A New Implementation for a 2^n-1 Modular Adder Through Carbon Nanotube Field Effect Transistors
Author(s):
Abstract:
The modulo 2n ±1 are the most applied modulo set in residue number system (RNS). The modulo adder 2n − 1 is very important due to its variety of applications in DSP, like addition/subtraction and multiplication in digital filters, cryptography, fault detection, fault correction and checksum. In this article, by applying carbon nanotube transistors based on End Around Carry structure, a modulo adder 2n −1 is implemented. The problems are analyzed and in order to fix them and improve the orbital parameters, a new design is proposed. Through this design, the problem for two representations of zero are solved, and by taking advantage of a structure for fast calculation of carry, the orbital parameters are upgraded. The circuits are simulated by Hspice simulation tools and their performances are verified. Simulation results confirm the superior performance of this proposed design compared to the EAC (End Around Carry) structure.
Keywords:
RNS , Modulo Adder , Nanoelectronic , CNFET
Language:
English
Published:
Journal of Computing and Security, Volume:2 Issue: 2, Spring 2015
Pages:
129 to 139
magiran.com/p1538616
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