Yunsup Lee, Andrew Waterman, Rimas Avizienis, Henry Cook, Chen Sun, V. Stojanović, K. Asanović
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引用次数: 128
摘要
采用45nm SOI工艺制备了64位双核矢量加速器RISC-V处理器。这是第一个实现由加州大学伯克利分校设计的开源RISC-V ISA的双核处理器。在标准的40nm制程中,RISC-V标量内核的DMIPS/MHz比ARM的同类单问题顺序标量内核Cortex-A5高10%,面积效率提高49%。为了展示RISC-V ISA的可扩展性,我们在每个单问题顺序标量核心旁边集成了一个自定义矢量加速器。矢量加速器的能效比IBM Blue Gene/Q处理器高1.8倍,比IBM Cell处理器高2.6倍,两者都是用相同的工艺制造的。双核RISC-V处理器在1.2V电压下实现了1.3GHz的最大时钟频率,在0.65V电压下实现了16.7双精度GFLOPS/W的峰值能效,面积为3mm2。
A 45nm 1.3GHz 16.7 double-precision GFLOPS/W RISC-V processor with vector accelerators
A 64-bit dual-core RISC-V processor with vector accelerators has been fabricated in a 45nm SOI process. This is the first dual-core processor to implement the open-source RISC-V ISA designed at the University of California, Berkeley. In a standard 40nm process, the RISC-V scalar core scores 10% higher in DMIPS/MHz than the Cortex-A5, ARM's comparable single-issue in-order scalar core, and is 49% more area-efficient. To demonstrate the extensibility of the RISC-V ISA, we integrate a custom vector accelerator alongside each single-issue in-order scalar core. The vector accelerator is 1.8× more energy-efficient than the IBM Blue Gene/Q processor, and 2.6× more than the IBM Cell processor, both fabricated in the same process. The dual-core RISC-V processor achieves maximum clock frequency of 1.3GHz at 1.2V and peak energy efficiency of 16.7 double-precision GFLOPS/W at 0.65V with an area of 3mm2.
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