Efficient design of 15:4 counter using a novel 5:3 counter for high‐speed multiplication
Hemanth Krishna L., M. Neeharika, Vishvanath Janjirala, Sreehari Veeramachaneni, Noor Mahammad Sk
Abstract
Abstract This paper proposes an efficient approach to design high‐speed, accurate multipliers. The proposed multiplier design uses the proposed efficient 15:4 counter for the partial product reduction stage. This proposed 15:4 counter is designed using a novel 5:3 counter. The proposed 5:3 counter uses input re‐ordering circuitry at the input side. As a result, the number of output combinations can be reduced to 18 from 32. As a result, the circuit complexity reduces. The proposed 5:3 counter and 15:4 counter are on an average 28% and 19% improvement in the power delay product compared with the existing designs. The 16‐bit multiplier designed using 5:3 and 15:4 counters is an average 22.5% improvement in power delay product compared with the existing designs.