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Synthesis and Analysis of 32-Bit RSA Algorithm Using VHDL


Affiliations
1 ECE Section, Yadavindra College of Engineering, Talwandi Sabo, India
 

This paper presents the implementation of RSA algorithm design using VHDL. The Xilinx ISE 14.1 is used with device Spartan-3. In [1], the RSA encryption technique is implemented by using right to left binary radix-2 montmgomery multiplier. This paper presents the implementation of encryption technique by using left to right radix-2 montmgomery multiplier. The modular exponentiation is used for encryption and decryption of RSA algorithm. The device utilization is improved by 14%. The delay is improved by 2%. The frequency of the implementation is 79.546 MHz and is increased by 4.5%. Hence, the presented work is area and delay efficient than previous work.

Keywords

Encryption, RSA, FPGA, VHDL, Delay.
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  • Synthesis and Analysis of 32-Bit RSA Algorithm Using VHDL

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Authors

Sandeep Singh
ECE Section, Yadavindra College of Engineering, Talwandi Sabo, India
Parminder Singh Jassal
ECE Section, Yadavindra College of Engineering, Talwandi Sabo, India

Abstract


This paper presents the implementation of RSA algorithm design using VHDL. The Xilinx ISE 14.1 is used with device Spartan-3. In [1], the RSA encryption technique is implemented by using right to left binary radix-2 montmgomery multiplier. This paper presents the implementation of encryption technique by using left to right radix-2 montmgomery multiplier. The modular exponentiation is used for encryption and decryption of RSA algorithm. The device utilization is improved by 14%. The delay is improved by 2%. The frequency of the implementation is 79.546 MHz and is increased by 4.5%. Hence, the presented work is area and delay efficient than previous work.

Keywords


Encryption, RSA, FPGA, VHDL, Delay.