Your search keyword '"confusion coefficient variance"' showing total 4 results

1. Revisiting the built-in resistance of S-Boxes against Correlation Power Analysis.

Author

Freyre Echevarría, Alejandro and Aulet, Ramsés Rodríguez

Subjects

DISTRIBUTION (Probability theory), COST functions, BLOCK ciphers, BOOLEAN functions, HAMMING weight

Published

2023

2. Search-Space Reduction for S-Boxes Resilient to Power Attacks.

Author

Legón-Pérez, Carlos Miguel, Sánchez-Muiña, Ricardo, Miyares-Moreno, Dianne, Bardaji-López, Yasser, Martínez-Díaz, Ismel, Rojas, Omar, and Sosa-Gómez, Guillermo

Subjects

HAMMING weight, CRYPTOGRAPHY

Abstract

The search of bijective n × n S-boxes resilient to power attacks in the space of dimension (2 n) ! is a controversial topic in the cryptology community nowadays. This paper proposes partitioning the space of (2 n) ! S-boxes into equivalence classes using the hypothetical power leakage according to the Hamming weights model, which ensures a homogeneous theoretical resistance within the class against power attacks. We developed a fast algorithm to generate these S-boxes by class. It was mathematically demonstrated that the theoretical metric confusion coefficient variance takes constant values within each class. A new search strategy—jumping over the class space—is justified to find S-boxes with high confusion coefficient variance in the space partitioned by Hamming weight classes. In addition, a decision criterion is proposed to move quickly between or within classes. The number of classes and the number of S-boxes within each class are calculated, showing that, as n increases, the class space dimension is an ever-smaller fraction of the space of S-boxes, which significantly reduces the space of search of S-boxes resilient to power attacks, when the search is performed from class to class. [ABSTRACT FROM AUTHOR]

Published

2021

3. Search-Space Reduction for S-Boxes Resilient to Power Attacks

Author

Carlos Miguel Legón-Pérez, Ricardo Sánchez-Muiña, Dianne Miyares-Moreno, Yasser Bardaji-López, Ismel Martínez-Díaz, Omar Rojas, and Guillermo Sosa-Gómez

Subjects

power attacks, cryptology, confusion coefficient variance, S-boxes, equivalence classes, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The search of bijective n×n S-boxes resilient to power attacks in the space of dimension (2n)! is a controversial topic in the cryptology community nowadays. This paper proposes partitioning the space of (2n)! S-boxes into equivalence classes using the hypothetical power leakage according to the Hamming weights model, which ensures a homogeneous theoretical resistance within the class against power attacks. We developed a fast algorithm to generate these S-boxes by class. It was mathematically demonstrated that the theoretical metric confusion coefficient variance takes constant values within each class. A new search strategy—jumping over the class space—is justified to find S-boxes with high confusion coefficient variance in the space partitioned by Hamming weight classes. In addition, a decision criterion is proposed to move quickly between or within classes. The number of classes and the number of S-boxes within each class are calculated, showing that, as n increases, the class space dimension is an ever-smaller fraction of the space of S-boxes, which significantly reduces the space of search of S-boxes resilient to power attacks, when the search is performed from class to class.

Published

2021

4. Search-Space Reduction for S-Boxes Resilient to Power Attacks

Author

Ricardo Sánchez-Muiña, Omar Rojas, Dianne Miyares-Moreno, Carlos Miguel Legón-Pérez, Guillermo Sosa-Gómez, Ismel Martínez-Díaz, and Yasser Bardaji-López

Subjects

Technology, Class (set theory), QH301-705.5, QC1-999, 0102 computer and information sciences, 02 engineering and technology, S-boxes, Space (mathematics), Computer Science::Digital Libraries, 01 natural sciences, Reduction (complexity), Dimension (vector space), 0202 electrical engineering, electronic engineering, information engineering, power attacks, General Materials Science, Biology (General), Hamming weight, QD1-999, Instrumentation, Mathematics, Fluid Flow and Transfer Processes, Discrete mathematics, Physics, Process Chemistry and Technology, equivalence classes, General Engineering, Engineering (General). Civil engineering (General), confusion coefficient variance, Computer Science Applications, Chemistry, 010201 computation theory & mathematics, Metric (mathematics), Bijection, Computer Science::Programming Languages, 020201 artificial intelligence & image processing, TA1-2040, cryptology, Hamming code

Abstract

The search of bijective n×n S-boxes resilient to power attacks in the space of dimension (2n)! is a controversial topic in the cryptology community nowadays. This paper proposes partitioning the space of (2n)! S-boxes into equivalence classes using the hypothetical power leakage according to the Hamming weights model, which ensures a homogeneous theoretical resistance within the class against power attacks. We developed a fast algorithm to generate these S-boxes by class. It was mathematically demonstrated that the theoretical metric confusion coefficient variance takes constant values within each class. A new search strategy—jumping over the class space—is justified to find S-boxes with high confusion coefficient variance in the space partitioned by Hamming weight classes. In addition, a decision criterion is proposed to move quickly between or within classes. The number of classes and the number of S-boxes within each class are calculated, showing that, as n increases, the class space dimension is an ever-smaller fraction of the space of S-boxes, which significantly reduces the space of search of S-boxes resilient to power attacks, when the search is performed from class to class.

Published

2021