Title :
A 1024 bit RSA coprocessor in CMOS
Author :
da Costa, Caio A. ; Moreno, Robson L. ; Carpinteiro, Otavio S. A. ; Pimenta, Tales C.
Author_Institution :
Dept. of Microelectron., Univ. Fed. de Itajuba - UNIFEI, Itajuba, Brazil
Abstract :
This paper presents the architecture and model of a modular exponentiation hardware for RSA public key cryptography algorithm. A radix-2 Montgomery modular multiplication hardware based on a systolic implementation was designed. A kogge-stone adder was designed to reduce the critical path and improve throughput. The data path and dataflow of the Montgomery modular multiplier and the exponentiation hardware is fully exploited. Cadence© Encounter RTL Compiler was used to synthesize the RTL code described in Verilog HDL. The coprocessor was implemented with standard cells library from 0.18μm CMOS IBM 7RF technology. This implementation runs 1024 bit RSA encryption and decryption process in 8.44ms and the throughput of this implementation is 121.269Kbps.
Keywords :
CMOS logic circuits; adders; coprocessors; logic design; multiplying circuits; public key cryptography; CMOS IBM 7RF technology; Cadence Encounter RTL Compiler; RSA coprocessor; RSA decryption process; RSA public key cryptography algorithm; RTL code; Verilog HDL; bit rate 121.269 kbit/s; critical path; data path; dataflow; exponentiation hardware; kogge-stone adder; modular exponentiation hardware; radix-2 Montgomery modular multiplication hardware; size 0.18 mum; standard cells library; time 8.44 ms; word length 1024 bit; CMOS integrated circuits; Computer architecture; Encryption; Gold; Public key; Semiconductor device modeling; ASIC; CMOS; Cryptography; Montgomery Modular Multiplication; RSA; VLSI;
Conference_Titel :
Microelectronics (ICM), 2013 25th International Conference on
Conference_Location :
Beirut
Print_ISBN :
978-1-4799-3569-7
DOI :
10.1109/ICM.2013.6734980
