Modified Multiply and Accumulate Unit with Hybrid Encoded Reduced Transition Activity Technique Equipped Multiplier and Low Power 0.13µm Adder for Image Processing Applications

This paper explores the design approach of a low power high performance Multiply and Accumulate (MAC) unit with Hybrid Encoded Reduced Transition Activity Technique (HERTAT) equipped multiplier and low power 0.13'm adder. The developed low power MAC unit is verified for image processing systems exploiting insignificant bits in pixels values and the similarity of neighboring pixels in video streams. The proposed technique reduces dynamic power consumption by analyzing the bit patterns in the input data to reduce switching activities. If the number of 1’s less than or equal to three the proposed encoding technique used otherwise go for Booth technique. The proposed adder cell used in the MAC block consumes less power than the other previous adder techniques. This high performance low power MAC can be used in image processing. It is observed from the device level simulation using TANNER 12.6 EDA, that the proposed scheme helps to reduce the switching activities in the MAC unit up to 19% and saves power up to 46%.