We consider an interesting from computational point of view standing wave simulation by solving coupled 2D perturbed Sine-Gordon equations. We make an OpenMP realization which explores both thread and SIMD levels of parallelism. We test the OpenMP program on two different energy equivalent Intel architectures: 2× Xeon E5-2695 v2 processors, (code-named “Ivy Bridge-EP”) in the Hybrilit cluster, and Xeon Phi 7250 processor (code-named “Knights Landing” (KNL). The results show 2 times better performance on KNL processor
We compare several modifications to the open-source wave optics package, WavePy, intended to improve...
CP2K, a popular open-source European atomistic simulation package has been ported to the Intel Xeon ...
In this work an astrophysical simulation code, XFLAT, is developed to study neutrino oscillations in...
We consider an interesting from computational point of view standing wave simulation by solving coup...
<div><p>Recent developments in modern computational accelerators like Graphics Processing Units (GPU...
Nowadays, the simulation of ultrasound acoustic waves has a wide range of practical usage. As one of...
Recent developments in modern computational accelerators like Graphics Processing Units (GPUs) and c...
This project serves to apply numerical methods to obtain solutions for the wave equation. Paralleliz...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
This work shows several optimization strategies evaluated and applied to an elastic wave propagation...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
Brain modeling has been presenting significant challenges to the world of high-performance computing...
Large-scale simulations of wave-type equations have many industrial applications, such as in oil and...
The goal of this lab exercise is to develop a parallel compute-intensive application to be run on an...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
We compare several modifications to the open-source wave optics package, WavePy, intended to improve...
CP2K, a popular open-source European atomistic simulation package has been ported to the Intel Xeon ...
In this work an astrophysical simulation code, XFLAT, is developed to study neutrino oscillations in...
We consider an interesting from computational point of view standing wave simulation by solving coup...
<div><p>Recent developments in modern computational accelerators like Graphics Processing Units (GPU...
Nowadays, the simulation of ultrasound acoustic waves has a wide range of practical usage. As one of...
Recent developments in modern computational accelerators like Graphics Processing Units (GPUs) and c...
This project serves to apply numerical methods to obtain solutions for the wave equation. Paralleliz...
We present a technology of 3D seismic field simulation for high-performance computing systems with G...
This work shows several optimization strategies evaluated and applied to an elastic wave propagation...
Three dimensional particle-in-cell laser-plasma simulation is an important area of computational phy...
Brain modeling has been presenting significant challenges to the world of high-performance computing...
Large-scale simulations of wave-type equations have many industrial applications, such as in oil and...
The goal of this lab exercise is to develop a parallel compute-intensive application to be run on an...
An implementation of seismic wave simulation on a platform consisting of a conventional host process...
We compare several modifications to the open-source wave optics package, WavePy, intended to improve...
CP2K, a popular open-source European atomistic simulation package has been ported to the Intel Xeon ...
In this work an astrophysical simulation code, XFLAT, is developed to study neutrino oscillations in...