Possibilities to miss predicting timing errors in canary flip-flops

Yuji Kunitake,Toshinori Sato,Hiroto Yasuura,Takanori Hayashida

Possibilities to miss predicting timing errors in canary flip-flops

2011

Yuji Kunitake
Toshinori Sato
Hiroto Yasuura
Takanori Hayashida

Deep submicron technologies increase parameter variations, which will make microprocessor designs very difficult, since every variation requires a large safety margin for achieving specified timing yield. This means higher supply voltage, which results in large energy consumption. Razor flip-flop (FF) is a clever technique to eliminate the supply voltage margin by exploiting circuit-level timing speculation. It combines dynamic voltage scaling technique with the error detection and recovery mechanism. We are studying an alternative timing-error-predicting FF, named canary FF. This paper discusses a critical issue regarding the canary FF. Detailed gate- and architectural-level co-simulations unveil that canary FF occasionally misses predicting timing errors.

Keywords:

Energy consumption
Error detection and correction
FLOPS
Computer science
Flip-flop
Voltage
Electronic engineering
Microprocessor
Dynamic voltage scaling
safety margin
recovery mechanism

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