Demonstrating speedup for parallel code on a multicore shared memory PC can be challenging in MATLAB due to underlying parallel operations that are often opaque to the user. This can limit potential for improvement of serial code even for the so-called embarrassingly parallel applications. One such application is the computation of the Jacobian matrix inherent to most nonlinear equation solvers. Computation of this matrix represents the primary bottleneck in nonlinear solver speed such that commercial finite element (FE) and multi-body-dynamic (MBD) codes attempt to minimize computations. A timing study using MATLAB's Parallel Computing Toolbox was performed for numerical computation of the Jacobian. Several approaches for implementing para...
Ever-increasing core counts create the need to develop parallel algorithms that avoid closely- coupl...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
AbstractWe consider method of lines solutions of partial differential equations on shared-memory par...
Techniques are discussed for the implementation and improvement of vectorization and concurrency in ...
AbstractIn this paper, parallel algorithms are proposed for solving both systems of nonlinear algebr...
The rapid development in VLSI technology makes it possible to implement highly complicated and time ...
In parallel computing, scalability is an important issue and getting linear speed-ups is difficult f...
Real-time computations of manipulator Jacobian are examined for executing on uniprocessor computers,...
This paper presents a new technique to parallelize Newton method for the locally conical approximat...
The proposed parallel state transformation procedures (PSTP) of fiber beam-column elements and multi...
technical reportIn this paper we propose a novel computational technique, which we call the Fast It...
The aim of this paper is to evaluate the performance of existing parallel linear equation solvers to...
A parallelization study designed for ADI-type algorithms is presented using the OpenMP specification...
The study deals with the parallelization of 2D and 3D finite element based Navier-Stokes codes using...
A new family of parallel schemes for directly solving linear systems is presented and analyzed. It i...
Ever-increasing core counts create the need to develop parallel algorithms that avoid closely- coupl...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
AbstractWe consider method of lines solutions of partial differential equations on shared-memory par...
Techniques are discussed for the implementation and improvement of vectorization and concurrency in ...
AbstractIn this paper, parallel algorithms are proposed for solving both systems of nonlinear algebr...
The rapid development in VLSI technology makes it possible to implement highly complicated and time ...
In parallel computing, scalability is an important issue and getting linear speed-ups is difficult f...
Real-time computations of manipulator Jacobian are examined for executing on uniprocessor computers,...
This paper presents a new technique to parallelize Newton method for the locally conical approximat...
The proposed parallel state transformation procedures (PSTP) of fiber beam-column elements and multi...
technical reportIn this paper we propose a novel computational technique, which we call the Fast It...
The aim of this paper is to evaluate the performance of existing parallel linear equation solvers to...
A parallelization study designed for ADI-type algorithms is presented using the OpenMP specification...
The study deals with the parallelization of 2D and 3D finite element based Navier-Stokes codes using...
A new family of parallel schemes for directly solving linear systems is presented and analyzed. It i...
Ever-increasing core counts create the need to develop parallel algorithms that avoid closely- coupl...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
AbstractWe consider method of lines solutions of partial differential equations on shared-memory par...