Jean-Morlet Chair - PinT 2022: 11th Conference on Parallel-in-Time Integration / Chaire Jean-Morlet 2022 - 11ème conférence PinT - Parallel-in-Time Integration

Collection Jean-Morlet Chair - PinT 2022: 11th Conference on Parallel-in-Time Integration / Chaire Jean-Morlet 2022 - 11ème conférence PinT - Parallel-in-Time Integration

Time parallel time integration methods have received important interest over the last decade because of the advent of massively parallel computers, which is mainly due to the clock speed limit reached on today’s processors. When solving time-dependent partial differential equations, the time direction is usually not used for parallelization. But when parallelization in space saturates, the time direction offers itself as a further direction for parallelization.

The time direction is however special, and for evolution problems there is a causality principle: the solution later in time is affected (it is even determined) by the solution earlier in time, but not the other way round. Algorithms trying to use the time direction for parallelization must therefore be special, and take this very different property of the time dimension into account.

This conference at CIRM will be the 11th of the annual PinT conference series (parallel-in-time.org), which has attracted more and more participants since the first small workshop in Lugano in 2011, where there were only four plenary lectures, and a poster session.

There are currently four main research directions for PinT methods:

1- Methods based on multiple shooting for initial values, which culminated in the Parareal algorithms and its variants, in particular PFASST and MGRIT.

2 - Waveform relaxation methods based on spatial domain decomposition techniques and iteration, like optimized Schwarz waveform relaxation, Dirichlet-Neumann waveform relaxation and Neumann-Neumann wave- form relaxation.

3 - Space-time multigrid methods, going back to the parabolic multigrid method of Hackbusch, with extremely scalable methods for parabolic type equations up to hundreds of thousands of cores, with virtually no overhead, i.e. speedup right from the start when using two processors instead of one.

4 - Direct time parallel methods, starting from early parallel predictor corrector and Runge-Kutta methods, to RIDC, ParaExp and ParaDiag, which solve evolution problems directly in parallel without iteration.

PinT is still very rapidly evolving, with new ideas appearing all the time. Significant innovations are found in particular for new ParaDiag variants, time periodic preconditioning for non time periodic problems, time parallelization in optimal control problems, and tent pitching techniques for hyperbolic problems.

The goal of the annual PinT conference is to gather worldwide experts in this exciting new field of research to exchange their newest ideas and also collaborate directly during the conference.

SCIENTIFIC COMMITTEE Debasmita Samaddar (UK Atomic Energy Authority) Jemma Shipton (University of Exeter) Laurence Halpern (Université Sorbonne Paris Nord) Jacob B. Schroder (University of New Mexico) Stefanie Friedhoff (Bergische Universität Wuppertal) Ben Southworth ( Los Alamos National Laboratory, USA)


Apparaît dans la collection : Jean Morlet Chair - 2022 - Sem 2- Gander - Hubert


Organisateur(s) Gander, Martin ; Hubert, Florence
Date(s) 11/07/2022 - 15/07/2022
URL associée https://www.chairejeanmorlet.com/2642.html
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