A Multidisciplinary Hyper-Modeling Scheme in Personalized In Silico Oncology: Coupling Cell Kinetics with Metabolism, Signaling Networks and Biomechanics as Plug-In Component Models of a Cancer Digital Twin
Kolokotroni, E
Abler, D
Ghosh, A
Tzamali, E
Grogan, J
Georgiadi, E
Büchler, P
Radhakrishnan, R
Byrne, H
Sakkalis, V
Nikiforaki, K
Karatzanis, I
McFarlane, N
Kaba, D
Dong, F
Bohle, R
Meese, E
Graf, N
Stamatakos, G
Topological classification of tumour-immune interactions and dynamics
Yang, J
Fang, H
Dhesi, J
Yoon, I
Bull, J
Byrne, H
Harrington, H
Grindstaff, G
(09 Aug 2023)
Understanding how chromatin folding and enzyme competition affect rugged epigenetic landscapes
Stepanova, D
Guasch, M
Byrne, H
Alarcón, T
(09 Sep 2024)
Migration of magnetic microparticles through a liquid–liquid interface under an external magnetic field
Mondal, S
Abbasi, N
Tsai, S
Griffiths, I
Physics of Fluids
volume 37
(05 Feb 2025)
Transforming CCTV cameras into NO$_2$ sensors at city scale for adaptive
policymaking
Ibrahim, M
Lyons, T
(28 Dec 2024)
policymaking
Algebraic framework for determining laminar pattern bifurcations by
lateral-inhibition in 2D and 3D bilayer geometries
Moore, J
Dale, T
Woolley, T
(25 Apr 2021)
http://arxiv.org/abs/2104.12142v2
lateral-inhibition in 2D and 3D bilayer geometries
Numerical computation of the Schwarz function
Trefethen, L
(01 Jan 2025)
Unbounded growth of band-limited functions
Trefethen, L
(01 Jan 2025)
Poincaré inequality for one forms on four manifolds with bounded Ricci curvature
Honda, S
Mondino, A
Archiv der Mathematik
(20 Jan 2025)
Mon, 27 Jan 2025
16:00
16:00
C4
Applied analytic number theory
Cédric Pilatte
(University of Oxford)
Abstract
The security of many widely used communication systems hinges on the presumed difficulty of factoring integers or computing discrete logarithms. However, Shor's celebrated algorithm from 1994 demonstrated that quantum computers can perform these tasks in polynomial time. In 2023, Regev proposed an even faster quantum algorithm for factoring integers. Unfortunately, the correctness of his new method is conditional on an ad hoc number-theoretic conjecture. Using tools from analytic number theory, we establish a result in the direction of Regev's conjecture. This enables us to design a provably correct quantum algorithm for factoring and solving the discrete logarithm problem, whose efficiency is comparable to Regev's approach. In this talk, we will give an accessible account of these developments.