We propose a modified parallel-in-time - Parareal - multi-level time integration method which, in contrast to previous methods, uses a coarse solver based on the information from the fine solver at each iteration through the construction of a reduced model. This approach is demonstrated to offer two substantial advantages: it accelerates convergence of the original parareal method and we furthermore demonstrate that the reduced basis stabilizes the parareal method for purely advective problems where instabilities are known to arise. When combined with empirical interpolation techniques (EIM), we discuss the use of this approach to solve both linear and nonlinear problems and highlight the minimal changes required to utilize this algorithm t...
International audienceThe aim of this article is to design parareal algorithms in the context of the...
Sequential numerical methods for integrating initial value problems (IVPs) can be prohibitively expe...
With steadily increasing parallelism for high-performance architectures, simulations requiring a goo...
International audienceIn this paper, we consider the problem of accelerating the numerical simulatio...
A common idea in the PinT community is that Parareal, one of the most popular time-parallel algorith...
In this paper, we consider the problem of accelerating the numerical simulation of time dependent pr...
Among all Parallel-in-Time solutions that are available today, Parareal has the great advantage of ...
In this study, we introduce the reduced basis methods (RBMs) to improve a convergence rate of the Pa...
Forecasts made by 4-D Var involves forward integration of model before proceeding for the minimisati...
The parareal algorithm seeks to extract parallelism in the time-integration direction of time-depend...
In this paper, we propose a variant of the parareal algorithm for time-dependent problems involving ...
The parareal algorithm introduced in 2001 by Lions, Maday, and Turinici is an iterative method for t...
Unsteady turbulent flow simulations using the Navier Stokes equations require larger and larger prob...
International audienceIn this work, we implement some variations of the parareal method for speeding...
AbstractThis paper presents a new ‘Parareal-algorithm’ to solve time-dependent ODEs parallel in time...
International audienceThe aim of this article is to design parareal algorithms in the context of the...
Sequential numerical methods for integrating initial value problems (IVPs) can be prohibitively expe...
With steadily increasing parallelism for high-performance architectures, simulations requiring a goo...
International audienceIn this paper, we consider the problem of accelerating the numerical simulatio...
A common idea in the PinT community is that Parareal, one of the most popular time-parallel algorith...
In this paper, we consider the problem of accelerating the numerical simulation of time dependent pr...
Among all Parallel-in-Time solutions that are available today, Parareal has the great advantage of ...
In this study, we introduce the reduced basis methods (RBMs) to improve a convergence rate of the Pa...
Forecasts made by 4-D Var involves forward integration of model before proceeding for the minimisati...
The parareal algorithm seeks to extract parallelism in the time-integration direction of time-depend...
In this paper, we propose a variant of the parareal algorithm for time-dependent problems involving ...
The parareal algorithm introduced in 2001 by Lions, Maday, and Turinici is an iterative method for t...
Unsteady turbulent flow simulations using the Navier Stokes equations require larger and larger prob...
International audienceIn this work, we implement some variations of the parareal method for speeding...
AbstractThis paper presents a new ‘Parareal-algorithm’ to solve time-dependent ODEs parallel in time...
International audienceThe aim of this article is to design parareal algorithms in the context of the...
Sequential numerical methods for integrating initial value problems (IVPs) can be prohibitively expe...
With steadily increasing parallelism for high-performance architectures, simulations requiring a goo...