AMD Says TSMC Can Meet Epyc Demand; Launches New, Higher-Clocked 64-Core CPU
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AMD executive Scott Aylor said the chipmaker is "very well positioned" to meet demand for its second-generation EPYC Rome processors through the production capacity of semiconductor foundry TSMC.
Aylor, corporate vice president and general manager of data center of AMD's Datacenter Solutions Group, made the comments in a Tuesday briefing about the chipmaker's progress with EPYC Rome in response to concerns that its CPU supply won't be able to keep up with demand.
"We will be able to meet the needs of a fantastic level of interest," he said. "[TSMC has] full commitment to ramp the volumes needed on the market."
Aylor said his comments, which were made during a presentation for journalists, were not in response to a Tuesday story by Digitimes stating that TSMC, or Taiwan Semiconductor Manufacturing Company, has pushed back the lead time for products made using the foundry's 7-nanometer node - which includes EPYC Rome - has been pushed back from two months to nearly six months.
AMD held its European launch in Rome, Italy of its new EPYC processors. Along with announcing that the company's EPYC Rome data center processors have now attained 100 world records (and counting), the company also announced a slew of new OEM servers.
AMD also unveiled its EPYC 7H12, a 64-core 128-thread that boasts a beastly 280W thermal design power (TDP) envelope, which allows the processor to reach a 2.6 GHz base and 3.3 GHz max boost frequency, marking the highest performance of its Rome product stack.
AMD designed the new chip, which requires watercooling to extract the ultimate performance, for high performance computing (HPC) workloads. ATOS unveiled its new Bullsequana XH2000, a hybrid supercomputer designed for exascale-class supercomputers that supports the new 7H12 chips.
The system supports the EPYC 7H12, cooling it's[sic] 32 1U blades (per rack) with an advanced water cooling solution, and said that it provides up to 4.2 TFLOPS of performance per chip, making the 7H12 up to 11% faster than the current top-of-the-stack EPYC 7742 processor.
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