Low power FIR filter realization with differential coefficients and input

Abstract

Most FIR filter realizations use the inputs and coefficients directly to compute the convolution. In this paper, we present a low power and high speed FIR filter designs by using first order difference between inputs and various orders of differences between coefficients. This design first reformulates the FIR operations with the differences in algorithm level. Then, ill architecture level, we adopt the DA architecture to exploit the probability distribution such that power consumption can be reduced further. The design is applied to an example FIR filter to quantify the energy savings and speedup. It shows lower power consumption than the previous design with the comparable performance.