with 1.2 voltage and Scythe Setsugen 2 cooling system) | ||||||||||
5770 | 223 | 2.23(-) | 100(+) | 1050 | 300 | 2.4 | PCI-E 2.1 x16 | guiminer | - v - w256 source | ||||||||||
5770 | 227 | - | - | 1030 | 800 | 2.1 | PCI-E 2.0 x16 | DiabloMiner | - w 256 - v 2 (Overclocked to 1030 core/300 mem with 1.2 voltage and Scythe Setsugen 2 cooling system) | ||||||||||
5770 | 233 | 2.23(-) | 100(+) | 1050 Bitcoin mining video card comparison 300 | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 | VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 - k phatk WORKSIZE=256 source | |||||||||||
5770 | 236 | - | - | 1033/275 | 800 | 2.4 | PCI-E 2.1 x16 | phoenix-1.50 / phatk-mod / Ubuntu 10.04 | VECTORS BFI_INT Bitcoin mining video card comparison AGGRESSION=11 WORKSIZE=256 / big fans, under 75 deg C, no voltage tweaks. catfish | ||||||||||
5770 | 240.61 | 2.3632(-) | 100(+) | 1080 | 300 | 2.4 | PCI-E 2.1 x1 | phoenix 1.48 | VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 - k phatk WORKSIZE=256 (OC'd and OV'd 1080/300 1.25v) | ||||||||||
5770 | 241 | - | cimparison | 100(+) | 1045 | 250 | 2.1 | PCI-E 2.1 x16 | phoenix 1.50 | VECTORS BFI_INT AGGRESSION=13 - k phatk WORKSIZE=256 (OC 1020/300) XFX@1.1 volts. +Kernel function improve 5% | |||||||||
5770 | 244 | - | - | 1050 | 300 | 2.1 | PCI-E 2.0 x16 | Phoenix 1.75 /phatk2 | Modified phatk kernel and stock voltage for Sapphire (1.125V) VECTORS BFI_INT FASTLOOP=false Bitcoin mining video card comparison, Temp 75C, FAN 100% (manual) | ||||||||||
5770x2 | 425 | - | Bitcoin mining video card comparison | 225(+) | 960 | 800x2 | 2.1 | PCI-E 2.1 x16 | poclbm (guiminer) Win7x64 | - v - w128 (OC 960/1200) | |||||||||
5830M | 120 | - | - | 570 | 120 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.50 OpenCL/Win7 x64 | - k phatk DEVICE=0 Bitdoin BFI_INT AGGRESSION=13 FASTLOOP=false | ||||||||||
5830 | 244 | 1.36 | 179 | 800 | 1000 Bitcoin mining video card comparison 2.4 | PCI-E 2.1 x16 | Phoenix 1.48 OpenCL/Linux x86_64 | - k phatk DEVICE=1 VECTORS AGGRESSION=6 - v FASTLOOP WORKSIZE=128 BFI_INT | |||||||||||
5830 | 245 | 1.28 | 192 | 880 | 900 | 2.4 | PCI-E 2.1 x16 | poclbm (guiminer) | - v - w 256 | ||||||||||
5830 | 248 | 1.29 | 192 | 880 | 500 | 2.4 | PCI-E 2.1 x16 | phoenix 1.46 | - k poclbm Nitcoin BFI_INT AGGRESSION=11 | ||||||||||
5830 | 256 | - | - | 900 | 300 | 2.4 | Bitcoin mining video card comparison 2.1 x16 | phoenix 1.48 | - k poclbm VECTORS BFI_INT AGGRESSION=7 | ||||||||||
5830 | 267 | - | - | 875 | 1000 | 2.4 | PCI-E 2.1 x1 | Phoenix 1.48 OpenCL/Linux x86_64 | - k phatk DEVICE=1 VECTORS AGGRESSION=6 - v FASTLOOP WORKSIZE=128 BFI_INT | ||||||||||
5830 | 272 | 1.52 | 179 | 875 | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 / phatk / LinuxCoin | 275Mhz Memory clock, 1.125 V (from 1.163), VECTORS AGGRESSION=12 BFI_INT | ||||||||||
5830 | 275 | 1.5714 | 175 | 900 | 500 | 2.1 | PCI-E 2.1 x16 | poclbm (guiminer) Win7x64 | - v - w64 - f10, XFX stock w/ v2.4 SDK = 230Mh/s, v2.1 SDK = +10Mh/s, overclocking core clock by 100 = +30Mh/s, underclocking memory to 500 (ran cooler), and changing workload to - w64 = +5Mh/s. Bitcoin mining video card comparison 5830 | 285 | - | 1.58 | - | 960 | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.47 / poclbm / Win7 64 | VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 |
5830 | Bitcoin mining video card comparison | - | - | 930 | - | 2.2 | PCI-E x16/x4/x1 | GUIMiner / phoenix 1.5 / POCLBM / Win 7 64 | POCLBM VECTORS BFI_INT WORKSIZE=256 AGGRESSION=12 FASTLOOPS=false / Memory 300Mhz, VCore standard | ||||||||||
5830 | 290 | - | - | 996 | - | 2.4 | PCI-E 2.1 x16 | phoenix Bitcoin mining video card comparison / poclbm / Win7 64 | VECTORS AGGRESSION=12 BFI_INT | ||||||||||
5830 | 295 | - | - | 980 | 1120 | 2.1 | PCI-E 2.1 x16 | GUIMiner / poclbm / Win XP 32 | Extra flags - v - w 128 | ||||||||||
5830 | 297 | - | - | 970 | 1120 | 2.4 | PCI-E 2.0 x16 | guiminer / phoenix 1.48 / phatk / Win7 64 | 300Mhz Memory clock, 44% fan-speed, - k phatk VECTORS BFI_INT AGGRESSION=8 FASTLOOP=false WORKSIZE=256 | ||||||||||
5830 | 300 | - | - | 960 | 300 | 2.4 | PCI-E 2.1 x16 | GUIMiner / poclbm / Win 7 64 | Extra flags - v - w 256 (Sapphire Extreme 71 degrees @ 52% fan) | ||||||||||
5830 | 300 | - | - | 970 | - | 2.4 | PCI-E 2.0 x16 | bitocin 1.47 / pheonix 1.48 / Win7 64 | (sapphire xtreme) VECTORS BFI_INT FASTLOOP=false AGGRESSION=12 | ||||||||||
5830 | 300 | - | - | 970 | 1120 | 2.1 | PCI-E x16 | phoenix 1.48 / phatk / Win7 64 | 300Mhz memory clock BFI_INT AGGRESSION=12 FASTLOOP=false WORKSIZE=256 | ||||||||||
5830 | 305 | - | - | 984 | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.4 / phatk / Win7 32 | fomparison Memory clock, VECTORS AGGRESSION=12 BFI_INT FASTLOOP=false | ||||||||||
5830 | 307 | - | - | 996 | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 / phatk / Win7 64 | VECTORS AGGRESSION=12 BFI_INT | ||||||||||
5830 | 307 | 2.25 | 2.55 | 125 | 965 | - | - | PCI-E 2.1 x16 | cgminer 2.0.5 / Win7 64 | Mem @ 300/Stock voltage/Entire system 200W | |||||||||
5830 | 308 Bitcoin mining video card comparison - | - | 990 | 300 | 2.4 | PCI-E 2.1 x16 | phoenix 1.50 / poclbm / Xubuntu 11.04 x64 | VECTORS AGGRESSION=11 BFI_INT FASTLOOP=false WORKSIZE=256 | |||||||||||
5830 | 308 | - | Bitcoin mining video card comparison | 990 | 375 | 2.1 | PCI-E 2.1 x16 | phoenix 1.48 Bitcoin mining video card comparison phatk / Win7 32 | @ stock voltage VECTORS AGGRESSION=11 - v FASTLOOP=false BFI_INT | ||||||||||
5830 black | 310 | - | - | 990 | 300 | 2.4 | PCI-E 2.1 x8 | LinuxCoin 0.2b, phoenix/phatk | (XFX Brand) - k phatk VECTORS BFI_INT WORKSIZE=256 AGGRESSION=11 FASTLOOPS=false | ||||||||||
5830 | 311 | - | - | 1000 | 300 | 2.4 | PCI-E 2.1 x16 | compraison 1.50 / phatk / Linux | VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false WORKSIZE=256 | ||||||||||
Bitcoin mining video card comparison | 315 | - | - | 970 | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.6.1 / phatk2 / CrunchBang Linux | memory @ 300mhz VECTORS BFI_INT AGGRESSION=9 WORKSIZE=256 | ||||||||||
5830 | 316 | - | - | 1015 | 375 | 2.1 | Mininv 2.1 x16 | phoenix 1.48 / phatk / Win7 32 | @ stock voltage VECTORS AGGRESSION=12 - v FASTLOOP=false BFI_INT | ||||||||||
5830 | 319 | - | 1.77 | - | Bitcoin mining video card comparison | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 / phatk / Xp 64 | 1.2v 355Mhz Memory, VECTORS AGGRESSION=12 BFI_INT | |||||||||
5830 | 321 | - | - | 1000 | 1120 | 2.4 | PCI-E 2.0 x16 | phoenix 1.50 / phatk-mod / Linux | 1000Mhz GPU, 350Mhz RAM, 1.15V, 90% fan, ~60c Temp, VECTORS BFI_INT FASTLOOP=false AGGRESSION=13 WORKSIZE=128; phatk kernel found here | ||||||||||
5830 | 323 | 900 (OC) | 2.4 | PCI-E 2.1 x16 | phoenix 1.5 Win7x64 | (500Mhz RAM), ~61c Temp, 57% fan, BFI_INT FASTLOOP=false VECTORS AGGRESSION=12 - v WORKSIZE=64 | |||||||||||||
5830 (127$) | 325 | 1.98 | 2.57Mh/$ | 165W | 1040MHz | 200MHz | 2.6 | PCI-E 2.0 x8 | Guiminer/phatk-mod w7 64bit | - k phatk AGGRESSION=12 VECTORS2 WORKSIZE=128 stock volt, watercooled 53C | |||||||||
5830 | 328 | Bitcoin mining video card comparison | - | - | 1040 | - | 2.4 | PCI-E 2.1 x16 | LinuxCoin 0.2.1b / phoenix / phatk | 1.195 V, RAM @ 325 Mhz, fan @90%, no case, extra 10K RPM fan (62 carv in full-load); options: - k phatk DEVICE=0 VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 WORKSIZE=256; brand: Sapphire Xtreme; bord is stable up to 1060 Mhz ~ 335 MHash, but produces vard visual artefacts; | |||||||||
5830 | 331 | - | 4.14 | compaarison | 1010 | 1120 | 2.4 | PCI-E 1.0 x16 | WinXP 32 / Phoenix 1.7.5 / phatk2 | Stock Voltage, RAM 300, 64C, Fan 67%, - k vieo VECTORS BFI_INT AGGRESSION=11 WORKSIZE=256 FASTLOOP=false (+6Mh w/ Phoenix 1.7.5 over 1.6.2) | |||||||||
5830 | 333 | - | - | - | 1040 | - | 2.4 | PCI-E 2.1 x16 | LinuxCoin 0.2.1b / phoenix-1.50 / commparison + ~5 Mhash increase using cqrd modified phatk from the user above. I am the same guy with 330 @ 1040 MHz Sapphire Xtreme, all other settings the same, board stable, no increase in rejected | ||||||||||
vldeo | 334 | - | - | 1040 | - | 2.5 | PCI-E 2.0 x16 | phoenix 1.75 / phatk 2.2 / Win7 64 | Stock voltage, 208Mhz Memory, VECTORS AGGRESSION=12 WORKSIZE=128 BFI_INT | ||||||||||
5830 | 334 | - | - | 1030 | - | 2.4 | PCI-E 2.1 x16 | phoenix 1.50 / phatk 2.0 / Win7 64 | Stock voltage, 385Mhz Memory, VECTORS AGGRESSION=12 WORKSIZE=256 BFI_INT -- (upped from 330 achieved with diapolo mod here), now using phatk 2.0 found here | ||||||||||
5830 | 342 | - | - | - | 1045 | - | 2.4 | PCI-E 2.0 x8 | phoenix 1.48 / phatk bitcooin / WinSvr 2008 R2 64 | Stock voltage, 385Mhz Memory, VECTORS Bitcoin mining video card comparison FASTLOOP=false Ccomparison BFI_INT - k phatk-2.2 | |||||||||
5830x2 CF | 480 | - | - | 800 | - | 2.4 | PCI-E 2.1 x16 | Guiminer | - v - f70 - w128 | ||||||||||
5830x2 | 570 | - | - | 950 | - | 2.4 | PCI-E 2.1 x8 | Guiminer/ - / Win7 64bit poclbm | poclbm - v - w256 - f10 MEMORYCLOCK 300MHZ GPUCLOCK 950MHZ FAN 52% 72°C | ||||||||||
5830x2 | 608 | - | - | 990 | - | - | 2x PCI-E 2.0 x16 | phoenix 2.0/ phatk2 / Win7 32bit | Stock voltage, 300Mhz Memory, VECTORS GOFFSET AGGRESSION=12 WORKSIZE=256 BFI_INT FAN Bitcoin mining video card comparison 69°C (Open ATX case) | ||||||||||
5830x6 | 1967 | 1.62 | 1.97 | - compzrison 1020/340 | 1120x6 | 2.4 | PCI-E 2.1 x1 | Phoenix 1.7.5/phatk2/BAMT Linux | 100% fan @65C / 1.162V / CCC 11.6 / BFI_INT VECTORS FASTLOOP=false AGGRESSION=11 WORKSIZE=256 | ||||||||||
5850 | 240.77 | 1.595 | 1.49 | 151 | 725 | 1440 | - | PCI-E 2.1 x16 | - | ||||||||||
5850 | 250.26 | 1.657 | 151 | 725 | 1440 | - | PCI-E 2.1 x16 | opencl client | Source | ||||||||||
5850 | 252 | 1.575 | 160 | 765 | 1440 | 2.3 | PCI-E 2.1 x16 | poclbm 2011-01-25 | |||||||||||
5850 | 255.3 | 1.593 | 160 | 765 | 1440 | 2.2 | PCI-E Bitcoin mining video card comparison x16 | poclbm 2011-01-25 | |||||||||||
5850 | 264 | 1.748 | 151 | 725 bitcoih 1440 | 2.4 | PCI-E 1.0 x8 | guiminer-20110501 | - v - w128 | |||||||||||
5850 | 280 | 1.75 | 160 | 765 | 1440 | 2.2 | PCI-E 2.1 x16 | Bitcoib 1.3 | with BFI_INT | ||||||||||
5850 | 280 | - | - bitclin 725 | 1440 | 2.1 | PCI-E 2.1 x16 | Phoenix 1.50 / Fedora 14 | - v - k poclbm VECTORS AGGRESSION=8 WORKSIZE=128 BFI_INT FASTLOOP=true | |||||||||||
5850 | 282.75 | 3.06 | - | 92.25 | 666 (UC) | 1440 | 2.1 | PCI-E 2.1 x16 | Phoenix/WinXP | undervolted to 0.95V; phatk2 VECTORS BFI_INT AGGRESSION=11 WORKSIZE=256; driver 10.12; clocktweak for setting values; thread | |||||||||
5850 | comparidon | 1.825 | 160 | 765 | 1440 | 2.1 | PCI-E 2.1 x16 | poclbm 2011-04-28 - v - f 1 | |||||||||||
5850 | 298 | 1.8620 | 160 | 765 | 1440 | 2.1 | PCI-E 2.1 x16 | poclbm 2011-04-28 - v - f 1 - w 64 | |||||||||||
5850 | 300 | 1.5460 | 194 | 925(OC) | 1440 | - | PCI-E 2.1 x16 | m0mchil's OpenCL | Source | ||||||||||
5850 | 304 | - | - | 725 (stock) | 1440 | 2.1 | PCI-E 2.1 x16 | cgminer. exe - v 2 - I 8 - w 256 --gpu-memclock 275 | |||||||||||
5850 | 314 | 1.8362 | 171 | 820(OC) | 1440 | 2.4 | PCI-E 1.0 x8 | poclbm | - v - w128 | ||||||||||
5850 | 328 | - | - | 875 @ Stock voltage | 1440 | 2.4 | PCI-E 2.1 x16 | phoenix | 70C @42% fan, mem @ 500mhz; - v - k phatk VECTORS BFI_INT AGGRESSION=8 FASTLOOP=false WORKSIZE=128 | ||||||||||
5850 | 330 | - | - | 850 @ Stock voltage | 1440 | 2.1 | PCI-E 2.0 x16 | phoenix | EAH5850, miner arguments: - k poclbm DEVICE=1 Bitcoin mining video card comparison AGGRESSION=8 WORKSIZE=128 BFI_INT FASTLOOP=false | ||||||||||
5850 | 331 | - | - | 725 (Stock) | 2.4 | PCI-E 2.0 x16 | Diablo Win7 64bits | Sapphire 5850 Xtreme, Arguments: - v 2 - w 192 (by Swapper 2011-07-05) | |||||||||||
5850 | 335 | 1.8611 | 180 | 890(OC) | 1440 | 2.4 | PCI-E 2.0 x8 | poclbm | - v - w128, Memory downclocked to 300Mhz | ||||||||||
5850 Bitcoin mining video card comparison 344 Bitcoin mining video card comparison 1.8594 | 185 | 890(OC) | 1440 | - | PCI-E 2.0 x16 | phoenix | |||||||||||||
5850 | 347 | - | - | 876 | 1440 | 2.4 | PCI-E 2.0 x16 | guiminer / phoenix 1.48 / phatk / Win7 64 | 300Mhz Memory clock, 50% fan-speed, - k phatk VECTORS BFI_INT AGGRESSION=11 FASTLOOP=false WORKSIZE=256 | ||||||||||
5850 | 354 | - | - | 900(OC) | 1440 | 2.1 | PCI-E 2.0 x16 | diablo - v 2 - w 128 | Ubuntu 11.04 64-bit Headless, catalyst 11.5, memory downclocked to 300mhz, stock voltage. flashed with atiflash video | ||||||||||
Bitcoin mining video card comparison | 355 | - | - | 900(OC) | 1440 | 2.1 | PCI-E 2.0 x16 | phoenix 1.48 Bitcoin mining video card comparison phatk | Ubuntu 11.04 64-bit, Memory downclocked to 200MHz, VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 WORKSIZE=128 | ||||||||||
5850 | 355 | - | - | 900 | 1440 | 2.1 | PCI-E 2.0 x16 | phoenix 1.48 / phatk / Ubuntu 11.04 x64 | 300Mhz Memory clock, 60% fan-speed, - k phatk VECTORS BFI_INT AGGRESSION=11 FASTLOOP=false WORKSIZE=256 | ||||||||||
5850 | 356 | - | - | 870 (OC) | 1440 | 2.5 | PCI-E 2.0 x16 | cgminer 2.1.2 / Win 7 x64 | 302Mhz Memory clock, 85% fan-speed, Stock Voltage, - I 6 - v 2 - w 256 (2012-02 by Swapper) | ||||||||||
5850 | 359 | - | - | 900 | 1440 | 2.4 | PCI-E 2.0 x16 | phoenix 1.50 / phatk / Ubuntu 11.04 bitvoin | 300Mhz Memory clock, 66% fan-speed, - k phatk VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false WORKSIZE=256 | ||||||||||
5850 | 365 | - | - | 920 | 1440 | 2.1 | PCI-E x16 | phoenix 1.48 / phatk / Win7 64 | 300Mhz memory clock VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false WORKSIZE=256 | ||||||||||
5850 | 367.5 | - | - | 900(OC) | 1440 | 2.1 | PCI-E 1.0 x16 | diablo with bitless's hack, - v 2 - w 128 | RHEL 5U5 x86_64, catalyst 11.5, Sapphire HD 5850 Xtreme, Memory downclocked to 300MHz, core voltage 1.145V, BIOS modded with RBE | ||||||||||
5850 | 369.4 | - | - | 930 | 1440 | 2.4 | PCI-E 1.0 x16 | guiminer / phoenix / phatk / Win7 32 vidfo Catalyst 11.5, XFX HD5850, Memory downclocked to 322MHz, - k phatk VECTORS BFI_INT AGGRESSION=13 WORKSIZE=256 | |||||||||||
5850 | 372 | 1.68 | - | 220 @ Wall | 900 | 300 | 2.5 | PCI-E 1.1 x8 | cgminer 2.3.1 from source / Ubuntu 11.11 x86_64 | - I 8 - v 2 - w 256 --- hex-core opteron cpu w/ 12GB RAM and cgminer CPU bug in linux makes power usage a little high ~210w in windows 7 x86_64 | |||||||||
5850 | 375 | - | - | 940 | 1440 | 2.4 | PCI-E 2.0 x16 | phoenix 1.50 / phatk / Ubuntu 10.04 | 300Mhz memory clock VECTORS AGGRESSION=13 WORKSIZE=256 BFI_INT Bitcoin mining video card comparison | ||||||||||
5850 | 381 | Bitcoin mining video card comparison - | 940 | 1440 | 2.5 | PCI-E 1.0 x16 | phoenix / phatk / Win7 x64 / Catalyst 11.6 | MSI Afterburner 500MHz memory clock,-k phatk VECTORS BFI_INT WORKSIZE=256 AGGRESSION=13 | |||||||||||
5850 | 382 | 1.8454 | 207 | 995(OC) | 1440 | - | PCI-E 2.0 x8 | phoenix | OC 1.177v on core | ||||||||||
5850 | 391 | - | - | 180 | 725 | 1440 | 2.4 | PCI-E 2.0 x16 Bitcoin mining video card comparison Win 7 Ultimate x64 / DiabloMiner / Catalyst 12.2 | ASUS DirectCU @ GPU 960 MHz / MEM 300 Mhz @ Voltage Bitcoin mining video card comparison @ 70% FAN @ 69 temp @ Flags: - v 2,1 - w 256 | ||||||||||
5850 | 391 | - | - | 1000 | 1440 | 2.1 | PCI-E 2.0 x16(@x8) | Bitcoin mining video card comparison 1.5 / phatk / Win7 64 vard Mem @ 280, fan @ 100%, Temp @ 71, 1.163 V core, - v - k phatk VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false Comparisln, The name is Mautobu | |||||||||||
5850 | 392 | - | 2.43 Bitcoin mining video card comparison - | 990 | 1440 | 2.4 | PCI-E 2.1 x16 | phoenix-svn (AUR) / phatk / Arch Linux | Memory: 180MHz, - v - q 1 - k phatk WORKSIZE=128 VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false | ||||||||||
5850 | 397 | - | - | 950 | 1440 | Bitcoin mining video card comparison | PCI-E 2.1 16x | phoenix 1.5 / phatk 2.2 / Win7 64, catalyst 11.6 | Mem speed 350Mhz, Fan 85%, 70C, 1.083 Vcore, - k phatk VECTORS BFI_INT AGGRESSION=12 FASTLOOP=false WORKSIZE=256 | ||||||||||
5850 | 400 | - | - | 1000 | 1440 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.5 Win7 x64 | Memory 600MHz, Vcore 1.225, 73C, - k phatk WORKSIZE=128 VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false, 3% phatk mod | ||||||||||
5850 | 404 | - | - | 965 | 1440 | 2.5 | PCI-E 2.0 x16(@x8) | phoenixsvn / phatk2 / Ubuntu 11.04 / catalyst 11.8 | 5870 bios flash, Mem @322, fan@55%, Temp@83oC, 1.163Vcore, - k phatk2 VECTORS BFI_INT AGGRESSION=13 FASTLOOP=false WORKSIZE=256 | ||||||||||
5850 | 408 | - | - | - | 999/275 | 1440 | 2.4 | PCI-E 2.1 x16 | phoenix 1.50 / phatk-mod / Ubuntu 10.04 | Fan 70%, temp < 60 deg C, Sapphire 5 heatpipe card, same flags as above/below (edit1- oops, no voltage tweaks. edit2- wow, phatk-mod makes a difference. catfish) | |||||||||
5850 | 412 | - | - | 1010 | 1440 | 2.4 | PCI-E 2.0 1x>16x | phoenix 1.5 / phatk 3% mod / Win7 64 11.5 | VECTORS BFI_INT AGGRESSION=12 - k phatk | ||||||||||
5850 | 414.8 | - | - | 1018 | bicoin | 2.4 | PCI-E 2.0 16x | GUIMiner / Win7 64 11.7 | I use Sapphire HD5850 Toxic 2GB and for OC Vdeo Sapphire Tweak Utility v4.0.2. 72 deg C, fan 100%, core 1018mhz, mem 450Mhz, stock voltage (1.163). proof: http://img23.imageshack. us/img23/2367/414upload. png GUIMiner parameters: - v - w256 - f1 | ||||||||||
5850 | 420 | - | - | 1055 | 300 | 2.5 | PCI-E 2.0 1x>16x | phoenix 1.5 / phatk 3% mod / Win7 64 Bitcoin mining video card comparison | Fan 80%, 66C, 1.250 Vcore, - k phatk PLATFORM=0 DEVICE=0 VECTORS BFI_INT AGGRESSION=8 And proof: http://i. imgur. com/s9hqs. png | ||||||||||
5850 | 431 | - | - | 1040 | 1440 | 2.4 care PCI-E 2.0 4x>16x | phoenix-svn / phatk kernel / Debian Wheezy AMD64 + fglrx 11.6 | fan 100%, vcore 1.1750 V, 72C, VECTORS BFI_INT AGGRESSION=15 FASTLOOP=false - k phatk, proof: http://imageshack. us/photo/my-images/199/431u. png/ | |||||||||||
5850 | 432.15 | - | - | 1040 | 500 | 2.5.793.1 | PCI-E 2.0 16x | phoenix 1.7.5 / phatk2 kernel / Win7 x64 SP1 | fan 100%, vcore 1.212 V, 69C, VECTORS4 BFI_INT AGGRESSION=13 FASTLOOP=false WORKSIZE=64 - k Bitcoin mining video card comparison, proof: http://dl. dropbox. com/u/18704286/mining%205850.png/ . Card is REF HIS 5850 . Bitcoin mining video card comparison mining at this speed for stable but. max unstable (if i play video/flashvideo it will crash) is 436.48Mhash/sec with core 1051 mem 500 vcore 1.237 (same other settings) it's too hot in VRM that not sound good to me. i don't want to kill it for my fun mining. - Nito Niwatori | ||||||||||
5850x2 | 620 | - | - | 800 | 1440 | 2.4 | PCI-E 2.0 x16 | Guiminer ( cl miner ) v2012-02-19 Win7 x64 | MSI OC-Edition, - v - w 128 | ||||||||||
5850x2 | 702 | - | - | - | 905 (OC) | 1440 | 2.5 | PCI-E 2.0 x16 (x2) | phoenix 2.0.0 / Win 7 x32 | ASUS DirectCU: 304Mhz Memory clock, 66% fan-speed, Voltage Tweak, AGGRESSION=13 FASTLOOP=false WORKSIZE=256 (https://www. dropbox. com/s/9u6f2jz3sz1poxb/5850.jpg) | |||||||||
5850x2 | 720 | - | - | 875 (OC) | 1440 | 2.5 | PCI-E 2.0 x16 | cgminer 2.1.2 / Win 7 x64 | 302Mhz Memory clock, 85% fan-speed, Stock Voltage, - I 6 - v 2 - w 256 (2012-02 by Swapper) | ||||||||||
5850x3 | 1,010 | - | - | 850 | - | 2.4 | PCI-E 2.0 (x3) | GUIMiner | MSI Afterburner settings: 850MHz core clock and 500MHz memory clock | ||||||||||
5850x4 | 1360 | 1.94 | 700@wall | 900 | poclbm | ||||||||||||||
5850x6 | 2,135 | - | - | 900 | - | 2.5 | PCI-E 2.0 (6 total, 4 full length, 2 @ PCIE1x with risers | GUIMiner 24/8/2011 - poclbm | Win 7 64Bit, Gigabyte GA-890FXA-UD5 motherboard, 4gb ram, AM3 cpu, Kingston SSD, Catalyst 11.8 drivers, guiminer switches: - v - f1 - w128, MSI Afterburner settings: 900MHz core clock and 1000MHz memory clock, cable risers required to fit all 6 cards, fans 100% Proof: http://i. imgur. com/6s7zv. jpg | ||||||||||
5870M | 152.5 | - | - | 750(OC) | 1000 | 2.1 | PCI-E 2.1 x16 | gui-miner (win-7) | |||||||||||
5870M | 189.2 | - | - | 850(OC) | 1000 | 2.5 | PCI-E 2.1 x16 | Wins 7 64/gui-miner (win-7) | - v - w128 - f0 Graphics Overdrive setting 700->850 core clock & 900->1030memory clock. +35mhs over stock settings | ||||||||||
5870 | 313 | 1.665 | 188 | 900? | 1600 | 2.3 | PCI-E 2.1 x16 | Diablo/Linux | |||||||||||
5870 | 313.65 | 1.668 | 1.65 | 188 | 850 | 1600 | 2.1 | PCI-E 2.1 x16 | clmine | ||||||||||
5870 | 340 | 1.809 | 188 | 850 | 1600 | - | PCI-E 2.1 x16 | m0mchil's OpenCL | Source | ||||||||||
5870 | 343 | 1.824 | 188 | 900? | 1600 Bitcoin mining video card comparison 2.1 | PCI-E 2.1 x16 | Diablo/Linux | ||||||||||||
5870 | 355 | 1.888 | 188 | 900? | 1600 | 2.1 videi PCI-E 2.1 x16 | poclbm/Linux | ||||||||||||
5870 | 360 | 1.6822 | 214 | 970 | 700 | - | PCI-E 2.0 x16 | m0mchil's OpenCL w7-64 | - f 0 - v - w 128 source | ||||||||||
5870 | 379 | 2.015 | 188 | 850 | comparisom | - | PCI-E 2.0 x16 | hashkill-0.2.5 alpha | - D - G2 | ||||||||||
5870 | 397 | - | - | 930 | 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.48 | - k phatk VECTORS BFI_INT AGGRESSION=10 WORKSIZE=128 | ||||||||||
5870 | 400 | 1.9047 | 210 | 950 | 1600 | 2.4 | PCI-E 2.0 x8 | Phoenix 1.3 | - k poclbm VECTORS AGGRESSION=7 FASTLOOP BFI_INT | ||||||||||
5870 Bitcoin mining video card comparison 408 | 1.8888 | 216 | 980 | 1600 | 2.1 | PCI-E 2.0 x16 | poclbm/Win7x64 Bitcoin mining video card comparison - f 20 - v - w 128, BIT_ALIGN, BFI_INT | ||||||||||||
5870 | 414 | 1.9255 | 215 | 975 | 1600 | 2.4 | PCI-E 2.0 x16 | guiminer/w7x64 | - k poclbm - v - w 256 - f 1 VECTORS BITALIGN BFI_INT -- Memory Miinng 300 | ||||||||||
5870 | 420 | 2.0000 | 210 | 950 | 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.48 | - k phatk VECTORS BFI_INT AGGRESSION=14 WORKSIZE=256 -- Memory Clock 300Mhz | ||||||||||
5870 | 421 | Bitcoin mining video card comparison 215 | 975 | 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.47 | VECTORS BFI_INT AGGRESSION=13 - k phatk | |||||||||||
5870 | 421.5 | 2.007 | 201 | 950 | 1600 minng - | PCI-E 2.0 x16 | hashkill-0.2.5 alpha | - D - G2 (GPU OC to 900, memory downclocked to 900) | |||||||||||
5870 | 430 | 980 bitcoim 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.48/Windows 7 64 | - k phatk VECTORS BFI_INT AGGRESSION=14 WORKSIZE=256 -- Memory Clock 300Mhz | |||||||||||||
5870 | 432 Bitcoin mining video card comparison 985 | 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.73/Windows 7 64 | - k phatk VECTORS BFI_INT AGGRESSION=11 WORKSIZE=128 Memory Clock=900Mhz Asus 76C Fan=60% 65F ambient | |||||||||||||
5870 | 435 | - | - | 990 | 300 | 2.4 | PCI-E 2.0 x8 | LinuxCoin v0.2b phoenix/phatk | (Powercolor brand) - k phatk VECTORS BFI_INT WORKSIZE=256 AGGRESSION=11 FASTLOOPS=false | ||||||||||
5870 | 437 | 1.90 | 960 | - | 2.1 | PCI-E 2.0 x1 | phoenix comparlson + comarison | Card is clocked cqrd BIOS flash @ 960Mhz Core and 300Mhz Memory. More information and pictures: http://bitcointalk. org/index. php? topic=7216.msg324521#msg324521 | |||||||||||
5870 | 438 | 1.9819 | 221 | 1000(OC) | mijing | 2.1 | PCI-E 2.0 x16 | poclbm/Linux | - v - w 64 - f 1 | ||||||||||
5870 | 440 | Bitcoin mining video card comparison 220 | 995 | 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix | ||||||||||||
5870 | 445 | 2.28 | 2.34 | 195 | 1005 | 335 | 2.4 | PCI-E 2.0 x4 | Ubuntu 11.04 phoenix/phatk | (Asus brand, volts = 1'072) - k phatk VECTORS BFI_INT WORKSIZE=256 Compwrison FASTLOOPS=false - a 7 (-a 10) | |||||||||
5870 | 453 | 980 | 1600 | 2.5 | PCI-E 2.1 x16 | Phoenix 1.50/Windows 7 64 catalyst 11.6 phatk 2.2 | - k phatk VECTORS BFI_INT AGGRESSION=12 WORKSIZE=256 Bitcoin mining video card comparison -- Memory Clock 350Mhz Vcore 1.163v | ||||||||||||
5870 | 458 | - | Bitcoin mining video card comparison | 1040 | 1600 | 2.1 | PCI-E 2.0 x16 | poclbm/Windows 7 64 | - v - w 256 - f 1 Crossfired, Water cooled, 916 Mhash/s total. Best dual gpu setup me thinks? The name is Mautobu. | ||||||||||
5870 | 460 | 1050 | 1600 | 2.4 | PCI-E 2.0 x16 | Guiminer | - k phatk VECTORS BFI_INT AGGRESSION=14 WORKSIZE=256 -- Memory Clock 300Mhz vcore @ 1225mV | ||||||||||||
5870 | 460 | 1020 | 1600 | 2.4 | PCI-E 2.0 x16 | Phoenix 1.50/Windows 7 64 | VECTORS BFI_INT AGGRESSION=12 WORKSIZE=256 - k phatk -- Memory Clock 300Mhz vcore @ 1225mV, 3% phatk mod | ||||||||||||
5870 | commparison | 1000 | 1600 | 2.5 | PCI-E 2.0 x16 | phoenix 1.75/Windows 7 64 | - k phatk2 (phatk 2.2) VECTORS BFI_INT AGGRESSION=9 WORKSIZE=128, Memory Clock=213, stock voltage | ||||||||||||
5870 | 481 | 1050 | 1600 | 2.5 | PCI-E 1x | phoenix 1.75/Windows 7 64 | - k phatk2 (phatk 2.2) VECTORS BFI_INT WORKSIZE=64 AGGRESSION=20 [MSI HD 5870 Ref Design vs Zalman VF3000A 1200mv Mem 600MHz] | ||||||||||||
5870x2 (CF) | 864 | - | - | 900 Bitcoin mining video card comparison 3200 | 2.1 | PCI-E 2.1 x16 | guiminer | - k comparisson VECTORS FASTLOOP=false AGGRESSION=7 BFI_INT WORKSIZE=128 (Same flags per GPU) | |||||||||||
5870x2 (Ares) | 620 | - | - | 850 | 3200 | 2.1 | PCI-E 2.1 x16 | guiminer | - v - w Bitcoin mining video card comparison | ||||||||||
5870x2 (Ares) | 826 | 0.751 | 1100 | 950 | 3200 | 2.1 | PCI-E 2.1 x16 | phoenix 1.4 w/ Phtak Bitcoin mining video card comparison AGGRESSION=13 WORKSIZE=128 Bitcoin mining video card comparison BFI_INT Memory @ 300MHz | |||||||||||
5870x2 (Ares) | 826 | 1.18 | 700 | 935 | 3200 | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 w/ Phatk | AGGRESSION=13 WORKSIZE=256 VECTORS BFI_INT FASTLOOP=false, memory @ 319 MHz, Windows Bitcoin mining video card comparison 32-bit | ||||||||||
5870x2 (Ares) | 878 | 0.585 | 1500 | 1000 | 3200 | 2.1 | PCI-E 2.1 x16 | phoenix 1.7 w/ Phtak | AGGRESSION=13 WORKSIZE=128 VECTORS BFI_INT Memory @ 300MHz | ||||||||||
5870x4 | 1784 | 1.29 | 960 | - | 2.1 | PCI-E 2.0 x1 | phoenix 1.50 + phatk + Version 2.2 Improvement | Cards are clocked with BIOS flash @ 960Mhz Core and 300Mhz Memory. More information and pictures: Bitcoin mining video card comparison 5870x6 | 2568 | - | 1200 | 970 | - | 2.4 | PCI-E 2.1 x16 | poclbm/debian32bit Bitcoin mining video card comparison - v - w128, voltage default, Mem downclocked to 300 MHz, Fan 80-90% (+ 4x12cm fun 1900rpm), Temp 6x 70-75C. Whole computer comsumpts 1280Watt. Using PCI-E risers 16x-16x to use 6 GPU cards | |||
5970 | 530 | 1.803 | 0.53 ? | 294 | 725 | 3200 | 2.4.595.10 | PCI-E 2.1 x16 | poclbm/201103.beta3/Windows | - v - w128 - f60 | |||||||||
5970 | 535.06 | 1.820 | 294 | 725 | 3200 | 2.1 | PCI-E 2.1 x16 | clmine | |||||||||||
5970 | viseo | 1.905 | 294 | 725 | 3200 | - | PCI-E 2.1 x16 | Diablo | |||||||||||
5970 | 565 | 1.922 | 294 | 725 | 3200 | 2.1 | PCI-E 2.1 x16 | clmine2 | |||||||||||
5970 | 604 | 2.054 | 294 | 725 | 3200 | 2.1 | PCI-E 2.1 Bitcoin mining video card comparison | clmine | |||||||||||
5970 | 645 | Bitcoin mining video card comparison 344 | 850 | 3200 | 2.1 | PCI-E Bitcoin mining video card comparison x16 | m0mchil/poclbm 03-07-11 | - f1, Debian 6, fglrx-driver 10.9.3 | |||||||||||
5970 | 739 | 795 | 3200 | 2.4 | PCI-E 2.1 x16 viseo cgminer 2.3.1 | comprison 9 - k phatk - w 256 - v 2, memory clock @ 265MHz, Debian Squeeze, fglrx-driver 12.1.1, performance scales linearly with engine clock as long as memory clock is 1/3 | |||||||||||||
5970 | 740 | 2.1511 | 344 minnig 850 | 3200 | 2.1 | PCI-E 2.1 x16 | Bitcoin mining video card comparison | AGGRESSION=12 WORKSIZE=128 VECTORS BFI_INT, memory clock @ 300MHz | |||||||||||
5970 | 755 | 2.2076 | 342 | 848 | 3200 | 2.1 | PCI-E 2.1 x16 | poclbm 28-04-11 | - f 1 - w 256 carc, Ubuntu Bitcoin mining video card comparison, fglrx 11.4, memory clock @ bitconi | ||||||||||
5970 | 802 | 2.31 | Bitcoin mining video card comparison | 850 | 3200 | 2.4 | PCI-E 2.1 x16 | phoenix poclbm Ubuntu 11.04 | - q 6 - k AGGRESSION=19 WORKSIZE=128 BFI_INT VECTORS, fglrx 11.4, mem clock @ 1000MHz | ||||||||||
5970 | 820 | ??? | ??? | 910 | 3200 | 2.4 | PCI-E 2.1 x1 | Phoenix 1.5 Win7 | AGGRESSION=12 WORKSIZE=256 BFI_INT VECTORS - k phatk, 11.5, Mem Bitcoin mining video card comparison 300MHz, 1.110v, 3% phatk mod | ||||||||||
5970 | 822.2 | - | - | 950 | 3200 | 2.4 | PCI-E 2.1 x16 | phoenix win7 | - k phatk - q 6 AGGRESSION=20 WORKSIZE=128 BFI_INT VECTORS, but with this increasing difficulty mining becomes pretty pointless | ||||||||||
5970 | 833 | - | - | 930 | 3200 | 2.4 | PCI-E 2.1 x16 | phoenix 1.7.5, win7 x64, catalyst 11.7 | - k phatk AGGRESSION=13 WORKSIZE=256 BFI_INT VECTORS fastloops=false. bitdoin, 1.125v, fan 100%, 73C core temp, 95c voltage controllers. it will clock higher but not stable without a voltage increase and i fear for the VRMs | ||||||||||
5970 | 863.4 | - | - | 955 | 3200 | 2.4 | PCI-E Bitcoin mining video card comparison x16 | Diablo - Debian | - v 2 - w 256 (XFX Radeon HD 5970 Black Edition) | ||||||||||
6310M | 9.821 | 0.545 | 18 | 500 | 80 | 2.4 | Integrated/APU | poclbm-gui - v - w128 | HP DM1z 18W TDP is shared with the CPU | ||||||||||
6450 | 27.0 | 1.5 | - | 18 | 625 | 160 | 2.4 | PCI-E 2.0 x16 | guiminer/poclbm 2011-06-14 | - v - w128 Sapphire HD6450 1gb ddr3 Ubuntu 11.04 64bit | |||||||||
6450 | 32.6 | 1.918 | - | 17 | 725 | 800 | 2.4 | PCI-E 2.0 x16 | guiminer/Phoenix1.75 Windows 7 x64 (no Aero) | - k phatk VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 - v WORKSIZE=64 Dell OEM HD6450 1gb ddr3 passive cooling/no fan 81C | |||||||||
6450 | 37.8 | ? | - | 17 | 850 | 800 | 2.4 | PCI-E 2.0 x16 | Phoenix2.0.0 Windows 8 x64 | - k phatk2 VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 - v WORKSIZE=64 Sapphire HD6450 1GB DDR3 passive cooling/no fan 150MHz memory/1000mV VCore | |||||||||
6470M | btcoin | - | - | - | - | 2.1 | Integrated/APU | guiminer | |||||||||||
6470M | 31.0 | - | - | - | - | 2.1 | Integrated/APU | phoenix 1.48 | |||||||||||
cagd | Bitcoin mining video card comparison | - | - | - | - | 2.1 | Integrated/APU | phoenix 1.75 | |||||||||||
6490M | 15.21 | - | - | - | - | - | - | DiabloMiner GUI v2011-05-22 / Mac OS X 10.6.7 | Model: MacBookPro8,2 VRAM: 256MB | ||||||||||
6490M | 16.289 | 0.708 | 23 | - | - | - | PCI-E 2.1 Bitcoin mining video card comparison | poclbm-mod (Mac OS X 10.6.7) | MacBook Pro early 2011 | ||||||||||
6490M | Bitcoin mining video card comparison | - | - | - | - xomparison - | PCI-E 2.1 x16 | phoneix 1.50 with poclbm, Mac OS X 10.6.7 | MacBook Pro 2,8 VRAM: 256MB. phoenix - k poclbm VECTORS BFI_INT FASTLOOP | |||||||||||
6490M | 32.1 | - | - | - | - | - | - | guiminer 2011-07-01 with poclbm (Win7-x64) | MacBookPro8,2 (WinX64) - v - w128 - f0 | ||||||||||
6520G | 33.8 | - | - | 400 | 320 | - | Integrated/APU | guiminer 2011-07-01 with OpenCL (Win7-64bit) | - v - w128 on Toshiba L775D-S7222 | ||||||||||
6530D | 40.5 | - | - | biitcoin | 320 | 2.4 | FM-1 | cgminer 2.4.1 | Integrated/APU A6-3500; Linux; Catalyst 11.11; APP-SDK-v2.4 (595.10) | ||||||||||
6550D(A8 Onboard) | 66.2 | - | - | - | - | 2.5 | FM-1 | guiminer 2011-07-01 with OpenCL (Win7-64bit) | - v - w128 - f60 | ||||||||||
6550D | 67.6 | - | - | 600 | 400 | 2.5 | FM-1 | guiminer 2011-07-01 with OpenCL (Win7-64bit) | - v - w128 - f2 | ||||||||||
6570 Bitcoin mining video card comparison cimparison | 1.133 | 60 | 650 | 480 | 2.4 | PCI-E x16 | guiminer 2011-05-21 with poclbm (Win7-32bit) | no extra option for miner. Sapphire 6570 gddr5 512mb Bitcoin mining video card comparison 6570 | 82.1 | 1.368 | 60 | 650 | 480 | 2.4 | PCI-E x16 | guiminer 2011-05-21 with poclbm (Win7-32bit) | - v - w128. Sapphire 6570 gddr5 512mb | ||
6570 | 86.0 viideo 1.95 | - | 44 | 650 | 480 | 2.4 | PCI-E Bitcoin mining video card comparison | guiminer/poclbm 2011-06-14 | - v - w128 Sapphire Ultimate HD6570 1gb ddr3 Ubuntu 11.04 64bit | ||||||||||
6570 | 112.0 | - | - | 860 | 480 | 2.7 | PCI-E 2.0 x16 | guiminer 2012-02-19/poclbm (Win7-64bit) | - v - w128 - f1. Sapphire 6570 Low Profile gddr3 1024mb | ||||||||||
6570 | 114.0 | - | - | 866 | 480 | 2.7 | Bitcoin mining video card comparison 2.0 x16 | guiminer 2012-02-19/poclbm (Win7-64bit) | carrd - f 0 - w128 - a 3. Minkng 6570 Full Profile gddr3 1024mb 64 bit | ||||||||||
6630M | 48.80 | - | - | - | - | - | - | DiabloMiner GUI v2011-06-18 / Mac OS X 10.7 | Mac Mini 2011 MC816D/A imning 6630M | 63.00 | - | - | 600 | 480 | 2.5 | PCI-E 2.0 x16 | DiabloMiner Windows | Lenovo ThinkPad Edge E320 (card overclocked using Sapphire TRIXX) | |
6670 | 102.20 | - | - | 800 | - | comparion | PCI-E 2.1 x16 | poclbm/Debian sid | - v - f 0 - w 128 | ||||||||||
6670 | 104.00 | - | 1.0 | - | 820 | - | - | PCI-E 2.1 x16 | guiminer(poclbm)/Win 7 | - v - a4 - f15 - d0 - w64 | |||||||||
6670 | 110.00 | - | 1.0 | - | 850 | - | - | PCI-E 2.1 x16 | guiminer(poclbm)/Win 7 | - v - f 0 - w 128 - q 6 | |||||||||
6670 | 111.77 | 1.69 | - | 66 | 910 Bitcoin mining video card comparison 480 | 2.7 | PCI-E 2.1 x16 | Phoenix 1.7.5 | - k phatk2 BFI_INT AGGRESSION=5 VECTORS WORKSIZE=128 | ||||||||||
bitcokn | 120.1 | Bitcoin mining video card comparison | - catd - | 900 | 480 | 2.7 | PCI-E 2.1 x16 | cgminer 2.7.4 | kernel: diablo i:10 core: 900 mem: 750 | ||||||||||
6670 | 124.0 | - | - | 66 | 940 | 800 | 2.4 | PCI-E 2.0 x16 | Phoenix2.0.0 Windows 8 x64 | - k phatk2 VECTORS BFI_INT FASTLOOP=false AGGRESSION=11 - v WORKSIZE=128 Sapphire HD6670 Ultimate 1GB DDR5 passive cooling/no fan 300MHz memory/1100mV VCore | |||||||||
6750 | 142 | - | 150 bideo 700 | - | - | Bitcoin mining video card comparison 2.1 x16 | poclbm | - v - w128, Gigabyte SL (passive cooler), watts is TDP, card runs very hot (>90°C) | |||||||||||
6750 | 167.59 | - | - | 870 | - | - | PCI-E 2.1 x16 | guiminer | - v - f30 - w128 | ||||||||||
6750 | 172.00 | - | - | 860 | 600 | - | PCI-E 2.1 x16 Bitcoin mining video card comparison guiminer 2012-02-19/poclbm (Win7-64bit) MSI Afterburner 2.2.3 | - v - w128 f-20 Sapphire 6570 GDDR3 1024Mb CCC ver. 11.12 OCL 2.5 | |||||||||||
6750M | 41.48 | - | - | 870 | - | - | PCI-E 2.1 x16 | diablominer | |||||||||||
dard | 60 | - | - | - | - | - | - | diablominer OSX 10.7 WorkSize=128 | |||||||||||
6770 | 180 | - | - | 850 | 1200 | - | - | guiminer | - v - w128this was an XFX (OEM) model, GPU @ 850 MHz, mem @ 1200 MHz; I pushed it up to compaison Mhash/s briefly by overclocking, but it crashed the system above that | ||||||||||
6770 | 202 | - | - | 960 | 800 | - | PCI-E 2.1 x1,x4,x8,x16 | phoenix 1.48 | Sapphire 6770 (standard) - q2 - k poclbm DEVICE=0 AGGRESSION=10 VECTORS WORKSIZE=128 BFI_INT FASTLOOP (The PCI-E speed does not affect the mining speed) | ||||||||||
6770 | 217 | - | - | 960 | 800 | - | PCI-E x16 | Guiminer with phoenix | Sapphire 6770 - k phatk VECTORS BFI_INT WORKSIZE=128 FASTLOOP=false AGGRESSION=12 with https://bitcointalk. org/index. php? topic=22965.0 modification | ||||||||||
6770 | 221 | - | - | 1010 | 300 | 2.4 | PCI-E 2.0 x8 | Phoenix 1.50 | MSI 6770 - k phatk PLATFORM=0 DEVICE=0 VECTORS BFI_INT WORKSIZE=256 FASTLOOP=false AGGRESSION=13 3% Stock voltage. | ||||||||||
6770 | 235 | - | - | 1010 | 300 | 2.4 | PCI-E 2.0 x8 | Phoenix 1.50 | Sapphire 6770 - k phatk PLATFORM=0 DEVICE=0 VECTORS BFI_INT WORKSIZE=256 FASTLOOP=false AGGRESSION=13 3% mod https://bitcointalk. org/index. php? topic=22965.0 and AS5 paste on core w/ external 12" fan 50C full load. Stock voltage. | ||||||||||
6770x2 | 470 | - | - | 1010 | 300 | 2.4 | PCI-E 2.0 x8 | Phoenix 1.50 | Sapphire 6770 - k phatk PLATFORM=0 DEVICE=0 VECTORS BFI_INT WORKSIZE=256 FASTLOOP=false AGGRESSION=13 3% mod https://bitcointalk. org/index. php? topic=22965.0 and AS5 paste on core w/ external 12" fan 50C full load. Stock voltage. | ||||||||||
botcoin | 220 | 1.467 | 150 | 800 | - | - | PCI-E 2.1 x16 | Phoenix 1.48 | - k phatk BFI_INT FASTLOOP Caard VECTORS OC'd to 1ghz, underclocked mem to 300, voltage at 1175 | ||||||||||
6790 | 219 | 1.467 | 150 bitcokn 960 | - | - | PCI-E 2.1 x16 | guiminer | - v - f0 - w128 / GPU OC to 960MHz under Windows7 64bit | |||||||||||
6850 | 171.59 | 1.351 | 1.07 | 127 | 775 | 960 Bitcoin mining video card comparison 2.1 | PCI-E 2.1 x16 | clmine | |||||||||||
6850 | 196 | - | - | 850 | 960 | - | PCI-E 2.1 x16 | poclbm | - v - w 128 - f 0 | ||||||||||
6850 | 220 Bitcoin mining video card comparison 1.236(*) | 178(*) | 1000(OC) | 960 | 2.4RC1 | PCI-E 2.1 x16 | poclbm | - v - w 128 - f 30 (*: Overclocked wattage calculated here ) | |||||||||||
6850 | 234.8 | - | Bitcoin mining video card comparison | 940 | 960 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.3 | AGGRESSION=8 WORKSIZE=128 VECTORS BFI_INT | ||||||||||
6850 | 236.0 | - | - | 940 | 960 | 2.4 | PCI-E 2.1 x16 | Phoenix 1.4 | - k phatk AGGRESSION=12 WORKSIZE=128 VECTORS BFI_INT, Core @ 900MHz, Memory @ 300MHz | ||||||||||
6850 | 244.2 | - | - | 960 | 960 | 2.1 | PCI-E 2.0 x16 | poclbm june-2011 | - v - w 128 | ||||||||||
6850 | 245.1 | - | 200 | 940 | 960 | 2.4 | PCI-E 2.0 x16 | guiminer (Phoenix) | Sapphire 6850 (Memory @1000MHz); Win7 64bit; flags: - k phatk VECTORS BFI_INT FASTLOOP=false AGGRESSION=14 WORKSIZE=128 | ||||||||||
6850 | 250 | 1.612(*) | - | 155(*) | 940 (OC) | 960 | 2.4 | PCI-E 2.0 x16 | AOCLBF 1.74 (Phoenix 1.5**) @Win7/x64 | XFX 6850 (Memory @840MHz; Vdcc @1.148V; Fan @74%; Temp @70C; System @39C); flags: - k phatk BFI_INT FASTLOOP VECTORS AGGRESSION=11 WORKSIZE=128 (*: Overclocked wattage calculated here / **: Tainted Kernel) | |||||||||
6850 | 256.2 | - | 170 | Bitcoin mining video card comparison | 960 | 2.7 | PCI-E 2.0 x16 | phoenix 1.7.5 / Bitcoin mining video card comparison 32bit | - k phatk - VECTORS BFI_INT AGGRESSION=9, Sapphire VaporX 1GB, mem@250MHz, stock VDDC 1.150V | ||||||||||
6850 | 262.5 | - | - | 965 | 525 | 2.4 | PCI-E 2.0 x16 | guiminer / poclbm | - v - f 0 - w 128 (HIS 6850 flashed to HIS 6870 BIOS) | ||||||||||
6850 | 267.2 | 1.67 | - | 1010(OC) | 960 | 2.4 | PCI-E 2.0 x16 | guiminer / phoenix 1.50 | - k phatk VECTORS BFI_INT AGGRESSION=11 worksize=128 FASTLOOP=false | ||||||||||
6850 | 301.4 | 1.67 | - | 2.4 | PCI-E bifcoin x16 | guiminer Bitcoin mining video card comparison poclbm | - v - f 2 - w 128 clock @ 985 mem @ 890 | ||||||||||||
6870 | 232.47 | 1.540 | 1.22 | 151 | 900 | 1120 | - | PCI-E 2.1 x16 | poclbm - v - w 128 | ||||||||||
6870 | 245 | - | - | 900 | 1120 | 2.4 | PCI-E 2.0 x16 | ph rising 1.45 phoenix 1.50 phatk 11.5 sdk 2.4 mlning HD5xxx+ Fastloop phatk AGGRESSION=10 | |||||||||||
ocmparison | 264.5 | - | - | - | 980 | 1050 | - | PCI-E 2.1 x16 | GUIMiner v2011-05-01 | Stays Bitcoin mining video card comparison 66*C if I keep the side panel off and the room well ventilated. Card is PowerColor hitcoin. Windows 7 Ultimate SP1 with Classic theme. Fan is at 100%. - v - w128 | |||||||||
6870 | 271 | 1.807 | 150 | 940 | 1120 | 2.4 | PCI-E 2.0 x16 | poclbm - v - w 128 | Debian 6.0.1 x86_64 | ||||||||||
6870 | 277.47 | - | Bitcoin mining video card comparison | 940 | 1120 | - | PCI-E 2.1 x16 | Phoenix 1.3 | AGGRESSION=8 WORKSIZE=128 VECTORS BFI_INT | ||||||||||
6870 Bitcoin mining video card comparison 279 | 1.847(?) | 151(?) | 900 | 1120 | 2.4 | PCI-E 2.1 x16 | hashkill-0.2.5 alpha cat 11.4 sdk 2.4 | - G2 - D stock clocks, debian linux 64bit | |||||||||||
6870 | 281.7 | 1.172 (stock) | - | 980 | 1120 | 2.4 | PCI-E 2.1 x16 | guiminer-v2011-06-09 | xfx6870, flags: - v 19 - w 128, win7 32-bit | ||||||||||
6870 | 293.13 | - | 945 | 1050 | 2.5 | PCI-E 2.1 x16 | Phoenix 1.5 Phatk | xfx6870, Catalyst 11.6, 1.5 Phoenix flags: - k phatk FASTLOOP=false DEVICE=0 VECTORS BFI_INT AGGRESSION=13 WORKSIZE=128; http://bitcointalk. org/index. php? topic=25860.0 Kernel Patch; http://bitcointalk. org/index. php? topic=6458.0 Cmd; http://developer. amd. com/tools/gDEBugger/Pages/default. aspx No Crossfire Required; runs faster without crossfire 1% + additional 3% from update | |||||||||||
6870 | 294 | - | 980 | 1120 | 2.4 | PCI-E 2.1 x16 | phoenix phatk | xfx6870, 340MHz memory clock, Catalyst 11.6, flags: BFI_INT VECTORS AGGRESSION=9 WORKSIZE=256 | |||||||||||
6870 | 294 | - Bitcoin mining video card comparison 985 | 1100 | 2.4 | PCI-E 2.0 x8 | Diablo | Powercolor branded card, Win 8 x64, Bitcoin mining video card comparison 1 - w 256 Bitcoin mining video card comparison 6870 | 295 | 2.02 | 1.64 | 146 | 950 | 1120 | 2.4 cardd PCI-E 2.1 x16 | hashkill latest as of 7/6/11 (ubuntu 11.4) | hashkill-gpu - p bitcoin user:pass:server - D, mem clock 850, voltage @ 1.175, Fan @ 70%, Temp @ 71C. | |||
6870 | 297 | - | - | 1000 | 1120 | 2.4 | PCI-E 2.0 x16 | ph rising 1.62 phoenix 1.50 phatk 11.5 sdk 2.4 | Vectors HD5xxx+ Fastloop phatk AGGRESSION=11 WORKSIZE=128 | ||||||||||
6870 | 300 | - | - | 940 | 1120 | 2.5 | PCI-E 2.1 x16 | Phoenix 1.6.2 phatk2 | xfx6870 Black Edition, 340MHz Memory Clock, Catalyst 11.6, VECTORS BFI_INT AGGRESSION=13 WORKSIZE=128, Debian Linux 64-Bit, Fan @ 50%, Temp @ 75C | ||||||||||
6870 | 300 | 1.72 | - | 174 compsrison 1038 | 1120 | 2.4 | PCI-E 2.1 x16 | poclbm windows7x86 cat 11.4 | - v - w128 - f1 mem clock 360, fan 100% temp 73C | ||||||||||
6870 | 300.06 | 1.830 | 164 | 1020 | 1120 | 2.4 | Bitcoin mining video card comparison 2.1 x16 | Phoenix 1.4 cat 11.4 | VECTORS BFI_INT AGGRESSION=8 fastloop mem clock 344 | ||||||||||
6870 | 302 | - | - | 940 | 1120 | 2.5 | PCI-E 2.1 x16 | bicoin 2.1.2 | xfx6870 Black Edition, 340MHz Memory Clock, Catalyst 11.6, - w 256 - I 9, Debian Linux 64-Bit, Fan @ 50%, Temp @ 75C | ||||||||||
6870 | 307 | 1.72 | - | 174 | 1001/\1001 | 1120 | 2.4 | PCI-E 2.1 x16 | poclbm windows7x86 cat11.8 | - v - w128 - f5,85°C | |||||||||
6870 | 310 | - | - | - | 1000 | 1120 | PCI-E 2.1 x16 Bitcoin mining video card comparison cgminer 3.1.0 (Ubuntu Server 12.04 LTS AMD64) | intensity=13, vectors=2, worksize=128, kernel=diablo, gpu-engine=1000, gpu-memclock=900 | |||||||||||
6870 | 310 | - | - | - | 1035 | 1120 | 2.4 | PCI-E 2.1 x16 | phoenix 1.48 phatk 11.5 sdk 2.4 | BFI_INT VECTORS FASTLOOP=false AGGRESSION=12 WORKSIZE=128, mem clock @ 300MHz, voltage @ 1.300 | |||||||||
6870 | 310 | - | - | 975 | 1120 | 2.4 | PCI-E 2.1 x16 | phoenix phatk linuxcoin | BFI_INT VECTORS FASTLOOP=false AGGRESSION=13 WORKSIZE=128, mem clock @ 340MHz, core clock @ 970MHz, flashed bios, 72 degrees w/ fan @ 68%, GIGABYTE SOC | ||||||||||
6870 | 312 | - | - | 975 | 300 | 2.4 | PCI-E 2.1 x16 | phoenix 1.50 / phatk / Windows 7 x64 SP1 | VECTORS BFI_INT AGGRESSION=11 FASTLOOP=false WORKSIZE=256, mem clock @ 300MHz, voltage @ 1.300, Fan @ 45%, Temp @ 62C, MSI 6870 HAWK. | ||||||||||
6870 | 314 | - | - | 1030 | 1120 | 2.4 | PCI-E 2.1 x16 | phoenix 1.50 / phatk / Linux | VECTORS BFI_INT AGGRESSION=11 FASTLOOP=false WORKSIZE=256 | ||||||||||
6870 | 316 | - | - | 1030 | 1120 | 2.4 | PCI-E 2.1 x16 | guiminer 2011-06-09 using phoenix (Win7-32bit) | - k phatk platform=0 device=0 VECTORS BFI_INT AGGRESSION=11 worksize=128 Bitcoin mining video card comparison, mem clock @ 228MHz, voltage @ Bitcoin mining video card comparison, Fan @ 40%, Temp @ 73C | ||||||||||
6870 | 320 | - | - | 160 | 950 | 1120 | 2.4 | PCI-E 2.0 x16 | Win 7 Ultimate x64 / DiabloMiner / Catalyst 12.1 | Saphire @ GPU Bitcoin mining video card comparison MHz / MEM 300 Mhz @ Voltage comarison @ 80% FAN bitcon 69 temp @ Flags: - v 2 - w 128 | |||||||||
6870 | 321 | - | - | 1050 | 1120 | 2.4 vifeo PCI-E 2.1 x8 | Aoclbf 1.7 phoenix 1.50 11.6 | Vectors HD5xxx+ phatk AGGRESSION=13 WORKSIZE=256, Memory=325MHz, Volts=1.3V, Fan~55%, Temps~70C | |||||||||||
6870 | 322 | 1.882 | 170 | 1050 | 1120 | 2.4 comparisin PCI-E 2.1 x16 | phoenix 1.47 Bitcoin mining video card comparison 11.5 Bitcoin mining video card comparison 2.4 | BFI_INT VECTORS FASTLOOP=false AGGRESSION=12 WORKSIZE=256, mem clock @ 400MHz | |||||||||||
6870 | 329 | - | carv | 1075 | 1120 | 2.4 | PCI-E 2.1 x16 miing phoenix 1.48 phatk 11.5 sdk 2.4 | BFI_INT VECTORS FASTLOOP=false AGGRESSION=11 WORKSIZE=256 | |||||||||||
6870 | 332 | - | 1.74 | - | 1050 | 1120 | 2.4 | PCI-E 2.1 x16 | guiminer 2011-06-14 using phoenix (Win7-32bit) | - k phatk platform=0 device=0 VECTORS BFI_INT AGGRESSION=13 worksize=128 FASTLOOP=false, mem clock @ Bitcoin mining video card comparison, voltage @ 1.3, Fan @ 60%, Bitcoin mining video card comparison @ 74C, Bitcoin mining video card comparison and browser vomparison acceleration disabled, aero enabled. | |||||||||
6870 | 339.25 | - | - | - Bitcoin mining video card comparison 1090 | 1120 | 2.6 | PCI-E 2.1 x16 | Phoenix 1.7.3 cat 12.1 | Mem @ 350Mhz Clock @ 1090 Voltage 1.337 fan Bitcoin mining video card comparison 100 Temp @ 75 diapolo's modified phatk kernel - k phatk_dia platform=0 device=0 VECTORS2 AGGRESSION=11 worksize=64 FASTLOOP=false BFI_INT | ||||||||||
6870 | 375 | - | - | - | 1000 | 1120 | 2.5 | PCI-E 2.0 x16 | Win 7 Ultimate 32-bit Bitcoin mining video card comparison Guiminer v2011-07-01 / phoenix 1.5 / phatk2 / Catalyst 11.9 | XFX / GPU @ 1000 MHz / MEM @ 200 Mhz / Voltage @ 1.187 V / FAN @ 40% / Temp @ compqrison C / Flags: - k phatk2 platform=0 device=0 VECTORS BFI_INT AGGRESSION=6 worksize=128 FASTLOOP=false / Using 2 miners with equal settings on 1 GPU | |||||||||
6870x2 | 600 | - | - | - | 945 | 330 | 2.5 | PCI-E 2.0 x16 | Ubuntu 12.04 32-bit / Phoenix 2 / phatk2 / Catalyst 11.9 | XFX / GPU @ 945 MHz / MEM @ 330 Mhz / Voltage @ 1.175 / Config: phatk2 VECTORS4 BFI_INT AGGRESSION=12 worksize=128 FASTLOOP=false GOFFSET=True | |||||||||
6870x4 | 1150 | - | 1.2 | - | 900 | 1050 | 2.4 | PCI-E 2.0 x16 | phoenix 1.7 (Win7-64bit) | - k phatk platform=0 device=0-3 VECTORS BFI_INT AGGRESSION=11 worksize=128 FASTLOOP=false | |||||||||
6870x4 | 1180 | - | - | 145 | 950 | 1120 | 2.4 | PCI-E 2.1 x16 | poclbm/debian32bit | - v - w128, Gigabyte SOC. voltage 1.175 (default), GPU default 950 MHz, Mem downclocked to 300 MHz, Fan 4x100% (+ 2x12cm fun 1300rpm), Temp 4x75C Bitcoin mining video card comparison summer). | |||||||||
6870x4 | 1200 | - | - | 150 | 970 | 1120 | 2.4 | PCI-E 2.1 x16 | poclbm/debian32bit | - v - w128, Gigabyte SOC. voltage 1.175 (default), GPU overclocked from 950 to 970 MHz, Mem downclocked to 300 MHz, Fan 4x100% (+ 2x12cm fun 1300rpm), Temp 4x75C (in summer). Unstable with GPU@975 MHz. | |||||||||
6930 | 320 | - | - | - | 960 | 1200 | 2.1 | PCI-E 2.1 x16 | phoenix 1.75/phatk | stock voltage, BFI_INT FASTLOOP VECTORS AGGRESSION=13 WORKSIZE=64. 70C, FAN 80% (HIS brand) | |||||||||
6930 | 370 | - | - | - | 980 | 855 | 2.4 | Bitcoin mining video card comparison 2.1 x16 | cgminer-2.4.1 | stock voltage (1,160), - I9. 71C, FAN 85% (HIS brand) | |||||||||
6930 vudeo 372 | - | 1.89(?) | - | 1000 | 900 | 2.4 | PCI-E 2.1 x16 | phoenix 1.75/poclbm | max stable @ 1200 mV, BFI_INT FASTLOOP VECTORS AGGRESSION=13 WORKSIZE=64 |
One comment
Is it worth mining Cryptocurrencies in 2020?
What to mine and how to mine? Bitcoin mining video card comparison cryptocurrency is dead, they say.
There are many ways to mine crypto, but which cryptocurrencies are the most profitable? Should you buy a mining rig yourself or do cloud mining? How to calculate the profits? We will discuss all that and compare the three main ways to see which one is the most profitable.
So what is cryptocurrency mining?
Mining is the process of validating other user’s transactions (e. g. bitcoin transactions) with a computer and then adding them to the blockchain. As a reward, miners receive cryptocurrency.
3 Main Ways to Mine Cryptocurrency ⚡
- GPU mining (mining on video cards)ASIC miningCloud mining
1. GPU Mining
GPU Mining is using video graphics Bitcoin mining video card comparison to mine cryptocurrencies. Here's a guide to help you choose the best graphics cards for mining. Some of the most popular GPUs are NVIDIA GTX1060, GTX1070 and GTX1080Ti as well as RADEON models RX470/RX480 RX570/RX580. Should be noted that RADEON GPUs consumes more electricity but are generally cheaper Bitcoin mining video card comparison NVIDIA GPUs. In terms of performance, NVIDIA GPUs are generally better. However, any GPU performance highly depends on the price of electricity. Thus, all aspects should be taken into account.
Most crucial factors of the mining process
- Cost of electricitycryptocurrency priceslevel of mining difficultyGPU performance (hash rate per watt)
Crypto investor’s essential: break-even point of the investment
Another significant issue that smart investors would consider is the cost of mining equipment (mining hardware). The cheaper you manage to buy the mining rig, the faster your investment will be paid off. Don’t forget that the price must not be your only factor when making a final decision on mining hardware. Having a warranty in case the GPU or any other part will fail is essential. Otherwise, there will be a need for extra investment.
How to start mining Ethereum?
Ethereum is one of the most popular altcoins for mining, we will briefly describe how the process looks.
First, you need to get a mining rig, see list of all components required to build your first one below. Second, you must configure BIOS correctly, install OS and required software. Third, specify details of the mining pool and your personal cryptocurrency wallet (the one you will get proceeds to).
Note, currently Ethereum is running proof of work system which makes it possible to mine, but it was announced that the proof of stake system Bitcoin mining video card comparison be introduced in the future. Plan still officially remains, so Ethereum miners should be aware that it will impossible to Bitcoin mining video card comparison once the new protocol is updated.
That’s it, you are good to go. Further, we cover some specific aspects you should be aware of while getting your mining rig ready.
What hardware do you need to build your own mining rig on video cards?
In Bitcoin mining video card comparison to build your first mining rig, you will need a case/chassis (it can be bought online or you can make it yourself) and mining hardware, which includes:
- Motherboard (number of active PCI slots must not be less than the number of GPU you plan to employ)Storage: SSD disk (16gb is enough for LINUX)RAM (4GB) PSU (power supply depends on the mining rig, see next section for details)Processor (any that is suitable for chosen motherboard)Risers (PCIe Riser is used to provide additional space for GPUs. It is often the basic component of the multi-GPU mining rig, as the PCIe riser actually provides the additional space to place multiple GPUs in Bitcoin mining video card comparison GPU mining rig.)Video cards (cards with higher computing power will ensure higher hash rate and thus higher rewards)Wattmeter (to monitor Bitcoin mining video card comparison power consumption on the power socket)
As Bitcoin mining video card comparison can see it is generally the same list as if you were building a PC.
How to calculate the required Power Supply for mining with video card?
It is important to calculate how much power you need to supply your GPUs. So here is an example of how you can calculate it.
EXAMPLE RIG: 6 Video cards NVIDIA GTX1070
- General system will require 150wGPUs: 120w x 6 = 720wRisers 60w x 6 = 360wTotal: 150w + 720w + 360w = 1230w
Thus, you need either 1 power supply with at least 1200w or 2 power supplies connected together, where each is at least 600w.
Having that in mind, you can check what are the best pricing options you can get, as the cheaper, you can get the mining rig, the faster you can get it paid off reaching the break-even point on your investment.
Which OS and mining software to choose for mining with GPU?
Most popular options of OS for miner are:
- Windows 10HIVE OS (Linux modification for mining)ETH OS (Linux modification for mining)
We will not go deep examining the advantages and disadvantages of each OS, instead, we will only share our experience. Having Windows for mining sounds attractive, but in reality, this is probably the most unstable and complicated Bitcoin mining video card comparison if we dive into details. However, it is probably the least scary option if you want to try mining with your existing PC to see how it generally works and get a concrete understanding.
HiveOS is a relatively new option which is free to connect first 3 mining rigs and is quite straightforward to set up and to run. After you run the mining rig with pre-installed HiveOS Linux build the process will ask you to connect the mining rig you’ve created in your online cabinet. Then, all configuration and management happen online.
Once you set up the OS you will need to install a mining software, choosing the most popular is a safe and stable option:
Choosing more exotic altcoins for mining may require less popular Bitcoin mining video card comparison software.
Best Cryptocurrency to Mine with GPU in 2020?
Most profitable altcoins for your GPUs can Bitcoin mining video card comparison any day, any time as it involves a number of factors, but most importantly it will depend on the price of the Bitcoin mining video card comparison. You can check https://whattomine. com to see most profitable altcoin for your mining rig.
Still, apart from using available mining profitability calculators, we suggest thinking long Bitcoin mining video card comparison. Ethereum is altcoin No1 of cryptocurrency industry with a strong team behind and relatively long record. We’ve seen the price of Ethereum reaching 1300 USD in January 2018. Mining Ethereum may not be the most profitable option today, but if you hold your mining rewards and sell later at highs, what would be with your mining rig’s profitability? Yes, it will be higher.
Overclocking a Mining GPU optimally
Your overclocking strategy may change if you have cheap electricity or willing to get as much crypto as fast as you can (in that case you may want to consider simply buying Bitcoin or Ethereum on the market). General idea to keep in mind, the higher you set the overclocking the more power your mining rig will consume. Thus, make sure that the extra hash rate will still make sense because Bitcoin mining video card comparison electricity costs will increase.
Search for optimal settings online carefully, as it may allow you to both increase hash rate and reduce power consumption.
How to Choose a Cryptocurrency Mining Pool?
Your main concern with regards to mining pool should be its size and capacity to operate stably. We recommend to start with:
Is it too late to start mining Ethereum?
It may be late for some people and still fine for others. Other things being equal, the cost of electricity should be your first concern. If you are lucky to be living in a country with cheap electricity (less than 0.1 USD kWh), then it may be a good idea to consider mining as an investment.
Cryptocurrency Mining in 2020: Is It Profitable and Should You Start?
Let’s take an example, imagine you’ve built a mining rig with NVIDIA GTX 1070 video cards. Now let’s take a look at a fair result of the miner:
Price of mining rig hardware: 3000 EUR
Target altcoin for mining: Ethereum
Altcoin price on the market: 280 Euro per 1 ETH
Hash Rate: 180MH/s
Reward per 24h: 0.0144 ETH
Reward, 30 days: 0.432 ETH
Electricity expenses (kWh): 518
Cost of electricity: 77 EUR (at a cost of 0.15 EUR per kWh)
Revenue per month: 121 (current price of Ethereum is 280 EUR)
Profit per month: 44 EUR
Calculated at Ethereum Bitcoin mining video card comparison calculator WhatToMine
If the price of Ethereum is unchanged then it will take 68 months to reach a break-even point on your investment. However, if you accumulate all proceeds and in case Ethereum costs 600 EUR in 6 months, then your electricity expenses would be 462 EUR, while rewards would be equal to 1555 Bitcoin mining video card comparison, which leaves you with 1093 EUR of profit for a period of 6 months.
In case the price of Ethereum will reach 1000 EUR in 6 month and you sell your accumulated Ethereum, then your profits would be 2130 euro, which makes it a lot more attractive, right?
You can see that any scenario highly depends on your price expectations and strategy you follow while mining.
Mining is obviously a risky thing, but in some cases, it can be highly profitable.
Pros
- GPU can be sold easier than ASICEasy to switch Cryptocurrency (having a huge choice of altcoins to mine)Reprogrammable
Cons
- High Power Consumption for typical householdsEasily Affected by Disruptions (not too stable)Needs a PCRequires hardware knowledge if you are going to maintain it yourselfRequire less Mining Power than ASICs
2. ASIC Bitcoin mining video card comparison src="https://lh3.googleusercontent. com/tRdZsxksKREWlnwTx8yECkRLIqMjTLrTNvx08qC6Iq6gcDLMotWKMbDau40K9CvQcNC2kouSaoW0VqaRMWjTSk9E7WY2oHx4Z4OxDEtrG-MKXtD65d02VAZfj2favQ">
ASIC mining is using Application-Specific chips to mine. That alone tells you, Bitcoin mining video card comparison you will not be able to switch between the high number of cryptocurrencies when using this mining method. Each ASIC is capable of mining only on a specific algorithm. For example, Bitcoin is based on SHA256 algorithm and apart from mining Bitcoin, it is also possible to do mining of other coins, for example, Bitcoin Cash.
Largest ASIC producers:
ASIC profitability example
To Bitcoin mining video card comparison if ASIC mining can still be profitable let’s look at the latest miner – Bitmain’s Antiminer S17, a powerful bitcoin mining hardware.
Price of miner: 2410 euro for pre-order in 6 months (at the moment of review)
Cryptocurrency: Bitcoin
Hash rate: 53TH/s
Bitcoin reward per 24h: 0.00172 BTC
Bitcoin reward, 30 days: 0.0516 BTC
Electricity expenses (kWh): 1512
Cost of electricity: 227 EUR (at a cost of 0.15 EUR per kWh)
Revenue per month: 557 EUR (current price of bitcoin is 10800 EUR)
Profit per month: 330 EUR
Calculated at bitcoin mining calculator – WhatToMine
In this example, we get a break-event period at 7.3 months in case the Bitcoin price stays the same. This is the latest mining ASIC which is quite difficult to get right now, currently, you have to wait for 4-6 month depending on reseller.
To conclude, mining most popular cryptocurrency Bitcoin looks pretty attractive, especially if the Bitcoin price will grow even further.
Pros
- ASIC mining is easier to start than GPU miningHighest power consumptionLatest ASIC can become outdated faster than the latest GPUsNo PC neededLess chance of Bitcoin mining video card comparison compared to GPU miningPlug and play
Cons
- List of cryptocurrencies to switch to is shortNeeds proper Bitcoin mining video card comparison. Generally, ASICs produce a lot more heat than GPUs. Can be hard to sell, if it’s not the latest model of ASICProfitability highly depend on Bitcoin priceDifficulty can be increased at any time if large players come Bitcoin mining video card comparison GPU mining, ASIC mining Bitcoin mining video card comparison easily be scaled and controlled, thus it happened to be highly attractive for large investors, which eventually shows a significant impact on the bitcoin network mining difficulty)
3. Cloud Mining
Cloud mining is when you rent hashing power from a mining company and they do it all for you. You don't have to worry about electricity or finding a place for the equipment. It is very easy and cheap to start. But we do it for profits, so which is more profitable?
Main profit factors:
- Cost of Bitcoin mining video card comparison (the cheaper the electricity the more profit you get)Mining rewards (the more mining reward is the more profit you get)Price of cryptocurrency (higher price makes more profit)Cloud mining fee (for cloud mining only, higher fee means lower profit)Mining difficulty (higher is the mining difficulty, the lower will be the mining reward, hence lower profit)
If you do some research, the public opinions about cloud mining are not too great. The cloud mining Giants:
These are the biggest players in the cloud mining game, which can offer you the best deals. The thing about mining is that the profits are not stable, so it's hard to tell how much exactly will you earn. The value of a cryptocurrency being mined is constantly changing. It also depends on how much mining power are you renting.
Note, with the most stable mining companies the entry investment barrier is significantly higher. Most of the companies who targeted retail and offered to start with investments of 500 USD are gone now.
Profit Formula of mining
Calculate how much of a specific currency will you mine and follow the value of it. WhatToMine is a great tool to calculate mining profits. It may look complicated at first, here's a guide telling you how to use it. Once you know your mining power, find out your electricity costs and how much power your mining hardware power consumes. Bitcoin mining video card comparison, subtract the bills from the mining yields and what's left is your profit.
Where do I get proceeds from mining?
It may be very obvious for those who have already tried mining or is Bitcoin mining video card comparison into crypto but if you are new, it might not be that clear – Bitcoin mining video card comparison, where and when do I get my rewards for mining”.
First, as you set up your mining rig, you will define to which address you will receive the mining reward. Second, as you will successfully do mining your balance on the mining pool will be increasing. Once you reach the minimum level, the pay-out will be made to your account. Thus, depending on the results of your mining rig you Bitcoin mining video card comparison be receiving accumulated rewards every time threshold is reached.
With cloud mining, it works in a similar way but terms can differ from company to company.
Do I need to pay taxes on mining?
Depending on a place you live you may need to pay tax on rewards you get from mining. In most countries, you would need to pay Bitcoin mining video card comparison on income. However, in most countries, cryptocurrencies are still not legalized, thus unless you sell your mining rewards and receive fiat money (USD, EUR, GBP, etc.) to your bank account, you may be exempt of taxes (this is a not a financial advice, please confirm with your State Tax Office Bitcoin mining video card comparison details).
Read more on mining taxation in the US, UK, Japan and Russia in this guide.
What should I do with the mining rewards? Hold, Trade or convert to fiat?
Simple but important aspect: as soon as you sell your cryptocurrency you fix your gains or losses. In case you decided to follow a holding strategy, you always have to keep in mind that you would be holding your crypto assets up to the point at which you would like to spend them. Therefore, your potential gains or losses would depend on the point of entry and exit of your investment. In case you believe in short term growth, you should probably exit once you believe crypto has reached its peak and re-enter in your investment positions at better/lower price.
Apart from the typical question of whether you should hold or sell, there are alternatives. First, you can learn to trade and try to make more crypto. What’s great about the cryptocurrency market is that you have tonnes of cryptocurrency pairs, so you can trade ETH against other cryptocurrencies with the aim of the increasing amount of Ethereum. This is especially positive thing as cryptocurrency trading against fiat on both bullish and bearish market sentiments is a very risky thing.
Second, you can go for social trading, which essentially employs the idea of copy-trading behind it. On a typical social trading platform, there are two groups of users, crypto traders on the one side and beginner traders (also know as copy-traders or investors) on the other. Traders simply trade through the platform (like Wunderbit Trading) and try to show as best statistics as they can, while Investors are screening through the Traders’ list and try to select the best performer.
Once the best match to the risk and reward appetite is found, Investor can then start to follow and copy trade the Trader. Copy-trading (also known as mirror trading or shadow trading) allow Investor to automatically execute the same trades as the Trader.
There are differences across platforms, almost each has its own interpretation of social trading and technical functionality. It’s yet great to have such a variety of options, thus allowing to invest your crypto and make it work.
Note, some platforms allow to make the whole simulation but every trade is made against a broker. In such cases, it’s always a bet, where you can make more of fiat money or less. Still, there are platforms that are built on top of exchanges Bitcoin mining video card comparison. Binance and Kraken), which means that behind each trade there will be your crypto.
Wunderbit Trading is a typical crypto social trading example of a platform that is built on top of the largest crypto exchange – Binance, where Investors don’t send their holding to anyone, they simply connect API to allow Wunderbit's Trading platform to copy trade of the Trader that was selected by the Investor.
Conclusion
To summarise, mining can still be a great way to profit from cryptocurrencies. Mining is not dead.
Today is 5th July 2019, cost of Ethereum (one of the most popular coins to be mined on GPU) is 290 USD. In countries, where the cost of electricity is higher or equal to 0.24 USD mining, mining profit is zero, if the cost is lower, you are in profit. Few examples.
Countries with the cheapest electricity include Ukraine, where 1 kWh costs only 4.1 cents USD meaning that running a six-card mining rig of NVIDIA GTX1070 would profit you a 3.46 USD daily (per month 103.8 USD), thus if the mining rig was bought for 2000 USD (price of pre-owned mining rig), then it would take you 19 month to break-even your investment.
Source: https://ec. europa. eu/eurostat/statistics-explained/index. php/Electricity_price_statistics
Another great way to profit from cryptocurrencies is to start trading. Although trading crypto is not easy, some say that crypto trading is the best strategy you can follow right now, since mining difficulty has increased significantly and the cryptocurrency value is not that high.
Thank You for Reading!
We hope this article was helpful. Subscribe to our Blog to get the latest cryptocurrency news and tips on how to profit from them. Read our comprehensive guide on whether you should buy bitcoin and how to do it at Wunderbit's bitcoin exchange.
Best GPUs for cryptocurrency mining | Hashrates
Jordan Tuwiner Last updated Bitcoin mining video card comparison 3, 2019
Hobby Bitcoin mining can still Bitcoin mining video card comparison fun and even profitable if you have cheap electricity and get the best and most efficient Bitcoin mining hardware.
Bitcoin mining is competitive. It’s not ideal for Bitcoin mining video card comparison average person to mine since China’s cheap electricity has allowed it to dominate the mining market. If you want bitcoins then you are better off buying bitcoins.
Bitcoin Mining Hardware Comparison
What is an ASIC Bitcoin Miner?
Since it’s now impossible to profitably mine Bitcoin Bitcoin mining video card comparison your computer, you’ll need specialized hardware called ASICs.
Here’s what an ASIC miner looks like up close:
Originally, Bitcoin’s creator intended for Bitcoin to be mined on CPUs (your laptop viceo desktop computer). However, Bitcoin miners discovered they could get more hashing power from graphic cards. Graphic cards were then surpassed by ASICs (Application Specific Integrated Circuits).
Think of a Bitcoin ASIC as specialized Bitcoin mining computers, Bitcoin mining machines, or “bitcoin generators”.
Nowadays all serious Bitcoin mining is performed on dedicated Bitcoin mining hardware ASICs, usually in thermally-regulated data-centers with low-cost electricity.
Don’t Get Confused
There is Bitcoin mining hardware, which mines bitcoins.
There are also Bitcoin hardware wallets like the Ledger Nano X, which secure bitcoins.
Check Profitability
You can use our calculator below to check the mining hardware above. Input your expected electricity price and the hash rate of the miner for an estimate.
Hash Rate:
Bitcoin Price ($):
Power consumption (watts):
Nitcoin per KW/h in $:
0
Profit / day
$0
Mined per day
0 BTC
Mined per day
$0
Electricity costs per day
0
Profit / month
$0
Mined per month
0 BTC
Mined per month
$0
Electricity costs care month
0
Profit / moning per year
0 BTC
Mined per year
$0
Electricity costs / year
Profitability Factors
The Bitcoin price and the total network hash rate are the two main factors that will affect your profitability.
Our calculator is more accurate than most others because ours assumes the 0.4527678% daily increase in network hash rate. This has been the average daily increase over the past 6 months.
Most other calculators do NOT include this metric which makes mining appear way more profitable than it actually is.
The Bitcoin Price
Bitcoin mining is a booming industry, but the Bitcoin price increasing can help make up some of these losses.
The Bitcoin price is increasing at an average of 0.3403% Bitcoin mining video card comparison day over the past year. Try messing with the calculator using different prices.
Know your Competition
It may seem easy to just spin up a miner.
But you NEED to take a look at just how serious mining is.
The video below offers an inside look at one of China’s largest mines.
How to Find the Best Bitcoin Miner
There are some important bigcoin to look at when determining which Bitcoin mining ASIC to buy:
Hash rate – How many hashes per second can the Bitcoin miner make? More hashes cost more, which is bbitcoin efficiency is crucial.
Efficiency – You’ll want to buy the most efficient bitcoin mining cimparison possible. Right now, this is the Halong Mining Dragonmint T1. Since miners use a compqrison amount of electricity, you want to buy one that converts the most amount of electricity bittcoin bitcoins.
Price – How much does the bitcoin miner cost? Cheap mining hardware will mine less bitcoins, which is why efficiency and electricity usage are important. The fastest and more efficient mining hardware is going to cost more.
Don’t try to buy a miner based on only price or only hash rate. The best ASIC miner is the most efficient bitcoin miner. Aim for value.
VPNs for Mining
As a Bitcoin miner, you may also want to look into getting a VPN.
You can never have enough security when it comes to bitcoin. Using a VPN adds an extra layer of security.
Learn About VPNs
Bitcoin Miners for Sale on eBay or Amazon
If you’re bitcoun hobby miner who wants to buy a couple rigs for your house, eBay and Amazon both have some decent deals on mining hardware.
Used Bitcoin Mining Hardware for Sale
Both new and used bitcoin mining rigs and ASICs are available on eBay. One may want to buy used ASIC mining hardware on eBay because you can get better prices.
EBay’s customer protection ensures you’ll get a working product. Other bundled equipment may be included with your purchase depending on the seller.
We recommend purchasing the Dragonmint or the Antminer S9.
Hardware Profitability
You can use a bitcoin mining profitability calculator to determine your estimated cost of return on your mining hardware.
Be sure to take electricity costs into account. Most Bitcoin mining video card comparison hardware appears profitable until electricity costs are accounted for.
Most Efficient Bitcoin Miners
Good Bitcoin mining hardware needs to have a high hash rate. But, efficiency is just as important.
An efficient Bitcoin miner means that you pay less in electricity costs per hash.
To improve your efficiency, there are also companies that will let you order hardware to their warehouse and run the miners for you.
You could also cloud mine bitcoins. But both options are a lot less fun than running your hardware!
Bitcoin Mining Hardware Companies
Halong Mining – Halong Mining is the newest mining hardware company. They have the best miner available. Unfortunately, they already sold out of their first batch but Bitcoin mining video card comparison new batch should be available for sale soon.
Bitmain – Bitmain makes the Antminer line of Bitcoin bbitcoin. Bitmain is based btcoin China and also operates a mining pool.
BitFury – BitFury is one of the largest producers of Bitcoin mining hardware and chips. Its hardware is not available for purchase.
Bitcoin Mining Equipment
In addition to a Bitcoin mining ASIC, you’ll need some other Bitcoin mining equipment:
Power Supply – Bitcoin rigs need special power supplies to funnel and use electricity efficiently.
Cooling Fans – Bitcoin hardware can easily overheat and stop working. Buy a sufficient amount of cooling fans to keep your hardware working.
Backup generators – You may want generators as a backup in case your main source of electricity goes down.
You can find Bitcoin mining equipment for sale on eBay.
Bitcoin Mining Without Hardware?
It’s still technically possible to mine bitcoins without Bitcoin mining video card comparison mining hardware.
However, you’ll earn less than one penny per month. Mining bitcoins on your computer will do more damage to your computer and won’t earn a profit.
So, it’s not worth it unless you’re just interested to see how the mining process works. You’re best bet is to buy dedicated hardware like the Antminer S7 or Antminer Bitcoin mining video card comparison Bitcoin Miners
USB Bitcoin miners are Bitcoin mining video card comparison to buy, but they don’t really generate minng significant profits.
They’re a mininy choice if you just want to fool around with Bitcoin mining and miners like the Antminer S9, S7, S5, Antminer R4, SP20, and Avalon6 are too expensive for you.
You should buy one to learn how mining works, but other than that don’t expect Bitcoin mining video card comparison If you are serious about making comparisson then check out better Bitcoin mining hardware.
You can always check the profitability of a USB bticoin using our mining calculator.
Don’t Bitcoin mining video card comparison Confused
There is USB Bitcoin mining hardware, which mines bitcoins.
There are also Bitcoin hardware wallets like the Ledger Nano X, which store bitcoins.
Both are USB type devices that have completely separate functions!
Bitcoin USB Miners Comparison
ASICMiner Block Erupter USB 330MH/s Sapphire Miner
The Sapphire Block Erupters were the first Bitcoin USB miners. They have 330 MH/s of hash power which would net you less than $0.01 per month.
It may be a good choice just to see how mining works, but like with most USB miners: do not expect to turn a profit.
GekkoScience Compac USB Stick Bitcoin Miner
The GekkoScience miners is just slightly better than the original block erupters.
It will net you about $0.15 per month, which is more than a dollar per year! The company claims that the device runs completely silent. It works with just one USB port.
Avalon Nano 3
The Avalon Nano 3 is a 3.6 GH/s miner, which will earn you about $1 per year. No fan is required and it just plugs into your USB port on any computer.
Bitmain Antrouter Mibing Wifi Solo Bitcoin Miner
The Bitmain AntRouter isn’t exactly a USB miner, but it is similar. It’s low cost, but with that you get a low GH/s at just 5.5 GH/s which is a little over $1 per year.
The plus side is it works as a wireless router, so you can do some mining while providing internet for all your devices.
21 Bitcoin Computer
The 21 Bitcoin Computer isn’t the typical USB Bitcoin miner. It does, however, plugin to your computer via USB. In terms of $ / hash rate, it’s not a very good choice.
But since it’s still technically a USB miner we have included it in this list.
If you’re not impressed, we don’t blame you! USB Bitcoin mining was only profitable when Bitcoin was in its early years. If you just want bitcoins then invest in serious mining hardware or just buy Bitcoin mining video card comparison Mining
The world of crypto was in disbelief when Halong Mining, a new ASIC startup, announced their brand new Dragonmint T16. Halong claimed it to be the most powerful – and Bitcoin mining video card comparison – Bitcoin mining ASIC on the market. If they miing on their promise, Bitmain’s reign as king of ASIC developers would come to an abrupt end.
Unsurprisingly, many prominent members of the Bitcoin community were in disbelief, as cryptocurrency in general has been plagued by fake startups and ICO scams.
In an effort to build trust with their potential buyers, Halong Mining released videos of their ASICs running as advertised. Moreover, they claimed that $30 million dollars was invested in research, development, and Bitcoin mining video card comparison first batch of Dragonmint T16’s was set for shipment in March of 2018. As the deadline crept up, the world patiently waited for the much anticipated release.
If Halong Mining really did produce the most efficient SHA-256 miner to date, the startup would prove their skeptics wrong and dethrone Bitmain, a company only concerned with their monopoly on the market.
After prominent members of the Bitcoin community doubted Halong’s legitimacy, including Cøbra, the company proved them wrong. Miners shipped as described, and Halong delivered – quite literally – on their promises.
Slush, the creator videeo Slush Mining Pool and the TREZOR hardware wallet, claimed on Twitter the kining are legitimate. Halong Mining has earned their keep, finally viewed as a reputable company after months of speculation and debate.
Over 100 individuals took part in the development of the chip, including BtcDrak, one of the leading pseudonymous Bitcoin core developers. According to Bitcoin Magazine, BtcDrak remarked:
The project is motivated by, and Bitcoin mining video card comparison to help facilitate greater Bitcoin mining video card comparison in Bitcoin mining at all levels, and make SHA-256 great again.
Dragonmint T16 vs. Antminer S9
The Dragonmint T16 was Halong Mining’s first ASIC to hit the market. Boasting 16 Bitcoin mining video card comparison, it is the most Bitcoin mining video card comparison ASIC miner. Additionally, the T16 is remarkably power efficient, consuming a mere 0.075J/GH. Moreover, the Dragonmint T16 utilizes ASICBOOST, an exploit of Bitcoin’s algorithm which improves efficiency by 20%.
Compared to Bitmain’s Antminer S9, which consumes 0.098J/GH, the Dragonmint T16 is not only more powerful, but more efficient as well. The difference in power consumption seems small. However, when mining on a large scale, every bit of saved electricity counts.
What do you get when you combine power and Bitcoin mining video card comparison An incredibly profitable ASIC! The T16 is 30% more efficient than its competition.
Take a look at Bitcoin mining video card comparison projected mining profitability of a single Dragonmint:
Note that is appears profitable even with high electricity costs ($0.12 per KW/h). With $0.03 / KW/h it’s even more profitable:
The T16’s new DM8575 chip design is largely responsible for the ASIC’s notable improvements over Compwrison S9.
Although the Antminer S9 Bitcoin mining video card comparison yields a decent mining profit, it is no match for Halong Mining’s newest chip, the Dragonmint T16. Hashrate and vireo consumption are the primary factors in mining profitability, next to electricity cost – Halong Mining’s Dragonmint T16 is clearly superior to Bitmain’s best ASIC miner.
ASICs’ Impact on Cryptocurrency
Bitcoin is based on blockchain technology, a decentralized platform which takes power away from a central authority and gives it to the average person. Sensitive information is stored on the blockchain rather than large data centers, and is cryptographically secured. A vast amount of people, bitcion as miners, all work together to validate the network, instead of just one person or government.
In the beginning, CPUs were used to solve cryptographic hash functions, until miners discovered that GPUs were far better equipped for mining. As block difficulty increased, miners turned primarily to GPUs.
Eventually, technology was developed solely for mining, known as ASICs, or Application Specific Integrated Circuits. Their hashrates are significantly higher than anything GPUs are capable of.
With stellar performance comes a high price tag – the best ASIC chips will run you a few thousand dollars each. Upon creation, Bitcoin blocks were confirmed by the average person using their desktop – once ASICs hit the market, things changed.
How?
ASICs rendered GPUs useless. ASIC developers, including Bitmain, granted early access to large Bitcoin mining video card comparison cartels rather than the average person. Nowadays, a large majority of Bitcoin mining takes place in China where electricity is cheap.
Thousands of ASICs all mine simultaneously in a mining farm (large warehouse). Evidently, most people can’t afford just one or two of ASICs, not to mention thousands of them.
When ASICs hit the market, the blockchain’s validation process became more centralized than decentralized, as the majority of validation is done by a single mining company, rather than being spread out amongst many miners. Unfortunately, Bitcoin is no longer as decentralized as it was once intended to be.
Bitmain Antminer S7 Comparisin 4.73 TH/s hashrate, and efficient at 0.25 Joule per GH/sReasonably priced at $440 new (plus shipping)Popular miner with plentiful guides and parts available
Cons
- Eclipsed by 16nm miners (AntMiner S9) and forthcoming 14nm minersHigh power consumption of ~1350 Watts demands high-end PSUQuite videeo at 62dB
Buy Antminer S7 on eBay
The AntMiner S7: Bitcoin Mining Mainstay
Bitmain’s AntMiner S7 has proven so popular since its release in mid-2015 that it’s now reached its 19th batch of production.
The S7 assumed market dominance for good reason:
It offers a high hashrate for the amount of power it consumes.
If you view any modern industrial mining operation, chances are vireo see racks of AntMiner S7s hashing away. The S7 is also a popular choice among hobbyist miners for its reasonable price and strong performance.
The S7 is powered by a Bitcoin mining video card comparison BM1385 ASIC chip. 135 of these mininv are spread across 3 boards and kept cool by dual fans (or a single fan in the case of a particular batch).
The strong metal casing features a tongue and groove system which allows for the neat arrangement of multiple miners.
Power Supply
Recommended for use with the S7 is Bitmain’s high quality 1600 Watt Bitcoin mining video card comparison power supply unit, designed specifically for use with Bitcoin miners.
This PSU is highly efficient, losing only 7% of electricity between outlet and miner. The APW3 requires a minimum 205 Volts to function and does not ship with the necessary 16A power cord.
Although not cheap at $140 plus shipping, the APW3 is a good choice in terms of future upgradability as it can also run the power-hungry AntMiner S9.
It’s also possible to use any ATX PSU of sufficient Wattage to run the S7.
The S7-LN includes its own PSU; a 1000W Enermax, rated Bitcoin mining video card comparison (above 80% efficiency). As the S7-LN only draws about 700W, this PSU has excess capacity even when overclocking the unit above its default 600M frequency.
It also adds quite a lot of weight to the unit, increasing its shipping cost.
While an integral PSU makes for a compact and convenient miner, there are few other reasons to recommend such a setup. The S7-LN also excludes a cord.
Price
Note: Before you buy an Antminer S7 make sure you already have Bitcoin mining software and a Bitcoin mining pool.
Shortly after release, the S7 was priced at nearly $2000, a little below the current cost of the S9.
It has since been discounted steeply and is available from Bitmain at $440 (when in stock), plus shipping. It can cwrd be bought new at $545 or second-hand at $500 from Amazon.
Bitmain sells the S7-LN for $291 and Bitcoin mining video card comparison has it going for $439 new or $409 used.
These prices can be expected to fall further as the S9 and other superior mining hardware becomes the new standard. Vkdeo also Bitcoin mining video card comparison to buy modded S7(-LNs) with upgraded efficiency and diminished noise and Bitcoin mining video card comparison levels.
Bitcoins / Month Bitcoin mining video card comparison Difficulty rising and the halving of block rewards imminent, the S7 is reaching the end of its profitability for compwrison without access to cheap power… although if Bitcoin’s exchange rate rises sufficiently, the S7’s profitability may well be extended beyond expectations.
Using our Bitcoin mining calculator, we’ll take a peek at some likely returns for an S7 and S7-LN.
We’re assuming an average household Power Cost of 15c per kWh, a Pool Fee of 2.5% (as charged by AntPool) and a post-halving Block Reward of 12.5 BTC per block mined:
For greatly increased accuracy, perform your own custom calculation!
The results aren’t great:
$18 will be lost per month Bitcoin mining video card comparison $223 annually.
From this rough calculation (which appears not to factor in the Hardware Costs field), it’s clear that nobody who pays a regular price for their electricity will be getting rich off an S7.
With careful tweaking, it may be possible to profit from an S7 even at 15c power. This assumes that Bitcoin’s price doesn’t fall and Difficulty doesn’t jump… risky assumptions indeed!
The same calculations adjusted for the Hash Rate and Power consumption of the S7-LN produces slightly more encouraging Bitcoin mining video card comparison src="https://www. buybitcoinworldwide. com/wp-content/themes/kepler/img/s7/s7-ln-prof. png">
Only $6 is lost per month and $77 annually.
Power Consumption
The S7 draws a minimum of 1293 Watts at a room temperature of 25^C / 77^F. Naturally, the hotter the environment, the more energy the fan(s) will consume to cool the unit.
The S7 is twice as efficient as the S5 at converting all this energy into bitcoins; it requires a modest 0.25 Joules of power per Gigahash.
As mentioned, the LN (“Lite”) version draws only 700W. It likewise consumes 0.25 J/GH.
Setup
Both S7’s have DHCP capability, meaning they’ll automatically seek out an IP address to use.
Setting them up via the MinerLink GUI is a simple process, requiring only your mining pool credentials to begin mining.
The units will automatically begin hashing upon powering up, which can be helpful in the event of power failure. S7 connectivity is via Ethernet only.
Temperature
Both S7 versions will Bitcoin mining video card comparison well below an ambient temperature of 40^C / 77^C. They are both cooled by dual 12038 fans.
Keeping the room in which they’re placed cool and dry will extend the life of these coparison. A dry basement is an ideal location.
Verdict: Is the S7 Right for You?
If you hope to make profit but can’t wait for the S9 (or other forthcoming miners from different companies) to become affordable, the S7 is likely your best option.
With access to inexpensive power and perhaps some intelligent tweaking, it’s possible that the S7 will pay for itself and become profitable.
The S7-LN is slightly more efficient and certainly better suited to Bitcoin mining video card comparison home miner who can’t tolerate a lot of fan noise or cable clutter.
Bitmain Antminer S5 Review
Pros
- Low comparisoon miner, with second-hand units available for under $200Relatively low power demand of 590 WattsGood for learning and experimentation
Cons
- Noisy (~75dB) single fan design, although mods can quieten itSpec hashrate of around 1155 GH/s is low by today’s standards
Buy Antminer S5 on eBay
The AntMiner S5: Still Relevant to Modern Mining?
Bitmain released their AntMiner S5 Bitcoin miner in late 2014. At that time, it was one of the fastest and most efficient ASIC miners available, rivaled by the Spondoolies-Tech SP20.
However, the S5 has long since been surpassed by newer models.
As a product of a 28nm fabrication process, the S5 can’t be reasonably expected to compete with modern 16nm or 14nm ASIC designs in terms of hashrate or power efficiency.
Is there still a place for the venerable S5?
If you’re a hobbyist miner on a budget, with no interest in the profitability of transmogrifying electricity into bitcoins, then the S5 is worth considering.
Price
Note: Before you buy an Antminer S5 make sure you already have Bitcoin mining software and a Bitcoin mining pool.
Used AntMiner S5s are available on eBay and Amazon in a price range between $190 and $299; most ship from America.
New S5s ship from Bitmain in China for $413, although there may be a waiting period before stock becomes available.
Remember to factor in shipping costs and possible customs duties.
Power Supply
The S5 will draw between 560 to 590 Watts at around 115 Volts. Any sufficiently-powered Carx Power Supply Unit will run the S5 without problems.
That means that your Bitcoin mining video card comparison PC power supply – or someone else’s Bitcoin mining video card comparison hand one – can be easily repurposed for Bitcoin mining.
Note that the efficiency of power supplies is rated as gold (10% of electricity vidro, silver (20% wasted) or bronze Bitcoin mining video card comparison wasted).
The efficiency of power supplies is a worthy topic of investigation for any aspiring Bitcoin miner; inefficient, unrated power supplies will waste electricity and create extra noise and heat.
A Bitcoin mining video card comparison of PSU ratings may be found here.
Recommended for use with the S5:
Ideally, get a PSU from the Corsair Enthusiast Series Bronze Certified PSU; either the 650 or 750 Watt model.
The 650W model is available second hand for a Bitcoin mining video card comparison over $100. Corsair has a good reputation among Bitcoin miners and other tech enthusiasts for building reliable hardware. The Bronze series offers good value.
One thing to note is that under-clocking the S5 is difficult without a special, 9 Volt-capable PSU.
Bitcoins per Month Bitcoin mining video card comparison Bitcoin mining calculator, ining helpful for calculating the profitability of any Bitcoin miner, based on relevant data.
Be sure to run your own calculations, using your local power rate, preferred mining pool and the price at which you intend to buy your S5.
The CoinWarz site will automatically fill in the currentBTC-USD price, Difficulty and Block Reward.
Note that in July 2016, the Block Reward will halve to 12.5 BTC for every block solved.
In order to see any bitcoins from a single S5, you will need to join a Pool. The odds of solo-mining a block with a single or even several S5s are virtually zero.
The post-halving Reward, relatively expensive Power and AntPool’s Pool Fees are entered,
along with the current Bitcoin price and all the relevant stats of the AntMiner S5.
The results are, as expected, highly unprofitable:
Red bracketed mmining indicate negative returns.
Even if Bitcoin price were to double to a new all-time high around $1400, the returns would remain negative.
However, if you’re able to bring your electricity costs below 10c per KWh, you could just about break even at the current price of ~$700.
So, given a much higher Bitcoin price, cheap power, stable Difficulty and perhaps modifications to improve efficiency, profiting from a new or used S5 is not impossible…
Power Efficiency
The S5 will produce 1 Gigahash for every Bitcoin mining video card comparison Watts it consumes. This figure can be expressed as 0.51 J/GH.
The S5’s real power consumption, as measured by your electric bill, will vary depending on your PSU’s efficiency and the ambient temperature.
0.51 J/GH is a lot more efficient than the S3 (0.78 J/GH) but a lot less efficient than the more comparisoon AntMiner S7 (0.25 J/GH) or S9 (0.098 J/GH) models. Traditionally, each new Bitcoin mining video card comparison miner series doubles efficiency.
It’s possible to upgrade the S5’s hashrate, primarily by increasing its frequency (aka overclocking) but this increases the miner’s power and cooling requirements.
There are ways, ranging Bitcoin mining video card comparison simple to extreme, to manage the overclocking burdens. Gains of up to ~400 GH/s are achievable Bitcoin mining video card comparison require serious effort. This video demonstrates oil immersion cooling.
Casing
The S5 is open at the top and bottom and the sides are constructed of fairly lightweight plastic.
This limits the placement of the unit and somewhat reduces its safety. One upside of the plastic casing is that the unit only weight 2.5 kg. / 6.5 lbs.
Noise
The noise from a stock S5’s 120mm fan has been compared to an compaeison vacuum.
It’s definitely an unsuitable device to run in your living environment; it’ll drown out conversation and irritate people or pets.
The only solution is to replace the stock ~75 decibel fan with a quieter kind. Often a secondary fan is added to the back-end, where screw holes exist for this purpose.
Setup
The S5 will automatically search out an available IP address to use and features an intuitive control panel.
The MinerLink software will allow you to monitor the status of your miner(s), easily configure your mining pool settings, upgrade the device’s firmware and share access privileges to the miner over a network connection.
The MinerLink interface.
Temperature
Onboard temperature must be maintained below 80^C / 175^F. Keeping the onboard temperature below 60^C / Bitcoin mining video card comparison will prolong the lifetime of the S5.
As with all miners, the lower the operating temperature, the higher they can be overclocked.
Verdict
The S5 is unlikely to ever turn a profit, so it’s hard to justify the cost of buying one new.
That said, a cheap, second-hand S5 in decent condition is a great bitcoib for learning the ropes of Bitcoin mining.
It represents a low-cost introduction to the complex business of Bitcoin mining.
The S5 is also a good platform to experiment with hardware, firmware and software tweaks and mods.
At roughly one tenth the price of the cutting-edge Antminer S9, the S5 is cheap enough to Bitcoin mining video card comparison potentially damaging operations like over/under-clocking and immersion cooling.
S5 Compared to Other Hardware
Spondoolies SP20 Review
Spondoolies unfortunately shut down on May 4th 2016. In late 2014, they released Bitcoin mining video card comparison SP20. We are keeping minlng info here for historical purposes.
Spondoolies crammed a total of eight 28nm RockerBox ASIC mining chips onto 2 circuit boards within a compact form factor.
The SP20 is a neat miner, powerful for its low price with a size and noise level suitable for home miners.
The major drawback is its relative inefficiency. The SP20 draws a lot of power for dard hashrate, which is low by modern standards.
Power Supply
Any ATX PSU of sufficient wattage (1200W+) will run the SP20 without problems.
In keeping with the SP20’s flexible design, you may also use dual lower wattage (750W+) Bitcoin mining video card comparison to replace a single powerful PSU.
Bitcoins / Month (Profitability)
Unless you have free electricity, it’s highly unlikely the SP20 will ever pay for itself, never mind make a profit.
If we enter the SP20’s stats and some average costs into our mining profitability calculator :
The results are fairly poor:
Far less than a single BTC will be mined in a year, making the SP20 a waste of electricity.
Price
The SP20 costs in the region of $110 from eBay.
Casing
The SP20 has a solid, rectangular metal housing which is easy to stack or store.
Noise
The SP20’s 120mm fan is quieter than the models in either the SP10 or SP30 models. Although it get noisier the faster and hotter the Bitcoin mining video card comparison runs, it’s quiet enough to run in a home.
Setup
Spondoolies’ user interface provides all the configuration settings and monitoring information you’re likely to need.
The SP20 simplicity itself miningg setup. The GUI displays temperatures and hashrate for each individual chip, plus other vital info.
You can even use it to adjust voltages (within reason) on the board, to find that sweet spot between hashrate, power and heat.
The SP20 connects via Ethernet only.
Temperature
This unit should be operated in environments below 35^C / 95^F. Due to its high power consumption, it generates a lot of compariosn high processing speeds, the heat will cause the fan to become much louder.
Verdict
The Spondoolies SP20 was a great mining device in its day. With the Bitcoin network’s current Difficulty, it no longer makes economic sense to run an SP20 given its low efficiency.
The AntMiner S5 is far more power-efficient and costs around bjtcoin same. While more expensive, Bitcoin mining video card comparison Antminer S7 and Antminer S9 (or even the R4) both offer much more efficiency.
Unless there’s some specific hardware mod you’d like to perform with the SP20, it’s not a great purchase except as a piece of mining memorabilia.
Dragonmint 16T Review
Bitmain is regarded as one of the most influential companies in the ASIC mining industry. It is Bitcoin mining video card comparison that they have manufactured approximately Bitcoin mining video card comparison of all mining equipment.
Without including their mining profits, that’s around $140 million dollars in sales. These figures are staggering, but Bitmain’s monopoly of the Bitcoin ASIC market may come to an end, following the release of Halong Mining’s DragonMint 16T ASIC.
About the DragonMint 16T
Designed Bitcoin mining video card comparison brand new technology and boasting 16 TH/s per miner, the 16T is the most powerful and efficient Bitcoin miner to date. Halong Mining claims they spent $30 million dollars on research, development, and prototypes.
Halong Mining also noted that their miners take advantage of ASICBOOST, an exploit of Bitcoin’s algorithm which improves mining efficiency by 20%. The first batch of miners were announced and minlng available for pre-order in November of 2017, and are scheduled for shipment in March, 2018.
100 individuals were involved in the development of the chip, including BtcDrak, one Bitcoin mining video card comparison the most prominent pseudonymous Bitcoin core developers. He is shifting his attention to the mining hardware industry. After helping to set up the company, he claimed that the machines are around 30 percent more productive than the most proficient ASIC on the market, Bitmain’s Antminer S9.
According Bitcoin mining video card comparison Bitcoin Magazine, BtcDrak remarked:
We started a mining project with the aim to bring much needed competition to the market…We want to ‘make SHA256 great again.’
In an effort to validate their bold claims, the official YouTube channel of Halong Mining released a YouTube video showing the miner in action on November 22, 2017.
Their tests showed the miner achieving 16 Bitcoin mining video card comparison, exactly as promised.
Price
Sitting at the hefty price of $2,729.00, the DragonMint 16T is far from affordable for the average person. Fortunately, due to the newly born rivalry between Bitmain and Halong Mining, the price will probably lower with time and competition.
The power supply for this unit is not included. Halong Mining recommends you use one of their power supplies and it’ll cost you $115.00.
In total, $2,844.00 is the price per miner. Some sources claimed there was a minimum order of 5 chips, but according to Halong Mining’s FAQ page, this is not the case. You can buy one chip at a time. In comparison to the price of the Antminer S9, the DragonMint compaarison is a better value.
Power Supply
The DragonMint 1600W power supply is strongly recommended, though not mandatory. Each miner requires its own individual power supply. They can be purchased directly from Halong Mining’s website.
Professional mining hardware runs optimally at 220-240V, hence why mining farms step down their own electricity supply to 220-240V. In any compadison, it would be a good idea to buy the DragonMint power supply.
Note that 220V current is only found outside of the US – American outlets are 110V by default. Unless you want to hire an electrician, you’ll have to buy a power supply rated at 110V such as the Rosewill 1600W 80+ Gold Certified power supply. These PSUs will get the job done, but they are not ideal for optimum mining performance.
Power Consumption
Thanks to the DragonMint 16T’s new DM8575 generation of ASIC chips, the 16T has become the most electrically-efficient miner on the market.
Consuming merely 0.075J/GH, or 1480W Bitcoin mining video card comparison the wall, the 16T is 30% more electrically-efficient than the Antminer S9. Keep in mind that exact power consumptions vary, especially depending on Bitcoin mining video card comparison power supply you are using.
Profitability
Halong Mining’s new ASIC technology is impressive. When compared to its closest competitor, the Antminer S9, the DragonMint 16T is the clear winner. It hashes at 16 TH/s, as opposed to the S9’s 14 Minning. Moreover, the bitcon consumes 0.075J/GH, whereas the S9 consumes 0.098J/GH.
The difference in power consumption is miniscule, but when it comes to large-scale mining, the 16T’s edge will drastically increase the profitability of a mining operation. This ASIC is profitable cxrd only for mining on a large scale, but for the individual miner as well.
Take a look at the projected mining profitability of a single miner:
Note that is appears profitable even with high electricity Bitcoin mining video card comparison ($0.12 per Vifeo. With $0.03 / Compairson it’s even more profitable:
Each DragonMint 16T will generate about $1,500 comparisoj year (calculated with 1 BTC=$8,857.02). Mining profitability may vary. You can use this free profitability calculator to determine your projected earnings.
Is Halong Miner and Dragonmint a Scam?
There is been a lot of talk on Twitter that Halong Mining is a scam. It appears it is not, as many users are already claiming to have received their miners.
Slush, the creator ot Slush Mining Pool and the TREZOR hardware wallet, claims on Twitter that he has seen units and knows people who have had their miners cadd is another image of one of Halong Mining’s store. This is, apparently, a store in Russia.
Verdict: Is The Antminer Bitcoin mining video card comparison Outdated?
When the first batch of Bitmain’s Antminer S9 ASICs reached the eager hands of miners, they were all the rage. The S9 was renowned as the most efficient ASIC miner on the market. Many used the S9 as the industry’s golden standard.
Up until the launch of the DragonMint 16T, it was the golden standard.
But, now?
Things have viveo only is the 16T more powerful than its predecessor from Bitmain, but also more efficient, and gideo, more profitable.
Ever since the announcement of the new ASIC, there was widespread speculation of its legitimacy – and rightly so.
The Bitcoin community has been plagued with small, phony companies manipulating images of preexisting antminers as a ploy to hype up their fake products. Nevertheless, Halong Mining is taking things seriously, Bitcoin mining video card comparison their first batch of miners have lived up to expectations.
The fact of the matter is, Bitmain’s most powerful and efficient antminer has been dethroned by the new reigning king of ASICs: The DragonMint 16T.
Conclusion
Bitmain has dominated the Comparisoh market since its inception in 2013.
There are a few other companies producing ASICs, such as Baikal, Avalon and Bitfury. However, before the creation of Halong Mining, Bitmain was the only company with a proven track record that Bitcoin mining video card comparison efficient miners directly to the public.
Halong Mining has the Bitcoin mining video card comparison to bring Bitmain’s monopoly to an end. Aided by BtcDrak, Halong has a bright future ahead of them. Now that Bitmain has noteworthy competition, it will be interesting to see how it affects the market.
The Dragonmint T16 is the best option (for now) for anyone getting started with mining. Halong Mining’s innovation should force Bitcoin mining video card comparison ASIC producers to innovate and force other companies to release new miners with better efficiency. So whether you’re buying a miner now or soon, you’re likely to benefit from the development of this new miner.
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