Rahimi scite author profile

Rahimi

2Publications

31Citation Statements Received

21Citation Statements Given

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University of California, San Diego

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Analysis of instruction-level vulnerability to dynamic voltage and temperature variations

Rahimi

Benini

Gupta

2012

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Abstract-Variation in performance and power across manufactured parts and their operating conditions is an accepted reality in aggressive CMOS processes. This paper considers challenges and opportunities in identifying this variation and methods to combat it for improved computing systems. We introduce the notion of instruction-level vulnerability (ILV) to expose variation and its effects to the software stack for use in architectural/compiler optimizations. To compute ILV, we quantify the effect of voltage and temperature variations on the performance and power of a 32-bit, RISC, in-order processor in 65nm TSMC technology at the level of individual instructions. Results show 3.4ns (68FO4) delay variation and 26.7x power variation among instructions, and across extreme corners. Our analysis shows that ILV is not uniform across the instruction set. In fact, ILV data partitions instructions into three equivalence classes. Based on this classification, we show how a low-overhead robustness enhancement techniques can be used to enhance performance by a factor of 1.1x−5.5x.

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Power System Transient Stability Indexes for On-Line Analysis of ``Worst-Case'' Dynamic Contingencies

Rahimi¹,

Schaffer

1987

IEEE Power Eng. Rev.

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Rahimi

Analysis of instruction-level vulnerability to dynamic voltage and temperature variations

Power System Transient Stability Indexes for On-Line Analysis of ``Worst-Case'' Dynamic Contingencies

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