Inexact Signed Wallace Tree Multiplier Design Using Reversible Logic

This paper proposes an inexact Baugh-Wooley Wallace tree multiplier with novel architecture for inexact 4:2 compressor optimised for realisation using reversible logic. The proposed inexact 4:2 compressor has ±1 Error Distance (ED) and 12.5% Error Rate (ER). The efficacy of the proposed reversible logic based realisation of the proposed inexact 4:2 compressor and Baugh-Wooley Wallace tree multiplier is measured in scales of Gate Count (GC), Quantum Cost (QC), Garbage Output (GO) and Ancilla Input (AI). The proposed inexact 4:2 compressor is able to reduce reversible logic realisation metrics GC, QC, GO and AI by 50%, 15%, 25% and 11.11% as compared to reversible logic realisation of exact 4:2 compressor. An $8\,\, \times \,\,8$ Baugh-Wooley Wallace tree multiplier is implemented in this paper. The accuracy metrics MED and MRED are measured for the proposed multiplier and is found to be the least among existing inexact compressor based multiplier designs. MED and MRED of the proposed multiplier is 59.16 and 0.0109 respectively. The proposed multiplier is utilised in two applications 1) image processing - one level decomposition using rationalised db6 wavelet filter bank and image smoothing and 2) Convolutional Neural Networks (CNN). The efficacy of the proposed multiplier in image processing applications is estimated by measuring Structural Similarity Index Measure (SSIM) which is found to be 0.96 and 0.84 for image decomposition and smoothing respectively. In CNN based application, the efficiency is measured in scales of accuracy and is found to be 97.1%.