Revolutionary Quantum Algorithm Accelerates Solving Multivariate Quadratic Equations β‘
Discover how Kelsey Horan's cutting-edge quantum algorithm significantly speeds up solving complex multivariate quadratic equations. Learn about the latest advancements in quantum computing that could transform cryptography and computational mathematics.
Experimental mathematics
157 views β’ Feb 24, 2018
About this video
Date: February 22, 2018
Speaker: Kelsey Horan, CUNY
Title: Fast Quantum Algorithm for Solving Multivariate Quadratic Equations
Abstract:
After the announcement for the transition to post-quantum secure cryptographic constructions by the US National Security Agency the cryptography community has been working towards developing and evaluating standards. Of particular interest is the calculation of the quantum bit security for many proposed post-quantum cryptosystems. This talk addresses the problem of solving a system of m boolean multivariate quadratic equations in n variables, the MQ2 problem -- a problem that is central to evaluating the quantum security of many cryptosystems. A Las-Vegas quantum algorithm for solving the boolean multivariate quadratic problem, which requires in expectation the evaluation of O(2^(0.462n)) quantum gates, will be presented.
Speaker: Kelsey Horan, CUNY
Title: Fast Quantum Algorithm for Solving Multivariate Quadratic Equations
Abstract:
After the announcement for the transition to post-quantum secure cryptographic constructions by the US National Security Agency the cryptography community has been working towards developing and evaluating standards. Of particular interest is the calculation of the quantum bit security for many proposed post-quantum cryptosystems. This talk addresses the problem of solving a system of m boolean multivariate quadratic equations in n variables, the MQ2 problem -- a problem that is central to evaluating the quantum security of many cryptosystems. A Las-Vegas quantum algorithm for solving the boolean multivariate quadratic problem, which requires in expectation the evaluation of O(2^(0.462n)) quantum gates, will be presented.
Video Information
Views
157
Likes
4
Duration
15:37
Published
Feb 24, 2018
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