NVIDIA RTX A2000 Workstation Graphics Card Showcases Impressive Mining Efficiency, Up To 41 MH/s Under 70 Watts

NVIDIA RTX A2000 Workstation Graphics Card Showcases Impressive Mining Efficiency, Up To 41 MH/s Under 70 Watts

3 years ago
Anonymous $np3LcwuhSi

https://wccftech.com/nvidia-rtx-a2000-workstation-graphics-card-showcases-impressive-mining-efficiency-up-to-41-mh-s-under-70-watts/

It looks like the smallest NVIDIA Ampere workstation graphics card, the RTX A2000, offers the best mining efficiency of all GPUs so far. Tested by Mining channel, Dizzy Mining, the RTX A2000 delivers some impressive efficiency figures when mining Ethereum.

The NVIDIA RTX A2000 features the Ampere GPU architecture. In terms of specifications, the RTX A2000 rocks the GA106 GPU which is equipped with 3328 CUDA cores, 104 Tensor cores, and 26 RT cores, all of which offer a nice performance bump over the previous generation offerings. In terms of memory, the card is equipped with 6 GB GDDR6 capacity that runs across a 192-bit bus interface and the DRAM features ECC support for error-free computing.

NVIDIA RTX A2000 Workstation Graphics Card Showcases Impressive Mining Efficiency, Up To 41 MH/s Under 70 Watts

Oct 23, 2021, 1:25pm UTC
https://wccftech.com/nvidia-rtx-a2000-workstation-graphics-card-showcases-impressive-mining-efficiency-up-to-41-mh-s-under-70-watts/ > It looks like the smallest NVIDIA Ampere workstation graphics card, the RTX A2000, offers the best mining efficiency of all GPUs so far. Tested by Mining channel, Dizzy Mining, the RTX A2000 delivers some impressive efficiency figures when mining Ethereum. > The NVIDIA RTX A2000 features the Ampere GPU architecture. In terms of specifications, the RTX A2000 rocks the GA106 GPU which is equipped with 3328 CUDA cores, 104 Tensor cores, and 26 RT cores, all of which offer a nice performance bump over the previous generation offerings. In terms of memory, the card is equipped with 6 GB GDDR6 capacity that runs across a 192-bit bus interface and the DRAM features ECC support for error-free computing.