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An efficient hardware implementation of the elliptic curve cryptographic processor over prime field,

Thirumalesu Kudithi, R. Sakthivel

2020International Journal of Circuit Theory and Applications40 citationsDOI

Abstract

Summary Elliptic curve cryptography (ECC) schemes are widely adopted for the digital signature applications due to their key sizes, hardware resources, and higher security per bit than Rivest‐Shamir‐Adleman (RSA). In this work, we proposed a new hardware architecture for elliptic curve scalar multiplication (ECSM) in Jacobian coordinates over prime field, . This is a combination of point doubling and point addition architecture, implemented using resource sharing concept to achieve high speed and low hardware resources, which is synthesized both in field‐programmable gate array (FPGA) and application‐specific integrated circuit (ASIC). The proposed ECSM takes 1.76 and 2.44 ms on Virtex‐7 FPGA platform over 224‐bit and 256‐bit prime field, respectively. Similarly, ASIC (GF 40 nm complementary metal‐oxide semiconductor [CMOS]) technology implementation provides energy efficient with a latency of 0.46 and 0.6 ms over prime field and , respectively. This design provides better area‐delay product and high throughput value in both FPGA and ASIC when compared with other designs.

Topics & Concepts

Application-specific integrated circuitComputer scienceElliptic curve cryptographyField-programmable gate arrayScalar multiplicationCryptographyComputer hardwareElliptic Curve Digital Signature AlgorithmEmbedded systemParallel computingElliptic curveAlgorithmPublic-key cryptographyMathematicsEncryptionMathematical analysisOperating systemCryptography and Residue ArithmeticCryptography and Data SecurityCoding theory and cryptography
An efficient hardware implementation of the elliptic curve cryptographic processor over prime field, | Litcius