Massive-Parallel Trajectory Calculations (MPTRAC) is a Lagrangian particle dispersion model for the analysis of atmospheric transport processes in the free troposphere and stratosphere.
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Updated
Jun 2, 2024 - C
Massive-Parallel Trajectory Calculations (MPTRAC) is a Lagrangian particle dispersion model for the analysis of atmospheric transport processes in the free troposphere and stratosphere.
A parallel, extensible finite element code to simulate convection in both 2D and 3D models.
IBM Cloud HPC is a deployable architecture where you can deploy both cloud compute resources (vCPU resources) and HPC scheduling software for your compute-intensive HPC workloads. You can reserve capacity on a recurring hourly basis from a dedicated IBM Cloud HPC resource pool.
Main repository for QMCPACK, an open-source production level many-body ab initio Quantum Monte Carlo code for computing the electronic structure of atoms, molecules, and solids with full performance portable GPU support
Advanced High Performance Computing in C with OpenMP, CUDA, MPI and NCCL. The folder project includes my final project for the special course. I implemented a Jacobi-solver for the Poisson partial differential problem both using OpenMP in the CPU, using CUDA on the GPU and using CUDA, MPI and NCCL on multiple GPUs.
(REOS) Radar and Electro-Optical Simulation Framework written in C++.
DFT-FE: Real-space DFT calculations using Finite Elements
A Rust-based, lightweight unikernel.
BLAS-like Library Instantiation Software Framework
Graphics Processing Units Molecular Dynamics
OpenMC Monte Carlo Code
The Juelich Rapid Spectral Simulation Code (JURASSIC) is a fast infrared radiative transfer model for the analysis of atmospheric remote sensing measurements.
🦋 A personal research and development (R&D) lab that facilitates the sharing of knowledge.
The HPC.social community map (under development) 🗺️
A collection of projects for CS:530 High-Performance Computing in Fortran
Lightweight, general, scalable C++ library for finite element methods
SPHinXsys provides C++ APIs for engineering simulation and optimization. It aims at complex systems driven by fluid, structure, multi-body dynamics and beyond. The multi-physics library is based on a unique and unified computational framework by which strong coupling has been achieved for all involved physics.
High-performance and differentiation-enabled nonlinear solvers (Newton methods), bracketed rootfinding (bisection, Falsi), with sparsity and Newton-Krylov support.
高性能并行编程与优化 - 课件
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