Characterizing chip-multiprocessor variability-tolerance

2008 45th ACM/IEEE Design Automation Conference Pub Date : 2008-06-08 DOI:10.1145/1391469.1391550
S. Herbert, Diana Marculescu
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引用次数: 61

Abstract

Spatially-correlated intra-die process variations result in significant core-to-core frequency variations in chip-multiprocessors. An analytical model for frequency island chip-multiprocessor throughput is introduced. The improved variability-tolerance of FI-CMPs over their globally-clocked counterparts is quantified across a range of core counts and sizes under constant die area. The benefits are highest for designs consisting of many small cores, with the throughput of a globally-clocked design with 70 small cores increasing by 8.8% when per-core frequency islands are used. The small- core FI-CMP also loses only 7.2% of its nominal performance to process variations, the least among any of the designs.
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芯片-多处理器可变容错特性
在芯片多处理器中,空间相关的芯片内部工艺变化导致显著的核心到核心频率变化。介绍了频率岛芯片多处理机吞吐量的解析模型。在恒定的模具面积下,在核数和尺寸范围内量化了fi - cmp比其全球时钟对应的改进的变异性容限。对于由许多小内核组成的设计,好处是最高的,当使用每核频率岛时,具有70个小内核的全局时钟设计的吞吐量增加了8.8%。小核FI-CMP也只损失了7.2%的标称性能的工艺变化,在任何设计中最小。
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2008 45th ACM/IEEE Design Automation Conference
2008 45th ACM/IEEE Design Automation Conference
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