Introduction to Parallel Programming class code
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Updated
Jan 31, 2017 - Cuda
Introduction to Parallel Programming class code
CPU/GPU Processor Comparator - GPU Component
Introduction to Parallel Programming class code
Práctica 1 de Ampliación de Programación Avanzada
Projeto realizado para a disciplina MAC0431 - Introdução a Computação Paralela e Distríbuida - Resolução de um problema altamente paralelizável em CUDA
Bitonic sort algorithm multigpu and gpu in CUDA
Introduction to Parallel Programming class code
Illustrating CUDA C for general-purpose computing on GPUs
GPU programming harnesses the power of Graphics Processing Units and parallel computing for intense tasks like numerical simulations in Astro- or Biophysics
Wei-Harumi's electrocardiogram simulation model parallelization research Wei-Harumi 心电计算模型并行化研究
In this code is provided a simple, efficient and fast method to calculate motion and backgroud dynamically using nVidia GPUs power
This project is a part of my thesis focusing on researching and applying the general-purpose graphics processing unit (GPGPU) in high performance computing. In this project, I applied GPU Computing and the parallel programming model CUDA to solve the diffusion equation.
This is a two-dimensional fluid solver written in a hybrid CPU-GPU architecture platform This code has been written as part of the requiremnts for the following courses at the University of Utah: Computational Fluid Dynamics Parallel computing on many-cores @ Authors: Arash Nemati Hayati Akshay Singhvi Lucas Ulmer
It is a combined project of computer science and earth science department. The main aim of this project was to find the hydrocarbons which are present under the sea.
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