2nd Workshop on Parallel-in-Time Integration

Brief overview

A book of abstracts can be found here.

Programme Tuesday June 18, 2013:

  • Martin J. Gander, University of Geneva: Multiple Shooting, Parareal, Krylov Parareal, ParaExp and Space-Time Multigrid: an Overview on Time Domain Decomposition Methods
  • Felix Kwok, University of Geneva: Coarse Grid Correction for the Neumann-Neumann Waveform Relaxation Method
  • Roman Andreev, University of Maryland: Sparse space-time Petrov-Galerkin discretizations for parabolic evolution equations
  • Robert Speck, Juelich Supercomputing Centre: From Spectral Deferred Corrections to the Parallel Full Approximation Scheme in Space and Time
  • Michael Minion, Stanford University: Time Parallelization for Second-Order Equations
  • Tobias Weinzierl, Technische Universitaet Muenchen: Parallel Space-time Spacetrees for Simple Parabolic Benchmarks
  • Uwe Koecher, Helmut Schmidt University Hamburg: Parallel variational space–time methods for the wave equation
  • Yvon Maday, Universite Pierre et Marie Curie: Conservations with parareal in time algorithm
  • Olga Mula, Universite Pierre et Marie Curie: MINARET: Towards a time-dependent neutron transport parallel solver

Programme Wednesday June 19, 2013:

  • Benjamin Ong, Michigan State University: RIDC-DD: A parallel space-time algorithm
  • Georges Klein, University of Oxford: Deferred correction from equispaced data based on efficient high-order rational integration
  • Christian Wieners, Karlsruhe Institute of Technology: Space-Time Methods for Wave Equations
  • Stefan Findeisen, Karlsruhe Institute of Technology: First step towards Parallel and Adaptive Computation of Maxwell’s Equations
  • Julien Salomon, Universite Paris-Dauphine: An intermediate state method for the time-parallelized solving of optimal control problems
  • Joerg Wensch, TU Dresden: Multirate time integration of the Euler equations
  • Qiqi Wang, Massachusetts Institute of Technology: Towards Scalable Parallel Long Time Integration of Chaotic Dynamical Systems
  • Debasmita Samaddar, Culham Science Centre: Temporal parallelization of advanced operation scenario simulations of fusion plasma