Manyscientific problems are posed as Ordinary Differential Equations (ODEs). A large subset of these are initial value problems, which are typically solved numerically. The solution starts by using a known state-space of the ODE system to determine the state at a subsequent point in time. This process is repeated several times. When the computational demand is high due to large state space, parallel computers can be used efficiently to reduce the time to solution. Conventional parallelization strategies distribute the state space of the problem amongst cores and distribute the task of computing for a single time step amongst the cores. They are not effective when the computational problems have fine granularity, for example, when the state ...
Publisher Summary: This chapter reveals that the domain decomposition method has been widely used f...
We study time parallelism for the numerical solution of nonstiff ordinary differential equations. St...
Parallel 2-point and 3-point block method will simultaneously compute the numerical solutions at two...
Abstract. The parallel solution of initial value problems for ordinary differential equations (ODE-I...
The parallel solution of initial value problems for ordinary differential equations (ODE-IVPs) has r...
Dynamic iteration or, more popularly, waveform relaxation has received a great deal of attention as ...
AbstractMassively parallel computers have become widely available for the solution of a wide range o...
The parareal algorithm introduced in 2001 by Lions, Maday, and Turinici is an iterative method for t...
The paper maps the possibilities of exploitation of the massive parallel computational hardware (na...
Iterative methods are well-established in the context of scientific computing. They solve a problem ...
This paper presents a simple hybrid computer technique to study the transient behaviour of queueing ...
An optimized parallel algorithm is proposed to solve the problem occurred in the process of complica...
AbstractWe continue the study of the convergence of dynamic iteration methods by applying them to li...
Asynchronous iterations arise naturally on parallel computers if one wants to minimize idle times. T...
. Time dependent partial differential equations are often solved using algorithms which parallelize ...
Publisher Summary: This chapter reveals that the domain decomposition method has been widely used f...
We study time parallelism for the numerical solution of nonstiff ordinary differential equations. St...
Parallel 2-point and 3-point block method will simultaneously compute the numerical solutions at two...
Abstract. The parallel solution of initial value problems for ordinary differential equations (ODE-I...
The parallel solution of initial value problems for ordinary differential equations (ODE-IVPs) has r...
Dynamic iteration or, more popularly, waveform relaxation has received a great deal of attention as ...
AbstractMassively parallel computers have become widely available for the solution of a wide range o...
The parareal algorithm introduced in 2001 by Lions, Maday, and Turinici is an iterative method for t...
The paper maps the possibilities of exploitation of the massive parallel computational hardware (na...
Iterative methods are well-established in the context of scientific computing. They solve a problem ...
This paper presents a simple hybrid computer technique to study the transient behaviour of queueing ...
An optimized parallel algorithm is proposed to solve the problem occurred in the process of complica...
AbstractWe continue the study of the convergence of dynamic iteration methods by applying them to li...
Asynchronous iterations arise naturally on parallel computers if one wants to minimize idle times. T...
. Time dependent partial differential equations are often solved using algorithms which parallelize ...
Publisher Summary: This chapter reveals that the domain decomposition method has been widely used f...
We study time parallelism for the numerical solution of nonstiff ordinary differential equations. St...
Parallel 2-point and 3-point block method will simultaneously compute the numerical solutions at two...