Double-fault tolerant architecture design for digital adder

Proceedings of the 2014 IEEE Students' Technology Symposium Pub Date : 2014-05-01 DOI:10.1109/TECHSYM.2014.6807932
Atin Mukherjee, A. Dhar
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引用次数: 4

Abstract

In the era of deep sub-micron technology, probability of chip failure has been increased with increase in chip density. A system must be fault tolerant to decrease the failure rate and increase the reliability of it. Multiple faults can affect a system simultaneously and there is a trade-off between area overhead and number of faults tolerated. This paper presents fault tolerant architecture design for a ripple carry adder and a conditional sum adder as fast adder assuming single and double faults. The philosophy can be generalized for any other system which has structural regularity within it.
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数字加法器双容错结构设计
在深亚微米技术时代,芯片的失效概率随着芯片密度的增加而增加。系统必须具备容错能力,以降低故障率,提高系统的可靠性。多个故障可能同时影响系统,并且在区域开销和可容忍的故障数量之间存在权衡。本文提出了单故障和双故障情况下,纹波进位加法器和条件和加法器作为快速加法器的容错结构设计。这种哲学可以推广到任何其他具有结构规律性的系统。
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Proceedings of the 2014 IEEE Students' Technology Symposium
Proceedings of the 2014 IEEE Students' Technology Symposium
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