Low Power High Performance Sequential Logic Design
Details
Latches and flip-flops have a direct impact on power consumption and speed of VLSI systems. Therefore study on low-power and high performance latches and flip-flops is inevitable. In this book we delve into the details of TSPC pulsed latch design and optimization for low power. The proposed circuit uses MTCMOS technique resulting in significant energy savings. This proposed circuit outcomes existing designs and shows the best result. The leakage power is reduced by using best technique among all run time techniques viz. MTCMOS. Thereby comparison of different conventional flip-flops and TSPC flip-flop in terms of power consumption, propagation delays and product of power consumption and propagation delay with SPICE simulation results is calculated. This book also enumerates low power, high-speed design of D flip-flop. It presents technique to minimize subthreshold leakage power as well as the power consumption of the CMOS circuits. The proposed circuit in this book shows a design for D flip flop to increase the overall speed of the system as compared to other circuits. This technique allows circuit to achieve lowest power consumption
Autorentext
Kavita Mehta, presently in Mody Institute of Tech. & Science(MITS) as Assistant Prof., Department of ECE has obtained her B.E.(ECE)with Hons.from Rajasthan University, Jaipur in 2008 and M.Tech.(VLSI Design) from MITS(Deemed University)in 2011. She has published and presented many technical papers in National & International conferences/journals.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783659142055
- Genre Elektrotechnik
- Auflage Aufl.
- Sprache Englisch
- Anzahl Seiten 96
- Größe H220mm x B150mm x T6mm
- Jahr 2012
- EAN 9783659142055
- Format Kartonierter Einband
- ISBN 3659142050
- Veröffentlichung 06.06.2012
- Titel Low Power High Performance Sequential Logic Design
- Autor Kavita Mehta , Neha Arora
- Untertitel Low Power Optimization
- Gewicht 161g
- Herausgeber LAP LAMBERT Academic Publishing