Title :
Power reduction technique using adiabatic logic
Author :
Turaga, Sriraj Dheeraj ; Jyothi, E. Arun ; Datta Sai, K. Jaya
Author_Institution :
Dept. of E & C, GITAM Univ., Visakhapatnam, India
Abstract :
This paper presents the implementation of a 4-bit serial in serial out (SISO) shift register and a 2-to-1 multiplexer using Complementary Energy Path Adiabatic Logic (CEPAL). This static adiabatic logic has proved its advantage through the minimization of the l/2CVdd2 energy dissipation occurring every cycle. Firstly, the performance characteristics of CEPAL basic gates are compared against the conventional static CMOS logic counterpart to identify its adiabatic power advantage. The basic gates - NOT, NAND, NOR, XOR have been simulated. Finally a 4-bit serial in serial out (SISO) shift register is implemented with both the technologies and comparisons have been made. The analysis is carried out using the industry standard EDA design environment using 250 nm technology libraries from Tanner. The results prove that the CEPAL shift register is 76% more power efficient than the CMOS shift register at 100MHz and at 2.5V operating voltage.
Keywords :
logic design; logic gates; low-power electronics; shift registers; CEPAL; EDA design; NAND gate; NOR gate; NOT gate; SISO shift register; XOR gate; complementary energy path adiabatic logic; energy dissipation minimization; multiplexer; power reduction technique; serial-in serial-out shift register; size 250 nm; static adiabatic logic; voltage 2.5 V; word length 4 bit; CMOS integrated circuits; Clocks; Logic gates; MOSFET; Multiplexing; Shift registers; Complementary Energy Path Adiabatic Logic (CEPAL); Low Power; Multiplexer(MUX); Power Clock(PC); Serial in Serial out (SISO); Shift Register; Static Adiabatic logic; Very Large Scale Integration(VLSI);
Conference_Titel :
Circuit, Power and Computing Technologies (ICCPCT), 2014 International Conference on
Print_ISBN :
978-1-4799-2395-3
DOI :
10.1109/ICCPCT.2014.7055018
