Getting To Zettascale Without Needing Multiple Nuclear Power Plants:
There's no resting on your laurels in the HPC world, no time to sit back and bask in a hard-won accomplishment that was years in the making. The ticker tape has only now been swept up in the wake of the long-awaited celebration last year of finally reaching the exascale computing level, with the Frontier supercomputer housed at the Oak Ridge National Labs breaking that barrier.
With that in the rear-view mirror, attention is turning to the next challenge: Zettascale computing, some 1,000 times faster than what Frontier is running. In the heady months after his heralded 2021 return to Intel as CEO, Pat Gelsinger made headlines by saying the giant chip maker was looking at 2027 to reach zettascale.
Lisa Su, the chief executive officer who has led the remarkable turnaround at Intel's chief rival AMD, took the stage at ISSCC 2023 to talk about zettascale computing, laying out a much more conservative – some would say reasonable – timeline.
Looking at supercomputer performance trends over the past two-plus decades and the ongoing innovation in computing – think advanced package technologies, CPUs and GPUs, chiplet architectures, the pace of AI adoption, among others – Su calculated that the industry could reach the zettabyte scale within the next 10 years or so.
"We just recently passed a very significant milestone last year, which was the first exascale supercomputer," she said during her talk, noting that Frontier – built using HPE systems running on AMD chips – is "using a combination of CPUs and GPUs. Lots of technology in there. We were able to achieve an exascale of supercomputing, both from a performance standpoint and, more importantly, from an efficiency standpoint. Now we draw the line, assuming that [we can] keep that pace of innovation going. ... That's a challenge for all of us to think through. How might we achieve that?"
Supercomputing efficiency is doubling every 2.2 years, but that still projects to a zettascale system around 2035 consuming 500 megawatts at 2,140 gigaflops per watt (Nuclear Power Plant ~ 1 gigawatt).
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(Score: 2) by turgid on Saturday March 18, @11:36AM
In the embedded world the Programmable System on a Chip has been popular for quite a few years now. You get maybe two ARM cores plus an FPGA on the same chip. The manufacturers all provide Linux ports for them plus often things like FreeRTOS.
I refuse to engage in a battle of wits with an unarmed opponent [wikipedia.org].