Title :
Power Aware and Delay Efficient Hybrid CMOS Full-Adder for Ultra Deep Submicron Technology
Author :
Konijeti, Narasimha Rao ; Ravindra, J.V.R. ; Yagateela, P.
Author_Institution :
Center for Adv. Res. Comput. Lab. (C-ARCL), Vardhaman Coll. of Eng., Hyderabad, India
Abstract :
Low-power circuits are becoming more attractive due to growing of portable device markets. The 1-bit full adder cell is the key building block for any ASIC design. Designing of such low power full-adder circuits is always a challenging concern for any design research. In this paper, we present a new full-adder cell which is designed with multiple pass transistor logic styles, in which some of them use no power/ground rail approach that helps to reduce power. The proposed full-adder was compared with existing low power full adder cells. All these full-adder cells are designed using Generic Process Design Kit (GPDK) 45 nm technology and they are designed in Cadence virtuoso environment and simulated with Cadence spectre simulator. Pre-layout test bench Simulation results shown that proposed full-adder has the advantage of 60% power savings, 32% Speed Improvements and 72% energy improvements.
Keywords :
CMOS logic circuits; adders; application specific integrated circuits; delay circuits; logic design; low-power electronics; ASIC design; Cadence spectre simulator; Cadence virtuoso environment; GPDK technology; full-adder cell; generic process design kit technology; low power full-adder circuits; multiple pass transistor logic styles; portable device markets; power aware-delay efficient hybrid CMOS full-adder; pre-layout test bench simulation; size 45 nm; ultra deep submicron technology; word length 1 bit; Adders; CMOS integrated circuits; Delays; Layout; Multiplexing; Simulation; Transistors; VLSI circuit design; full-adder; low-power; pass transistor logic;
Conference_Titel :
Modelling Symposium (EMS), 2013 European
Conference_Location :
Manchester
Print_ISBN :
978-1-4799-2577-3
DOI :
10.1109/EMS.2013.117
