High-speed and low-power scalable Hamming weight comparator based on a non-weighted switched-capacitor array

摘要

Many practical applications require a comparison of the Hamming weights of two N-bit binary vectors. This comparison can be performed in a fully digital manner or by a mix of analog and digital techniques. In this paper, we propose a design in the latter category that exhibits advantages in speed and power dissipation compared with the best previous designs. The proposed design comprises of two switched-capacitor arrays associated with two comparators placed in parallel, collectively providing a complete comparison outcome of ">", "<", or "=". The switched-capacitor array circuit is composed of uniform capacitances, thus associating identical charges with all bits, independent of their positions in the input bit-vectors. Once charge accumulation has occurred based on the asserted inputs, the two comparators release the final decision concurrently. The structure is shown to support wide input vectors on the order of 64 bits, while requiring a small silicon area for capacitor array structures, CMOS switches, and latched comparators to compute and store the comparison outcome. HSPICE simulation shows a total power consumption of 1.136 mW, evaluated at the operating frequency of 1 GHz (based on input-to-decision delay) for 16 bit input vectors under 0.15 μm TSMC technology.