The GTX 1080 is Nvidia's flagship graphics card, which was introduced in May 2016. It held the title of top solution for a little less than a year, until the company announced the 1080Ti. The main advantages of the GPU are 8 GB of GDDR5X memory, memory speed of 10 Gbit/s and bandwidth of 320 Gbit/s. The performance of the video card is comparable to AMD's Radeon RX Vega 64 and the latest GeForce RTX 2060.
At first, the model had problems with mining on Windows 10, due to which users received ridiculous hashrates. After some time the problem was fixed. At the same time, miners note the video card’s love for heating: it is not surprising that some models come with two or even three fans.
Miners are especially interested in how much GTX 1080 megahash produces on ether, since at the moment the card can bring significant profits in mining. In the article we will look at the parameters and characteristics of 1080, the hashrate on ether in 2022 and what the card’s performance is on other algorithms.
RaveOS offers you a wide range of functionality for optimizing and overclocking mining rigs
There is the possibility of “delayed” overclocking, which will be applied after the miner starts, after a certain time specified by you. The system reads a maximum of two oc .
One, simple, applied before the start of mining, the other with the -sleep (delayed overclock) In order to use this function, you need to set in Set : oc -sleep=X ... where X is the number of seconds after the miner starts, after which the parameters will be applied
For example: “ oc -sleep=30 -cclk=123 -mclk=990 -tt=55 ”.
Core and memory frequencies and target temperatures will be applied 30 seconds after mining starts.
Tests and comparison with Radeon HD 4870
In the blog “Choosing the optimal OS for gaming on a video card with 1 GB of video memory - Windows 7 or Windows 10,” I tested the Radeon HD 4870 in several games, and this will make it possible to compare its results with the GeForce GT 1030, because all system parameters remained unchanged. And the performance of the Radeon HD 4870 is similar to a huge number of video cards: Radeon HD 5770, Geforce GTS 450, Radeon HD 7750 and GeForce GTX 550 Ti.
Let's start with Mafia II with minimum settings at 1080p, because the average FPS of 24.8 on the Radeon HD 4870 was unplayable. The GeForce GT 1030 produced 46.1 FPS in stock and 52.7 FPS in overclocking, twice as fast as the Radeon HD 4870. Overclocking increased the average FPS by 14%, which is very good!
In the Far Cry 2 benchmark, with the VeryHigh preset, the GeForce GT 1030 produced 110 average FPS in stock, and overclocking increased the result to 123 FPS, which is 11%. The Radeon HD 4870 scored only 61.3 FPS in this test, which means we again have an almost twofold increase.
In the STALKER - Call Of Pripyat benchmark at low settings, 1080p and DX10 mode, the overclocked GeForce GT 1030 gave an increase of about 11%. The Radeon HD 4870 is 51% behind in this test.
In the built-in World in Conflict strategy benchmark, overclocking brought the GeForce GT 1030 12% of the average FPS, while the Radeon HD 4870 lags behind in this parameter by 38%.
Attention, “oc -sleep ...” and “oc ...” are two different commands.
Delayed overclock oc -sleep
You can apply overclock via the Execute . ( Set on the Tuning ):
Available arguments for “ oc -sleep ... ”:
-sleep= — The number of seconds after starting the miner after which this overclock should be applied Example: -sleep=40 AMD -cvddc= AMD only ). Example: -cvddc=800 -mvddc= AMD only ). Example: -mvddc=800 -socvddmax= — Maximum SOC voltage in mV (only for Navi10, Navi14). Example: -socvddmax=800 -gfxvddmax= — Maximum GFX voltage in mV (only for Navi10, Navi14). Example: -gfxvddmax=800 -socclkmax= — Maximum SOC frequency in Mhz (only for Navi10, Navi14). Example: -socclkmax=800 -gfxclkmax= — Maximum GFX frequency in Mhz (only for Navi10, Navi14). Example: -gfxclkmax=800 NVIDIA -cclk= — Core frequency in Mhz (for Nvidia — frequency offset). Example: -cclk=100 -mclk= — Memory frequency in Mhz (for Nvidia — frequency offset). Example: -mclk=1000 -pl= — Consumption limit in watts (only for Nvidia ). Example: -pl=100
Example: " oc -sleep=40 -cclk=123 -mclk=1100 "
Overclock functionality oc
You can apply overclock via the Execute . ( Set on the Tuning ):
The command must always begin with “ oc ” Available arguments for “oc...”:
-fan= — Fan rotation speed (if autofan is disabled). Example: -fan=70 -fanmin= -minimum permissible fan value when autofan is turned on. Example: -fanmin=0 -fanmax= -maximum permissible fan value when autofan is turned on. Example: -fanmax=100 -tt= — Target temperature ( if autofan is turned on ). Example: -tt=65 -wh= — Watchdog by hashrate at the card level (h/s). Example: -wh=30000000 (30Mh/s). Example(40Mh/s): -wh=40000000 AMD -cvddc= AMD only ). Example: -cvddc=800 -mvddc= AMD only ). Example: -mvddc=800 -socvddmax= — Maximum SOC voltage in mV (only for Navi10, Navi14). Example: -socvddmax=800 -gfxvddmax= — Maximum GFX voltage in mV (only for Navi10, Navi14). Example: -gfxvddmax=800 -socclkmax= — Maximum SOC frequency in Mhz (only for Navi10, Navi14). Example: -socclkmax=800 -gfxclkmax= — Maximum GFX frequency in Mhz (only for Navi10, Navi14). Example: -gfxclkmax=800 -ttm= — Target memory temperature for cards on Vega/Navi chips ( if autofan is enabled ). If set to greater than 0, -tt is ignored! Example: -ttm=75 -lp=1 - Allows you to reduce consumption on AMD RX 6xxx series by 20-30W (only for Navi21, Navi22) NVIDIA -cclk= - Core frequency in Mhz (for Nvidia - frequency offset). Example: -cclk=100 -mclk= — Memory frequency in Mhz (for Nvidia — frequency offset). Example: -mclk=1000 -pl= — Consumption limit in watts (only for Nvidia ). Example: -pl=100 -fixclk= - sets a fixed core frequency on the 20th, 30th Nvidia (Experimental option! In some cases it can help reduce consumption). Example: -fixclk=800 -fixpstate=1 — disables CUDA and OpenCL card drivers from switching to PState2 mode. An analogue of the CudaForceP2State=off option on Windows in Nvidia Inspector . !! ATTENTION!! Global setting, will be applied to ALL cards (Experimental option! Includes the ability to set higher memory frequencies) -led= - control the logo backlight on some Nvidia cards. Default: 0. Valid range 0-100. Example: -led=0 (off)
Example: " oc -cclk=1070 -mclk=2050 -cvddc=780 -mvddc=800 -tt=65 -fan=80 "
Mining on Nvidia GeForce GTX 1070 8gb: how many megahashes does the card produce using other algorithms
On such productive GPUs you can mine not only ether. How many megahashes does a 1070 video card produce for other cryptocurrencies? We have compiled a table of NVIDIA GTX 1070 hashrate (hashrate) for popular algorithms based on data from whattomine.com. The numbers may be lower than those stated in the reviews, since GPU performance directly depends on the manufacturer and the mining card settings.
| Argon2d-NIM | 250.00 kh/s | Ethash | 25.0 Mh/s |
| Autolykos | 51.00 Mh/s | Ethash4G | 30.0 Mh/s |
| BCD | 19.50 Mh/s | Handshake | 235.00 Mh/s |
| CryptoNightFast | 1.4 kh/s | Hex | 14.00 Mh/s |
| CryptoNightGPU | 1.3 kh/s | KawPow | 14.50 Mh/s |
| CryptoNightHeavy | 820.00 h/s | Lyra2REv3 | 44.50 Mh/s |
| CryptoNightR | 600.00 h/s | MTP | 2.20 Mh/s |
| Cuckaroo29 | 5.70 h/s | NeoScrypt | 1.15 Mh/s |
| Cuckaroom29 | 3.40 h/s | Octopus | 8.50 Mh/s |
| Cuckarooz29 | 3.00 h/s | PHI2 | 5.70 Mh/s |
| Cuckatoo31 | Win10 0.00 h/s Linux 0.85 h/s | ProgPow | 14.50 Mh/s |
| Cuckatoo32 | 0.24 h/s | RandomX | 560.00 h/s |
| CuckooCycle | 5.50 h/s | TimeTravel10 | 27.00 Mh/s |
| Equihash (150.5) | 16.80 h/s | Verthash | 460.00 kh/s |
| Equihash (210.9) | 215.00 h/s | X16R | 18.00 Mh/s |
| EquihashZero | 32.50 h/s | X25X | 4.00 Mh/s |
For NVIDIA video cards
GIGABYTE GTX 1070 TUNING (Core Clock: 150 , MemoryClock: 700 , Power limit: 133 , Fan 75 ,) NVIDIA GTX 1080 TUNING (Core Clock: 20 , MemoryClock: 1200 , Power limit: 190 , Fan 65 , Target Temp 50 ) Set : oc -tt=50 T-rex miner: -mt 3 Gtx 1070ti : TUNING (Core Clock: -10 , MemoryClock: 0 , Power limit: 120 , Fan 65 ,) SET
:
oc -sleep=20 -cclk=0 - mclk=1100 MSI 1080ti : TUNING (Core Clock: -10 , MemoriClock: 0 , Pover limit: 280 , Fan: 50 , Target Temp: 55 ) SET : oc -tt=55 oc -sleep=25 -cclk=129 -mclk =985 ————————————— TUNING : ( Core Clock 132 MemoriClock 0 Pover limit 0 Fan 50 Target Temp 55 ) Set : oc -fixpstate=1 -tt=55 T-Rex miner: -i 24 -mt 5 AORUS 1080ti : TUNING (Core Clock: -10 , Power limit: 250 ) SET
:
oc -sleep=20 -cclk=100 -mclk=1100 ZOTAC GTX 1080ti : TUNING (Core Clock: -10 , Memory Clock: 800 , Power limit: 250 ) SET
:
oc -tt=55 oc -sleep=20 -cclk=105 -mclk=1100 EVGA GTX 1080ti : TUNING (Core Clock: -50 , Memory Clock: 900 , Power limit: 255 ) SET
:
oc -tt=50 oc -sleep=20 -cclk=100 -mclk=1100 ASUS GTX 1080ti : TUNING (Core Clock: -50 , Memory Clock: 800 , Power limit: 255 ) SET
:
oc -tt=56 oc - sleep=20 -cclk=109 -mclk=1118 MSI GTX 1660 Ti : TUNING ( Core Clock: -400 , Memory Clock: 2260 , Power limit: 70 , Fan: 0 , Temp: 50 ) MSI GTX 1660 SUPER : TUNING ( Core Clock: 0 , Memory Clock: -1004 , Power limit: 75 , Fan: 50 ) Gigabyte GTX 1660 SUPER : TUNING ( Core Clock: 0 , Memory Clock: -1100 , Power limit: 80 , Fan: 50 ) Nvidia GTX 1660 SUPER : TUNING (Core Clock: 0 , Memory Clock: -1090 , Power limit: 85 , Fan: 50 ) ASUS RTX 2060 SUPER : TUNING (Core Clock: -670 , Memory Clock: 2150 , Power limit: 125 , Fan: 40 ) Gigabyte RTX 2060 TUNING ( Core Clock: 100 , Memory Clock: 2100 , Power limit: 130 , Fan 60 , Target Temp: 60 ) SET : oc -fixclk=1150 -wh=30000000 -tt=57 Palit DUAL RTX 2060 Super : TUNING (Core Clock: 0 , Memory Clock: 2000 , Power limit: 0 , Fan 60 , Target Temp: 0 ) SET : oc -fixclk=1050 -fixpstate=1 - Samsung memory, Miner - T-Rex ASUS GeForce RTX 2070 ROG Strix ( micron ) TUNING ( Core Clock: 0 , Memory Clock: 1450 , Pover limit: 130 , Fan: 55 , Target Temp: 55 ) SET : oc -fixclk=1050 RTX 3000 : SET
:
oc -sleep=20 -mclk=2540 Gigabyte Eagle 3060 Ti : TUNING ( Core Clock -200 Memori Clock 2400 Pover limit 140 Fan 75 ) SET
:
oc -tt=60 oc -sleep=25 -mclk=3350 MSI GeForce RTX 3060 Ti TWIN FAN : TUNING ( Core Clock: - 502 , Power limit: 130 , Fan 60 , Target Temp: 60 ) SET
:
oc -wh=30000000 oc -sleep=20 -mclk=2505 Palit 3060 Ti Dual OC : SET
:
oc -pl=130 -cclk=-502 - wh=55000000 -fanmin=30 -fanmax=80 -tt=56 oc -sleep=60 -mclk=2550 Palit GeForce RTX 3060 Ti Dual : TUNING ( Core Clock: -500 , Power limit: 135 , Fan 60 , Target Temp: 60 ) SET
:
oc -wh=30000000 oc -sleep=25 -mclk=2500 MSI RTX 3070 VENTUS 2X : TUNING (Core Clock: 0 , Memory Clock: 0 , Power limit: 150 , Fan: 50 ) SET : oc -tt =60 oc -sleep=20 -cclk=-500 -mclk=2800 Gigabyte RTX 3070 : TUNING ( Core Clock: -200 , Memory Clock: 0 , Power limit: 135 , Fan 60 , Target Temp: 60 ) SET : oc - tt=60 oc -sleep=20 -mclk=1800 MSI RTX 3070 : TUNING ( Core Clock: 0 , Memory Clock: 2000 , Power limit: 130 , Fan 60 , Target Temp: 55 ) SET
:
oc -tt=60 oc - sleep=20 -cclk=-500 -mclk=2800 Palit RTX 3070 : TUNING ( Core Clock: -500 , Memory Clock: 2400 , Power limit: 130 , Fan: 60 , Target Temp: 50 ) ASUS TUF 3070 (Samsung) TUNING (Core Clock: 0 , Memory Clock: 2680 , Pover limit: 120 , Fan: 55 , Target Temp: 55 ) SET : oc -fixclk=1150 —————————————————— ——————————- TUNING ( Core Clock: -100 , Memory Clock: 1000 , Pover limit: 120 , Fan: 55 , Target Temp: 55 ) SET : oc -fixclk=900 -sleep=30 - mclk=2750 MSI RTX 3080 TUNING ( Core Clock: 0 , Memory Clock: 2700 , Power limit: 180 , Fan: 70 , Target Temp: 50 ) Palit RTX 3080 TUNING ( Core Clock: 0 , Memory Clock: 2700 , Power limit: 235 , Fan: 75 , Target Temp: 50 ) ASUS RTX 3090 : TUNING ( Core Clock: -300 , Memory Clock: 0 , Power limit: 325 , Fan 70 ) SET
:
oc -sleep=20 -mclk=1400 MSI RTX 3090 : TUNING ( Core Clock: -300 , Power limit: 305 , Fan 90 ) SET
:
oc -sleep=20 -mclk=2600
Overclocking
Of course, I immediately decided to test the overclocking potential of the video card, and was able to increase the chip frequency in MSI Afterburner by 200 MHz, but the memory by only 550 MHz.
I was unlucky and the video card turned out to have Micron memory chips. Samsung memory chips would give better results. But the increase in 3Dmark 11 turned out to be noticeable - 5573 points or almost 9%, which allowed it to overtake the GeForce GTX 750 and get closer to the results of the GeForce GTX 750 Ti.
For AMD video cards
ASUS RX 470 : TUNING : ( Core Clock: 1125 , Memory Clock: 2000 , Core voltage: 850 , Memory voltage: 850 , Fan 70, Target Temp: 60 ) SET : amdmemtweak —REF 30 RX 580 Nitro+ : TUNING (Core Clock: 1300 , Memory Clock: 2200 , Fan: 70 ) SET : amdmemtweak —REF 30 ATI Radeon RX 580 : TUNING (Core Clock: 1200 , Memory Clock: 2210 , Fan: 70 , Target Temp: 60 ) SET : amdmemtweak —REF 30 Gigabyte RX 5600 XT : TUNING : (Core Clock: 1070 , Memory Clock: 910 , Core voltage: 670 , Memory voltage: 760 , Fan 75 , Target Temp: 0 ) SET : oc -mvdd=1280 -socvddmax=850 -socclkmax=950 Sapphire RX 5600 TX : TUNING : (Core Clock: 1070 , Memory Clock: 910 , Core voltage: 700 , Memory voltage: 770 , Fan 60 , Target Temp: 0 ) SET : oc -mvdd=1280 -socvddmax=850 -socclkmax= 950 PowerColor RX 5600 XT : TUNING : (Core Clock: -100 , Memory Clock: 0 , Core voltage: 800 , Memory voltage: 800 , Fan 60 ,) SET : oc -sleep=40 -cclk=1100 -mclk=940 MSI RX 5600 XT : TUNING : (Core Clock: -10 , Memory Clock: 0 , Core voltage: 700 , Memory voltage: 0 , Fan 0 , Target Temp: 46 ) SET : oc -sleep=20 -cclk=1110 -mclk= 930 AsRock Challenger D RX 5600 XT : TUNING : (Core Clock: 1100 , Memory Clock: 940 , Core voltage: 700 , Memory voltage: 800 , Fan 60 , Target Temp: 0 micron memory , Miner - TeamRedMiner Gigabyte 5700 XT : SET : oc -sleep=20 -mvdd=1270 -socclkmax=800 -gfxvddmax=700 atitool -i=[0] -VDDCR_SOC=0.74v Msi RX 5700 XT : TUNING : ( Core Clock: 0 , Memory Clock: 0 , Core voltage : 875 , Memory voltage: 800 , Fan 60 ,) SET : oc -ttm=75 oc -sleep=25 -cclk=1280 -mclk=900 -gfxvddmax=800 -mvdd=1300 -socclkmax=1050 PowerColor RX 5700 XT : TUNING : ( Core Clock: 1400 , Memory Clock: 900 , Core voltage: 850 , Memory voltage: 0 , Fan 60 ) Sapphire RX 5700 XT : SET : oc -gfxvddmax=800 -mvdd=1300 -socclkmax=1110 -ttm=95 oc -sleep=60 -mclk=940 -cvddc=775 -mvddc=775 Asus ROG Strix RX 5700 XT : TUNING : ( Core Clock: 1340 , Memory Clock: 900 , Core voltage: 712 , Memory voltage: 700 , Fan 50 , Target Temp: 48 ) SET : oc -wh=51000000 -socclkmax=950 -mvdd=1250 Sapphire RX 6700 XT TUNING : ( Core Clock: 1200 , Memory Clock: 1070 , Core voltage: 63 0 , Memory voltage: 63 0 , Fan 57 , Target Temp: 60 ) in SET : oc —wh=15000000 -ttm=60 -lp=1 AMD RX 6800 : TUNING : ( Core Clock: 1275 , Memory Clock: 1060 , Core voltage: 680 , Memory voltage: 690 , Fan 85 , Target Temp: 60 ) SET : oc -mvdd=1250 -socvddmax=850 -socclkmax=950 Sapphire RX 6800 : TUNING : ( Core Clock: 1275 , Memory Clock: 1060 , Core voltage: 690 , Memory voltage: 690 , Target Temp: 60 ) SET : oc -wh=44000000 -socclkmax=950 -socvddmax=900 -mvdd=1250 -fanmin=21 -fanmax=85 AMD RX Vega 56 : TUNING : ( Core Clock: 0 , Memory Clock: 0 , Fan 70 , Target Temp: 50 ) SET : amdmemtweak -i [tid] -CL 20 -RAS 20 -RCDRD 11 -RCDWR 12 -RC 36 -RP 10 -RRDS 3 -RRDL 6 -RTP 5 -FAW 12 -CWL 8 -WTRS 4 —WTRL 9 —WR 14 —REF 65535 —RFC 216 oc -cclk=960 -mclk=900 -cvddc=766 -mvddc=766 -wh=44000000 atitool -i=[tid] -socclk=900 && sleep 1 && atitool -i=[tid] -vddio_mem=1.155 -vddcr_hbm=1.155 -0.8v=0.755 SET SAMSUNG
:
amdmemtweak -i [tid] -CL 20 -RAS 20 -RCDRD 13 -RCDWR 12 -RC 38 -RP 11 -RRDS 3 - RRDL 6 —RTP 5 —FAW 12 —CWL 8 —WTRS 4 —WTRL 9 —WR 14 —REF 65535 —RFC 248 oc -cclk=1200 -mclk=1106 -cvddc=850 -mvddc=850 -ttm=85 atitool -i =[tid] -vddio_mem=1.337 -vddcr_hbm=1.337 -0.8v=0.800 SET HYNIX
:
amdmemtweak -i [tid] -RAS 15 -RCDRD 12 -RCDWR 12 -RC 34 -RP 13 -RRDS 0 -RRDL 0 -faw 12 —REF 65535 —RFC 216 oc -cclk=1000 -mclk=940 -cvddc=775 -mvddc=775 -wh=44000000 atitool -i=[tid] -socclk=960 && sleep 1 && atitool -i=[tid] - vddio_mem=1.23 -vddcr_hbm=1.23 -0.8v=0.755
All the above proposed examples were received from telegram chat participants @raveOSchat
If you want to share your successful overclocking parameters, please email
Characteristics of RTX A2000
| GPU Specifications | NVIDIA RTX A2000 |
| Video memory capacity | 6 GB | 12 GB GDDR6 with error correction (ECC) |
| Display connectors | 4 x mini DisplayPort 1.4 |
| Maximum power consumption | 70 W |
| Data bus | PCI Express Gen 4 x 16 |
| Form factor | Height 5.08 cm, length 15.24 cm, width two slots |
| Cooling | Active |
| VR support | Yes |
Characteristics of the RTX A2000
The card can be equipped with 6 Gb and 12 Gb of video memory. Memory is fast GDDR6.
ZOMBIE MODE
Miners that currently support “zombie mode”:
Phoenix Miner, lolMiner, TeamRedMiner
Appropriate additional commands must be added.
Phoenix Miner :
—daglim X TeamRedMiner: —eth_4g_max_alloc=X lolMiner: —4g-alloc-size Example add an argument to TeamRedMiner: —eth_4g_max_alloc=4078
Recommended range of X values [4060-4080] depending on the type of video card. The higher the value, the higher the hashrate.
--zombie-tune option for Polaris GPUs.
This will increase zombie mode performance (on top of the overall improvement) by another 5-15% RaveOS offers advanced overclocking for most used GPUs.
conclusions
The cryptocurrency rate is not going to fall yet, and the coronavirus pandemic is still not abating, so we won’t see good prices for video cards for a long time. If you, like me, were left without a video card due to miners during these difficult times, then the GeForce GT 1030 looks like a completely acceptable solution, especially if you play not the most demanding games.
Of course, if you are not afraid of the secondary market, then for this amount you can find a video card of the GeForce GTX 1050 level, but used video cards are always a lottery in which even the most experienced player can lose. And with the GeForce GT 1030 you can get GeForce GTX 750-level performance, a three-year warranty and extremely low power consumption of 30 watts.
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- CPU frequency CPU frequency;
- CPU multiple CPU multiplier;
- Voltage core. Processor power supply. For now, we do not touch this parameter.
In order to check the basic overclocking capabilities, it is advisable to open the processor specifications on the official website of Intel or AMD. Next, install the recommended settings and start Windows.
After this, we launch the Aida64 stress test function. At the same time, we monitor the temperature of the equipment. It should not approach 80% of the critical value specified in the specifications for it.
If the computer withstood about 40–50 minutes in a stress test, did not show artifacts, did not overheat, and allowed you to work comfortably at the same time (for example, watching videos or playing undemanding games), then this frequency and multiplier indicator can be considered stable.
Next, you need to increase the frequency by 5–7% from the current one and repeat the experiment. Repeat until the processor reaches the critical temperature, or bugs appear (reboots, blue screens, slowdowns, artifacts on the screen, etc.). Then you need to roll back a step. This will be your stable indicator of maximum frequency overclocking.
After this, you lower the Multiple indicator of the processor and repeat the frequency overclocking operation. The task is to choose the most effective combination of multiple and frequency.
Once you have achieved stable values, you can change the voltage. But more on that later.
An alternative way would be to perform the same manipulations in the CPU-Z program. But in order to achieve the most effective overclocking using this program, you will need to download drivers for your processor.
In fact, if you use mining exclusively with CPU resources without a GPU, you can finish the process of overclocking the processor and get to work.
During the mining process, it is advisable to carry out control measurements of computing power and, perhaps, even roll back one more step in overclocking.
Profitability of A2000 in mining various coins
Profitability of RTX A2000 in mining
Data on Hive OS:
- Ethash 43Mh - 2800 Mhz memory in Hive OS and Rave OS. In Windows - 1900Mhz. Consumption 75W.
- Autolykos 105Mh - we don’t touch the core, the memory is 2800Mhz. Consumption 30W.
- Octopus 29Mh - 350 core, -400Mhz memory. Consumption 70W.
- KawPow 16 Mh - core 300, memory -600. Consumption 70W.
At the current Ethereum rate, the profitability of the RTX A2000 video card in mining is approximately $2.39 per day, including the outlet. The card can bring in income of $72 per month.
For calculations, use the Wattumine calculator.
