South Korea’s Electronics and Telecommunications Institute (ETRI) has teamed up with Arm to design a CPU that’s tailored for supercomputing (opens in new tab) applications.
The news is particularly significant in light of the fact that all of South Korea’s High Performance Computing (HPC) is powered by Intel processors, according to reports.
The design helps the country inch closer to having an indigenously designed CPU that’ll be capable of handling the country’s supercomputing needs.
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The largest supercomputer in production in South Korea today is the Nurion machine. It is the 17th most powerful system on the planet and is powered by the Intel Xeon Phi supercomputing processor. The machine was assembled by Cray, prior to its acquisition by HP (opens in new tab). It is this stranglehold of US companies that fueled the ETRI research.
Reports say the researchers were tasked to design a CPU that was more than twice as fast as the accelerators used in the current generation of supercomputers while consuming less than half the power.
The reports quote Youngsu Kwon from the AI Processor Research Department at ETRI as saying that the researchers tackled their brief by focussing on single chip performance for low power chips and systems: “From there you can integrate more chips, increasing the performance and reducing power consumed. Also, the integration of CPUs and accelerators into a single chip will allow more bandwidth, which can remove the data bandwidth bottleneck.”
They achieved this by combining the Arm Zeus high-performance chips with ETRI’s scalable AI/HPC cores together with multiple DDR5 high-bandwidth memory (HBM) interfaces. The result of their efforts is the K-AB21, which packs 16 teraflops per CPU for a combined output of 1600 teraflops per rack.
The group is still fine-tuning certain elements of the chip, but expects it to be available by the end of 2021.
Why is it important?
Globally he fact that this announcement came a few months after the launch of the Fugaku super computer (opens in new tab), powered by the Fujitsu A64FX, shows that the urge to remain competitive remains very, very strong indeed in South Korea. The mention of "Korean, World Class memory technology" in one of the slides bears witness to that.
Why is that significant? Globally, there is a growing concern that the US hegemony on HPC should no longer be tolerated. China, Europe, Japan and now South Korea have announced plans to do evolve their own indigenous technologies based either on ARM or RISC-V.
Here's the rub, any technological advancement is likely to trickle to consumers even if it takes years. The HPC secret sauce that powers supercomputer will ultimately end up in your smartphone (or whatever device becomes popular later this decade). If nations or groups of nations start to foster their own technological platforms, that could have serious implications for end users there and anywhere. Remember the days of CDMA and SECAM?
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Via: The Next Platform (opens in new tab)