Hybrid ADDer: A Viable Solution for Efficient Design of MAC in DNNs

Abstract

This research article proposes a solution for efficient hardware implementation of deep neural networks (DNNs) in Edge-AI applications. An effective Hybrid ADDer (HADD) block for accumulation in fixed-point multiply-accumulate (MAC) operation is developed to overcome area and power limitations. The proposed HADD design offers a considerable reduction in area and power consumption, with a tolerable accuracy loss and reduced latency. The inference results show an accuracy of 96.97 and 96.64% for MNIST and A-Z Handwritten Alphabet datasets, respectively, using the LeNet-5 DNN model. Compared to the conventional adder implementation, the proposed HADD design reduces area utilization by 44% and power consumption by 51%, with a reduction in delay of 19% for 8-bit precision at 180 nm. For the same bit precision, the proposed design reduces area by 31%, power consumption by 34%, and delay by 8.1% at 45 nm. The proposed design further investigates edge detection applications, and the results for different standard images were promising. Overall, the proposed accumulator arithmetic block is a viable solution for error-tolerant AI applications, including DNN for image classification, object recognition, and other image-processing applications. © 2023, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.