New system software for parallel programming models on the Intel SCC many‐core processor

Abstract: SUMMARYSince the beginning of the multicore era, parallel processing has become prevalent across the board. On a traditional multicore system, a single operating system manages all cores and schedules threads and processes among them, inherently supported by hardware-implemented cache coherence protocols. However, a further growth of the number of cores per system implies an increasing chip complexity, especially with respect to the cache coherence protocols. Therefore, a very attractive alternative for future… Show more

“…‘New System Software for Parallel Programming Models on the Intel SCC Many‐core Processor’ by Carsten Clauss, Stefan Lankes, Pablo Reble, and Thomas Bemmerl gives a detailed report on the authors' experiences with implementing parallel programming libraries and tools for the 48‐core Intel Single Cloud Chip (SCC) processor. SCC is a prototype of a many‐core processor comprising noncoherent memory‐coupled cores, a so‐called cluster‐on‐chip architecture.…”

Recent developments in high‐performance computing and simulation: distributed systems, architectures, algorithms, and applications

“…‘New System Software for Parallel Programming Models on the Intel SCC Many‐core Processor’ by Carsten Clauss, Stefan Lankes, Pablo Reble, and Thomas Bemmerl gives a detailed report on the authors' experiences with implementing parallel programming libraries and tools for the 48‐core Intel Single Cloud Chip (SCC) processor. SCC is a prototype of a many‐core processor comprising noncoherent memory‐coupled cores, a so‐called cluster‐on‐chip architecture.…”

Recent developments in high‐performance computing and simulation: distributed systems, architectures, algorithms, and applications

A Low Noise Unikernel for Extrem-Scale Systems

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