This paper is published in Volume-2, Issue-6, 2016
Area
VLSI
Author
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain
Org/Univ
LNCT, Bhopal, India
Keywords
Full adder, CMOS Circuit, C5 Process, Carry look ahead adder, Transient analysis.
Citations
IEEE
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain. Optimization, Analysis and Comparison of 4 and 16 bit Carry look Ahead Adders using 0.3μm Process Technology for SCMOS, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.
APA
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain (2016). Optimization, Analysis and Comparison of 4 and 16 bit Carry look Ahead Adders using 0.3μm Process Technology for SCMOS. International Journal of Advance Research, Ideas and Innovations in Technology, 2(6) www.IJARIIT.com.
MLA
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain. "Optimization, Analysis and Comparison of 4 and 16 bit Carry look Ahead Adders using 0.3μm Process Technology for SCMOS." International Journal of Advance Research, Ideas and Innovations in Technology 2.6 (2016). www.IJARIIT.com.
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain. Optimization, Analysis and Comparison of 4 and 16 bit Carry look Ahead Adders using 0.3μm Process Technology for SCMOS, International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.
APA
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain (2016). Optimization, Analysis and Comparison of 4 and 16 bit Carry look Ahead Adders using 0.3μm Process Technology for SCMOS. International Journal of Advance Research, Ideas and Innovations in Technology, 2(6) www.IJARIIT.com.
MLA
Ruchi Rai, Prof. L N Gahalod, Dr. Rita Jain. "Optimization, Analysis and Comparison of 4 and 16 bit Carry look Ahead Adders using 0.3μm Process Technology for SCMOS." International Journal of Advance Research, Ideas and Innovations in Technology 2.6 (2016). www.IJARIIT.com.
Abstract
- A method illustrated in this is to design carry look ahead adders using SCMOS technology, also analyzed the effect of various parameters on the characteristics of adders, using 50 nm, spice model for CMOS technology. The design was implemented for 16 bit and then extended for 32 bit also. Here parameters are computed and response curves are computed between all characteristics, DC and transient characteristics. The design and simulations are carried out to achieve these values approximately. Design will be carried out in Electric CAD and Xilinx. Simulation results are verified using Modelsim and LTSpice. The DRC, LVS/NCC, transient checks are performed in the proposed design. Noise analysis is also done. In comparison with the existing full adder designs, the present implementation will offer significant improvement in terms of frequency.