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SC
2009
ACM

Increasing memory miss tolerance for SIMD cores

14 years 7 months ago
Increasing memory miss tolerance for SIMD cores
Manycore processors with wide SIMD cores are becoming a popular choice for the next generation of throughput oriented architectures. We introduce a hardware technique called “diverge on miss” that allows SIMD cores to better tolerate memory latency for workloads with non-contiguous memory access patterns. Individual threads within a SIMD “warp” are allowed to slip behind other threads in the same warp, letting the warp continue execution even if a subset of threads are waiting on memory. Diverge on miss can either increase the performance of a given design by up to a factor of 3.14 for a single warp per core, or reduce the number of warps per core needed to sustain a given level of performance from 16 to 2 warps, reducing the area per core by 35%. Categories and Subject Descriptors C.1 [PROCESSOR ARCHITECTURES]: Multiple Data Stream Architectures (Multiprocessors)
David Tarjan, Jiayuan Meng, Kevin Skadron
Added 19 May 2010
Updated 19 May 2010
Type Conference
Year 2009
Where SC
Authors David Tarjan, Jiayuan Meng, Kevin Skadron
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