A Novel Combined Correlation Power Analysis (CPA) Attack on Schoolbook Polynomial Multiplication in Lattice-based Cryptosystems

Lu, Chuanchao; Cui, Yijun; Khalid, Ayesha; Gu, Chongyan; Wang, Chenghua; Liu, Weiqiang

doi:10.1109/socc56010.2022.9908076

2022 IEEE 35th International System-on-Chip Conference (SOCC) 2022

DOI: 10.1109/socc56010.2022.9908076

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A Novel Combined Correlation Power Analysis (CPA) Attack on Schoolbook Polynomial Multiplication in Lattice-based Cryptosystems

Chuanchao Lu

Yijun Cui

Ayesha Khalid

et al.

Abstract: The lattice-based cryptography problems are known to be secure against the quantum computing attacks, till date no known quantum algorithm is able to solve these hard problems in lattices. Their naive implementations on embedded devices are, however, vulnerable to side-channel analysis (SCA) attacks with full key recovery possible via power/EM leakage analysis. This work analyses and attacks the power side channel leakage in the baseline hardware architecture of schoolbook polynomial multiplication, that is an… Show more

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2024

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FPGA Based Accelerator for Implementation of Large Integer Polynomials

Kamala,

Prasad

2024

International Journal of Innovative Science and Research Techno

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A 13-bit multiplier is implemented on the Artix- 7 100T FPGA using a divide-and-conquer algorithm. The designis coded in SystemVerilog, leveraging its powerful features for hardware description and synthesis. The divide-and-conquer approach breaks down the multiplication task into smaller sub- tasks, enhancing efficiency and reducing complexity. The FPGA’s high- performance capabilities, particularly on the Artix-7 100T board, make it well-suited for accelerating the computations involved. Additionally, Area Delay Product (ADP) tools are employed to evaluate the algorithm’s efficiency. This project aims to showcase the synergy between algorithmic design, hardware implementation, and FPGA capabilities, emphasizing the versa- tility of the Artix-7 100T FPGA in handling complex arithmetic operations.

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FPGA Based Accelerator for Implementation of Large Integer Polynomials

Kamala,

Prasad

2024

International Journal of Innovative Science and Research Techno

View full text Add to dashboard Cite

show abstract

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A Novel Combined Correlation Power Analysis (CPA) Attack on Schoolbook Polynomial Multiplication in Lattice-based Cryptosystems

Cited by 1 publication

References 13 publications

FPGA Based Accelerator for Implementation of Large Integer Polynomials

FPGA Based Accelerator for Implementation of Large Integer Polynomials

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