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ARTÍCULO
TITULO

Design and Validation of Low-Power Secure and Dependable Elliptic Curve Cryptosystem

Bikash Poudel    
Arslan Munir    
Joonho Kong and Muazzam A. Khan    

Resumen

The elliptic curve cryptosystem (ECC) has been proven to be vulnerable to non-invasive side-channel analysis attacks, such as timing, power, visible light, electromagnetic emanation, and acoustic analysis attacks. In ECC, the scalar multiplication component is considered to be highly susceptible to side-channel attacks (SCAs) because it consumes the most power and leaks the most information. In this work, we design a robust asynchronous circuit for scalar multiplication that is resistant to state-of-the-art timing, power, and fault analysis attacks. We leverage the genetic algorithm with multi-objective fitness function to generate a standard Boolean logic-based combinational circuit for scalar multiplication. We transform this circuit into a multi-threshold dual-spacer dual-rail delay-insensitive logic (MTD3L" role="presentation" style="position: relative;">??????3??MTD3L M T D 3 L ) circuit. We then design point-addition and point-doubling circuits using the same procedure. Finally, we integrate these components together into a complete secure and dependable ECC processor. We design and validate the ECC processor using Xilinx ISE 14.7" role="presentation" style="position: relative;">14.714.7 14.7 and implement it in a Xilinx Kintex-7 field-programmable gate array (FPGA).

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