which will be his hashrate? I think it will be next to 60mh / s
source http://wccftech.com/amd-vega-10-gpu-hbm2-q4-2016-professional/
VEGA Built On 14nm FinFET – Features Second Generation – HBM2 – Stacked High Bandwidth Memory
The Fiji GPU powering the R9 Fury series is AMD’s largest ever graphics processing unit. It’s also the world’s first to feature the 3D structured, 2.5D stacked High Bandwidth Memory technology. This standard was co-invented by AMD and SK Hynix, one of the world’s largest memory makers. The advantages of vertically stacking dies are many. One of which is the enablement of significantly greater densities compared to GDDR5. HBM cubes also occupy a lot less space than GDDR5, allowing engineers to achieve tremendous area savings on the printed circuit board of the graphics card. This is what enabled AMD to make the popular R9 Nano, a tiny six inch graphics cards with 8 TFLOPS of compute. A figure that greatly overshadows similarly sized cards.
source http://wccftech.com/amd-vega-10-gpu-hbm2-q4-2016-professional/
VEGA Built On 14nm FinFET – Features Second Generation – HBM2 – Stacked High Bandwidth Memory
The Fiji GPU powering the R9 Fury series is AMD’s largest ever graphics processing unit. It’s also the world’s first to feature the 3D structured, 2.5D stacked High Bandwidth Memory technology. This standard was co-invented by AMD and SK Hynix, one of the world’s largest memory makers. The advantages of vertically stacking dies are many. One of which is the enablement of significantly greater densities compared to GDDR5. HBM cubes also occupy a lot less space than GDDR5, allowing engineers to achieve tremendous area savings on the printed circuit board of the graphics card. This is what enabled AMD to make the popular R9 Nano, a tiny six inch graphics cards with 8 TFLOPS of compute. A figure that greatly overshadows similarly sized cards.