Nvidia RTX 3080
Model Nvidia RTX 3080 from Nvidia mining algorithm Octopus with a maximum hashrate of 78.997692Mh for a power consumption of 239w.
Profitability
Period | /Day | /Month |
---|---|---|
Income | $0.55 | $16.50 |
Cost $0.1/kWh |
$0.50 | $15.00 |
Profitability | $0.05 | $1.50 |
Algorithms
Algorithm | Efficiency | Profit |
---|---|---|
Octopus
78.997692Mh - 239.0W |
0.33J | -$0.02 |
KAWPOW
46.448Mh - 279.0W |
0.17J | -$0.11 |
Zhash
116h - 235.0W |
0.49J | -$0.16 |
Autolykos2
218.548Mh - 180.0W |
1.21J | -$0.17 |
NeoScrypt
2.26811Mh - 154.0W |
0.01J | -$0.25 |
X16Rv2
176.364Kh - 106.0W |
1.66J | -$0.25 |
CuckooCycle
11h - 256.0W |
0.04J | -$0.27 |
BeamHashIII
42h - 260.0W |
0.16J | -$0.31 |
NexaPoW
4.816056Mh - 175.0W |
0.03J | -$0.41 |
Ethash
97.878Mh - 224.0W |
0.44J | -$0.41 |
Etchash
97.878Mh - 224.0W |
0.44J | -$0.41 |
Lyra2REv2
105.912913Mh - 184.0W |
0.58J | -$0.44 |
VerusHash
16.058738Mh - 247.0W |
0.07J | -$0.46 |
RandomX
1.53Kh - 222.0W |
0.01J | -$0.50 |
Lyra2z
8.45517Mh - 211.0W |
0.04J | -$0.51 |
Blake (2s)
8.761925326Gh - 213.0W |
0.04J | -$0.51 |
Eaglesong
1.525Mh - 237.0W |
0.01J | -$0.57 |
cuckAToo32
0h - 251.0W |
0.00J | -$0.60 |
X16R
26.88925Mh - 258.0W |
0.10J | -$0.62 |
Keccak
1.6481429Gh - 311.0W |
0.01J | -$0.75 |
KHeavyHash
871.894028Mh - 318.0W |
2.74J | -$0.76 |
Specification
Base Clock | 1440 MHz |
Boost Clock | 1710 MHz |
CUDA cores | 8704 |
GPU Power | 320 W |
Max Memory Size | 10 GB |
Max temp. | 93°C |
Memory Clock | 9500 MHz |
Memory Interface | 320 Bits |
Memory Type | GDDR6X |
Release | September 2020 |
Mining pools for Nvidia RTX 3080
Pool | Start Mining |
---|---|
Nicehash | nicehash.com |
Mining Rig Rental | miningrigrental.com |
zpool | zpool.ca |
XmrPool | xmrpool.net |
Zergpool | zergpool.com |
XmrPool Hub | xmrpoolhub.com |
Mining Pool Hub | miningpoolhub.com |
Carbon Footprint
Estimating the carbon footprint from the cryptocurrency mining operations of the Nvidia RTX 3080 in a year, based on energy consumption and various energy sources
Energy Source | Carbon Intensity (gCO2e/kWh) | Yearly Power Consumption (kWh) | Yearly Carbon Footprint (kgCO2e/year) |
---|---|---|---|
Wind | 22 | ||
Nuclear | 24 | ||
Hydroelectric | 49 | ||
Geothermal | 78 | ||
Solar | 92 | ||
Biofuels | 474 | ||
Gas | 1,011 | ||
Coal | 1,692 |
Warning: The numbers provided above are merely an estimate of the carbon footprint resulting from cryptocurrency mining. They are presented for informational purposes and should be seen as references only, not as an absolute exact figure. The actual carbon emissions can vary based on many different factors such as the approach, calculation methods, and specific parameters of each mining technology type. We recommend users to consider these figures as a small part of a larger environmental picture and the impact of cryptocurrency mining on it.