Now there’s a name I haven’t heard in a long time.
And the Xeon Phi (Knight’s Ferry/Landing) was in the GPU space, but only in GPGPU. The idea was that the Xeon Phi, with an x86-compatible core, could, with less modification, run software that was originally targeted to a standard x86 CPU. Something like 68-70 x86-64 cores.
I had a couple of them when I was taking parallel programming back in the day. Nifty little devices, but largely outshined by distributed multiprocessing for x86-64 and paled in comparison to the power of CUDA. That might be my own bias talking though.
paled in comparison to the power of CUDA. That might be my own bias talking though.
I don’t have personal experience, but AFAIK that’s what everybody says. They were marketed as compute units, but their compute performance was very poor compared to the competition.
Now there’s a name I haven’t heard in a long time.
And the Xeon Phi (Knight’s Ferry/Landing) was in the GPU space, but only in GPGPU. The idea was that the Xeon Phi, with an x86-compatible core, could, with less modification, run software that was originally targeted to a standard x86 CPU. Something like 68-70 x86-64 cores.
I had a couple of them when I was taking parallel programming back in the day. Nifty little devices, but largely outshined by distributed multiprocessing for x86-64 and paled in comparison to the power of CUDA. That might be my own bias talking though.
I don’t have personal experience, but AFAIK that’s what everybody says. They were marketed as compute units, but their compute performance was very poor compared to the competition.