Power and performance evaluation of globally asynchronous locally synchronous processors

We use a cycle-accurate simulation environment to study the impact of asynchrony in a superscalar processor architecture. Our results show that as expected, going from a synchronous to a globally asynchronous locally synchronous (GALS) design causes a drop in performance, but elimination of the global clock does not lead to drastic power reductions. From a power perspective, GALS designs are inherently less efficient when compared to synchronous architectures. However, the flexibility offered by the independently controllable local clocks enables the effective use of other energy conservation techniques like dynamic voltage scaling. Our results show that for a 5-clock domain GALS processor, the drop in performance ranges between 5-15%, while power consumption is reduced by 10% on the average. Fine-grained voltage scaling reduces the gap between fully synchronous and GALS implementations, allowing for better power efficiency