Title :
A 14-transistor low power high-speed full adder cell
Author :
Khatibzadeh, Amir Ali ; Raahemifar, Kaamran
Author_Institution :
Dept. of Electr. & Comput. Eng., Ryerson Univ., Toronto, Ont., Canada
Abstract :
This paper describes the design of a high-speed low-power 1-bit full adder cell. The main design objectives for this adder circuit are low power consumption and higher speed at low supply voltage. Using pseudo-NMOS together with two inverters this adder cell has been designed in 0.18-μ CMOS process. Considering transistor chaining, grouping, and signal sequencing in our proposed adder layout which all have noticeable impacts on the circuit performance, shows substantial power saving and speed improvement at no area penalty. Inverters act as drivers. Therefore, each stage will not suffer degradation in its deriving capabilities. This saves power, area, and time. This adder cell in 0.18-μ CMOS process has an average delay time of 0.077 ns. It also exhibits low average power dissipation of 0.156×10-3 W at frequency equal to 4 GHz. The proposed full adder circuit has shown to provide superior performance.
Keywords :
CMOS logic circuits; adders; low-power electronics; 0.156E-3 W; 0.18 micron; 1 bit; 4 GHz; CMOS process; adder circuit; grouping; high-speed low-power 1-bit full adder cell; pseudo-NMOS; signal sequencing; transistor chaining; Adders; CMOS process; Circuit optimization; Degradation; Delay effects; Driver circuits; Energy consumption; Inverters; Low voltage; Power dissipation;
Conference_Titel :
Electrical and Computer Engineering, 2003. IEEE CCECE 2003. Canadian Conference on
Print_ISBN :
0-7803-7781-8
DOI :
10.1109/CCECE.2003.1226368
