This paper is published in Volume-4, Issue-3, 2018
Area
Electronics and Communication Engineering
Author
Ippe Nikhila, K. Divya, P. Raghava Reddy
Org/Univ
Geethanjali Institute of Science and Technology, Nellore, Andhra Pradesh, India
Pub. Date
12 June, 2018
Paper ID
V4I3-1839
Publisher
Keywords
Shift registers, Flip-flop, Pulsed latches, Low power, Efficient area

Citationsacebook

IEEE
Ippe Nikhila, K. Divya, P. Raghava Reddy. Low power and area efficient shift registers using pulsed latches, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
Ippe Nikhila, K. Divya, P. Raghava Reddy (2018). Low power and area efficient shift registers using pulsed latches. International Journal of Advance Research, Ideas and Innovations in Technology, 4(3) www.IJARIIT.com.

MLA
Ippe Nikhila, K. Divya, P. Raghava Reddy. "Low power and area efficient shift registers using pulsed latches." International Journal of Advance Research, Ideas and Innovations in Technology 4.3 (2018). www.IJARIIT.com.

Abstract

The power consumption and area reduction are the key challenges in the Very Large Scale Integration (VLSI) circuit design. The shift register is the main building block in the VLSI circuits. The shift register is composed of clock interconnection network and timing elements such as flip-flops and latches This clock entomb association system and timing component is the primary power and region expending component in the move enlist. This clock interconnection network and timing element is the main power and area consuming element in the shift register. This project introduces a low power and area efficient shift register using pulsed latch and pulse generation circuit. The area and power consumption will be reduced to 50%in the shift register if the Flip-Flop is replaced with the pulsed latch. This technique explains the timing problem between pulsed latches through the use of multiple non-overlap delayed pulsed clock signals as an alternative of the conventional single pulsed clock signal.