SEATTLE—At the SUPERCOMPUTING 2011 show here Tuesday (Nov. 15), Intel Corp. showed off its 22-nm "Knight's Corner" co-processor compute accelerator, boasting over 50 cores and delivering a purported one teraflops of double precision floating point performance, outstripping Nvidia’s Tesla 2090 accelerator.
Showing off the very first silicon available, Intel’s Rajeeb Hazra, general manager of technical computing at the Intel datacenter and connected systems group said the single 1TFLOP/s chip was the equivalent of the entire AsciiRed system built back in 1997, consisting of 9298 Pentium II Xeon processors.
That system made up 72 cabinets of computing power.
“That was a very proud day for us, but today we can get a teraflop of sustained double precision performance in one 3-D tri-gate 22-nm chip running Linux,” said Hazra adding, “It’s not on Powerpoint, it’s a real chip, we have it in our labs and it’s working.”
Intel later showed off a makeshift system running the chip to select press, though very few additional specs were given out.
“We don’t know of any other mainstream architecture chip with this kind of performance,” said Hazra, explaining that the main benefits lay in the extreme programmability of the chip.
“The programming model story is clear to us,” he said noting that all the software tools being used on Xeons today would be able to scale to Knight’s Corner with minimal effort, giving Intel an advantage over rivals like Nvidia, which requires code to be adapted and ported before being accelerated on a GPU.
Intel’s MIC architecture also has the advantage of having been specifically designed to process highly parallel workloads, said Hazra.
“It’s a significant day. We are so excited about taking this architecture to market,” he said.
In addition, Hazra spoke briefly about Intel’s exascale efforts, saying the firm had set itself a firm goal of reaching the target by 2018, within a 20MW power envelope. To do so, he said, however, would require a large amount of investment and partnership.
“It’s not just a question of money, it’s a question of getting the right brains and eyes looking at solving the issues,” he said.
so intel finally made it to 1 Tflops. been able to buy this level of perforance for 2 or 3 years in a single slot pcie card. what is the flops/watt, flops/$ installed (floor space / cooling ...), memory bandwidth, max concurrent threds ?
David Patterson, known for his pioneering research that led to RAID, clusters and more, is part of a team at UC Berkeley that recently made its RISC-V processor architecture an open source hardware offering. We talk with Patterson and one of his colleagues behind the effort about the opportunities they see, what new kinds of designs they hope to enable and what it means for today’s commercial processor giants such as Intel, ARM and Imagination Technologies.