Dynamic voltage & frequency scaling with online slack measurement

Abstract

Timing margins in FPGAs are already significant and as process scaling continues they will have to grow to guarantee operation under increased variation. Margins enforce worst-case operation even in typical conditions and result in devices operating more slowly and consuming more energy than necessary. This paper presents a method of dynamic voltage and frequency scaling that uses online slack measurement to determine timing headroom in a circuit while it is operating and scale the voltage and/or frequency in response. Doing so can significantly reduce power consumption or increase throughput with a minimal overhead. The method is demonstrated on a number of benchmark circuits under a range of operating conditions, constraints and optimisation targets.