Utilizing the effect of relative delay on energy dissipation in low-power on-chip buses

摘要

This paper presents an analysis of how the power dissipation of on-chip buses is affected by introducing a relative delay between the switching lines. Relative delay is shown to reduce the dissipated power of oppositely switching lines while causing a power penalty for similarly switching lines. A new low-power bus scheme that uses this effect is proposed and analyzed. As the introduced delay increases, the achieved power reduction increases while decreasing the bus throughput. Thus, a tradeoff between power reduction and throughput is required when selecting the imposed relative delay. The proposed low-power scheme, dynamic delayed line bus (DDL) scheme, led to a power reduction of up to 25%, 33%, and 42% when applied to data, address, and differential buses, respectively. Simple DDL hardware is designed and implemented in a 0.18-Μm TSMC CMOS technology and applied to a 4500-Μm long Metal4 bus. Circuit simulation results for different bus widths are presented.