AbstractAcross-the-space parallelism still remains the most mature, convenient and natural way to parallelize large scale problems. One of the major problems here is that implicit time stepping is often difficult to parallelize due to the structure of the system. Approximate implicit schemes have been suggested to circumvent the problem (M.A. Botchev et al., Appl. Numer. Math. 31 (3) (1999) 239). These schemes have attractive stability properties and they are also very well parallelizable.The purpose of this article is to give an overall assessment of the parallelism of the method
Implicit schemes for the integration of ODE's are popular when stabil ity is more of concern than...
Explicit codes are often used to simulate the nonlinear dynamics of large-scale structural systems, ...
This paper deals with parallelization methods for time-dependent problems where the time step...
AbstractAcross-the-space parallelism still remains the most mature, convenient and natural way to pa...
Across-the-space parallelism still remains the most mature, convenient and nat-ural way to paralleli...
Across-the-space parallelism still remains the most mature, convenient and natural way to paralleliz...
The recently proposed Minimal Residential Approximate Implicit (MRAI) schemes have been developed as...
Abstract. Implicit time stepping is often difficult to parallelize. The recently proposed Minimal Re...
Time stepping algorithm with spatial parallelisation is commonly used to solve time dependent partia...
Evolutionary processes arise in many areas of applied mathematics, however since the solution at any...
The parallel full approximation scheme in space and time (PFASST) introduced by Emmett and Minion in...
Implicit schemes for the integration of ODEs are popular when stability is more of concern than accu...
Explicit codes are often used to simulate the nonlinear dynamics of large-scale structural systems, ...
During the 70's and 80's, considerable effort was devoted to developing efficient and reliable time ...
4th International Conference on Computational Engineering (ICCE 2017), 28-29 September 2017, Darmsta...
Implicit schemes for the integration of ODE's are popular when stabil ity is more of concern than...
Explicit codes are often used to simulate the nonlinear dynamics of large-scale structural systems, ...
This paper deals with parallelization methods for time-dependent problems where the time step...
AbstractAcross-the-space parallelism still remains the most mature, convenient and natural way to pa...
Across-the-space parallelism still remains the most mature, convenient and nat-ural way to paralleli...
Across-the-space parallelism still remains the most mature, convenient and natural way to paralleliz...
The recently proposed Minimal Residential Approximate Implicit (MRAI) schemes have been developed as...
Abstract. Implicit time stepping is often difficult to parallelize. The recently proposed Minimal Re...
Time stepping algorithm with spatial parallelisation is commonly used to solve time dependent partia...
Evolutionary processes arise in many areas of applied mathematics, however since the solution at any...
The parallel full approximation scheme in space and time (PFASST) introduced by Emmett and Minion in...
Implicit schemes for the integration of ODEs are popular when stability is more of concern than accu...
Explicit codes are often used to simulate the nonlinear dynamics of large-scale structural systems, ...
During the 70's and 80's, considerable effort was devoted to developing efficient and reliable time ...
4th International Conference on Computational Engineering (ICCE 2017), 28-29 September 2017, Darmsta...
Implicit schemes for the integration of ODE's are popular when stabil ity is more of concern than...
Explicit codes are often used to simulate the nonlinear dynamics of large-scale structural systems, ...
This paper deals with parallelization methods for time-dependent problems where the time step...