Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Efficient VLSI Architecture for Code Convertors


Affiliations
1 SNS College of Technology, India
     

   Subscribe/Renew Journal


Reversible logic design(RLD) is gaining great importance due to its low power consumption and less dissipation of heat, especially Reversible logic gates(RLG) are employed in quantum computing, optical computing and designing low power CMOS, etc. Reversible logic design reduces the number of garbage output and reduces the complexity of the circuit. Code converters are widely used in digital systems for enhancing security, reducing the number of hardware components, minimizing the level of switching activities which reduces the power consumption and improves the speed of operation. In this paper we have simulated the design of code converters like Binary code to Gray code, Gray code to Binary code, BCD code to Excess-3 code and Excess-3 code to BCD code by using Reversible logic gates.

Keywords

Reversible Logic Gates, Code Converters.
User
Subscription Login to verify subscription
Notifications
Font Size

Abstract Views: 238

PDF Views: 3




  • Efficient VLSI Architecture for Code Convertors

Abstract Views: 238  |  PDF Views: 3

Authors

S. Vigneshwaran
SNS College of Technology, India
M. Vignesh
SNS College of Technology, India
M. Vinisha
SNS College of Technology, India
V. Malaravan
SNS College of Technology, India

Abstract


Reversible logic design(RLD) is gaining great importance due to its low power consumption and less dissipation of heat, especially Reversible logic gates(RLG) are employed in quantum computing, optical computing and designing low power CMOS, etc. Reversible logic design reduces the number of garbage output and reduces the complexity of the circuit. Code converters are widely used in digital systems for enhancing security, reducing the number of hardware components, minimizing the level of switching activities which reduces the power consumption and improves the speed of operation. In this paper we have simulated the design of code converters like Binary code to Gray code, Gray code to Binary code, BCD code to Excess-3 code and Excess-3 code to BCD code by using Reversible logic gates.

Keywords


Reversible Logic Gates, Code Converters.