Low Power and Area Efficient Borrow Save Adder for MAC Unit in VLSI Application

In hypercompetitive embedded system environment, to develop the unique characteristic of machine learning computation for more efficient MAC design for reduced both the area and power. In this paper, Multiply–accumulate (MAC) computations account for a large part of machine learning accelerator operations use in pipelined structure is usually adopted to improve the performance by reducing the number of adder circuits. The proposed a pipelining method that eliminates some of the flip-flops in carry look adder in selectively. Here, introduce the applying the Feed forward-Cutset-Free (FCF) pipelining method in borrow save adder (BSA) to the accumulator by reducing the design, optimized the power dissipation and undesired data transition in (MFCF-PA). From the FPGA Xilinx simulation output result shows that, the MAC unit reached between 15% and 25% energy saving and area reduction of 15% over the existing carry look ahead adder (CLA) conformist pipelined MAC units.