Title :
An Arithmetic and Logic Unit Optimized for Area and Power
Author :
Dubey, Vikas ; Sairam, Ravimohan
Author_Institution :
Dept. of ECE, Shri Ram Inst. of Technol., Jabalpur, India
Abstract :
This paper presents a design of a 4-bit arithmetic logic unit (ALU) by taking vantage of the concept of gate diffusion input (GDI) technique. ALU is the most crucial and core component of central processing unit as well as of numbers of embedded system and microprocessors. In this, ALU consists of 4×1 multiplexer, 2×1 multiplexer and full adder designed to implements logic operations, such as AND, OR, etc. and arithmetic operations, as ADD and SUBTRACT. GDI cells are used in the design of multiplexers and full adder which are then associated to realize ALU. The simulation is carried out Tanner EDA 13.0 simulator using TSMC BSIM 250nm technologies and compared with previous designs realized with Pass transistor logic and CMOS logic. The simulation shows that the design is more efficient with less power consumption, less surface area and is faster as compared to pass transistor and CMOS techniques.
Keywords :
adders; circuit optimisation; circuit simulation; digital arithmetic; electronic design automation; logic design; logic gates; multiplexing equipment; power aware computing; 2x1 multiplexer; 4-bit ALU design; 4-bit arithmetic logic unit design; 4x1 multiplexer; GDI cells; TSMC BSIM technologies; Tanner EDA 13.0 simulator; arithmetic operations; central processing unit; embedded system; full adder; gate diffusion input technique; logic operations; microprocessors; power consumption; size 250 nm; surface area; word length 4 bit; Adders; CMOS integrated circuits; CMOS technology; Logic gates; Multiplexing; Power demand; Transistors; ALU; GDI technique; Pass transistor gate;
Conference_Titel :
Advanced Computing & Communication Technologies (ACCT), 2014 Fourth International Conference on
Conference_Location :
Rohtak
DOI :
10.1109/ACCT.2014.70
