Property:Description
Property type: string
This property provides a "shortest possible" type of description, typically less than a short sentence, used for example to describe a piece of software, or a resource, or a method or anything else really.
It should be used as such:
<page name> is (a/an/the/...) [[description::as little text as possible]]. e.g: HMMER is a [[description::software package for working with profile hidden Markov models (HMM)]].
Note that neither "page title", nor "is a", nor the full stop character are part of the description, much like Debian package descriptions.
The intended benefit for using this property would be within dynamically generated tables, where it will typically appear as short "description" column.
C
application of computer science methods to study the Earth's climate +
Cluster architecture and job submission +
Cluster architecture and job submission +
Cluster architecture and job submission +
Cluster architecture and job submission +
Cluster architecture and job submission +
Cluster architecture and job submission +
Cluster architecture and job submission +
Cluster architecture and job submission +
Advanced Programming techniques for performance improvement of numerical simulation codes +
Advanced Programming techniques for performance improvement of numerical simulation codes +
Building a Nordic community of research software developers +
CodeRefinery Workshop +
Teaching researchers in sustainable software development +
Teaching researchers in sustainable software development +
Using commercial engineering software in an HPC environment +
Comparing major ab initio software for materials science +
Computational Chemistry - Enhanced Sampling MD Course at HPC2N in Umeå +
Course: Computational Chemistry - MD Simulations (NAMD) +
application of computer science methods to solve chemical problems +
application of computer science methods to solve and model electromagnetic fields +
using numerical methods to solve and analyze problems that involve fluid flows +
applying the properties of matter to various areas of science and engineering +
using computers to analyze and solve scientific problems +
Ab-initio Electronic Structure Computation through LSDALTON Code +
A hierarchical likelihood ratio test for phylogenetic congruence. +
Assist researchers from Stockholm in configuring and launching the CAM5.3 global atmospheric model in a nudged configuration. Assist in installing post-processing software for converting CAM5.3 output to arl format suitable for imput into the HYSPLIT Lagrangian transport model. +
software for macromolecular model building, model completion and validation, particularly suitable for protein modelling using X-ray data +
Efficient MD simulations at HPC2N +
Efficient MD simulations at HPC2N +
Python for Scientific Computing +
D
Debugging applications using DDT +
Parallelization of the coupled cluster complex polarization propagator module in the Dalton program +
Data management seminar recording +
Data management +
Introduction to data handling using R tidyverse in a modern software environment +
Debugging of HPC applications +
Allinea Performance and Debugging Tools Workshop +
Allinea Performance and Debugging Tools Workshop +
Allinea Performance and Debugging Tools Workshop +
Feature request to support multi-category sea-ice in the IFS component of EC-Earth 3. +
E
Port EC-Earth to Beskow and complete performance/scaling tests. +
Complete performance profiling of the EC-Earth model including the COSP satellite simulator. +
A statistical test for large scale human or model organism association mapping accounting for the sample structure. +
Exact Muffin-Tin Orbitals method, an electronic structure code based on the Green's function technique +
Exact Muffin-Tin Orbitals method (x), an electronic structure code based on the Green's function technique +
ENCCS/PDC VeloxChem Workshop: Quantum Chemistry Towards Pre-exascale and Beyond +
ENCCS/PDC VeloxChem Workshop: Quantum Chemistry from Laptop to HPC +
Cluster architecture and job submission +
Electronic Structure / Seminars and discussion sessions +
all-electron full-potential linearised augmented-plane wave (FP-LAPW) code with many advanced features +
Parallel I/O Implementation and Communication Optimization on Xnavis Wind Farm Simulation Code +
package to manage the systems and application software +
Essense Code Analysis and Optimisation +
full-potential all-electron density-functional-theory (DFT) package based on the linearized augmented plane-wave (LAPW) method +
F
Aims to provide a simple way to do some quality control checks on raw sequence data coming from high throughput sequencing pipelines. +
G
compiler collection for a number of languages including C, C++ and Fortran +
use of graphics processing units (GPU or simply "graphics cards") in scientific computation +
Gaussian Workshop at HPC2N in Umeå +
combines computers from multiple administrative domains +
H
HPC Tools for the Modern Era +
offering training and education to the SNIC communities in HPC related matters. +
HPC2N Swestore storage node of 400Tb +
Performance Analysis and Parallelisation of SMHI's HYPE Code +
Handling large data within SNIC, using Swestore +
Heterogeneous computing with performance modelling +
Hierarchical modules and software selection +
Hierarchical modules and software selection +
Hierarchical modules and software selection +
How to work effectively on Tetralith +
How to work effectively on Tetralith +
I
Assist researchers from Göteborg in including parallel NetCDF IO support and the COSP module in the OpenIFS model +
Enabling support as part of the Prace DECI 8 program +
Improving the MPI collective performance by network aware communication +
European network of distributed e-infrastructure to support Earth system modelling. +
Replace the atmospheric component of EC-Earth (IFS) with the OpenIFS model (c38r1). +
Intel Cluster Studio/HPC Training at HPC2N +
Using the Intel® compiler and performance tools +
compilers for C, C++ and Fortran +
Intel development / HPC tools +
Intel oneAPI Overview Webinar +
Intermediate Topics in MPI +
Introduction to Deep Learning +
Introduction to Distributed Memory Programming and MPI +
Introduction to GPU programming with CUDA +
Introduction to GPU programming: When and how to use GPU-acceleration? +
Introduction to Git +
Introduction to Git +
Introduction to Git +
Introduction to HPC at HPC2N +
Introduction course for new users of high performance computing +
Introduction course for new users of high performance computing +
Introduction course for new users of high performance computing +
Introduction course for new users of high performance computing +
Introduction to HPC and Kebnekaise +
Introduction to HPC2N +
Introduction to HPC2N +
Introduction to HPC2N +
Introduction course for (new) users of HPC2N's systems +
Introduction to HPC2N +
Introduction to HPC2N +
Introduction to HPC2N +
Introduction to HPC2N and Kebnekaise +
Introduction to HPC2N and Kebnekaise +
Introduction to Kebnekaise +
Introduction to Kebnekaise +
Introduction to Kebnekaise +
Introduction to Linux and Abisko +
Introduction to Linux and Abisko +
Introduction to NSC +
Introduction to NSC +
Introduction to OpenMP and MPI +
Introduction to the new Dardel system at PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC Systems +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC Systems +
Introduction to PDC +
Introduction to PDC +
Introduction to PDC +
Introduction to Intel's Xeon Phi processor for scientific computing +
Introduction to Shared Memory Programming and OpenMP +
Introduction to WIEN2k +
Course: Introduction to OpenMP and MPI at HPC2N in Umeå +
J
K
L
Parallelization of a Large Eddy Simulation Code +
An introduction to the LUNARC HPC Desktop +
An introduction to the LUNARC HPC Desktop +
LUNARC Swestore storage node of 400Tb +
SNIC Science Cloud Workshop +
M
Speeding up MATLAB Computations using SNIC Clusters +
Speeding up MATLAB Computations using SNIC Clusters +
Speeding up MATLAB Computations using SNIC Clusters +
Speeding up MATLAB Computations using SNIC Clusters +
Computational Chemistry - MD Simulations in Umeå +
MD simulations with a focus on NAMD +
Computational Chemistry - MD/CHARMM course in Umeå +
Updating the automated classification system for MDR proteins based on new data. +
Complete performance profiling of the MISU MIT Cloud and Aerosol (MIMICA) LES model. +
An introduction to parallel programming using MPI +
An introduction to parallel programming using MPI +
An introduction to parallel programming using MPI +
An introduction to parallel programming using MPI +
An introduction to parallel programming using MPI +
An introduction to parallel programming using MPI +
An introduction to parallel programming using Message Passing with MPI +
An introduction to parallel programming using Message Passing with MPI +
An introduction to parallel programming using MPI +
Writing parallel applications using MPI +
Writing parallel applications using MPI +
Writing parallel applications using MPI +
Finite Element Analysis (FEA) solver +
Machine Learning with R +
computational software for technical computing +
Parallel Computing in MATLAB and Scaling to SNIC HPC Clusters +
Parallel Computing in MATLAB and Scaling to SNIC HPC Clusters +
MATLAB Programming Techniques +
Parallel Computing in MATLAB and Scaling to SNIC HPC Clusters +
Parallel Computing in MATLAB and Scaling to SNIC HPC Clusters +
Parallel Computing in MATLAB and Scaling to SNIC HPC Clusters +
Matlab HPC training +
Efficient use of Matlab in an HPC environment +
Newtonian motion simulation in systems with hundreds to millions of particles +
N
climate model diagnostics +
NEC SX-Aurora TSUBASA Webinar +
GPU/Accelerator Pilot Project at NSC +
Introduction to using NSC resources +
NSC introduction to Tetralith/Sigma +
NSC introduction to Tetralith/Sigma +
NSC Swestore storage node of 200Tb +
NVIDIA GPU Boot Camp and Deep Learning workshop +
Boundary conditions for Nek5000 +
Nek5000 with OpenACC +
organization of neuroscience data +
Complete performance profiling of the Norwegian Earth System Model (NorESM) on Triolith. +
NeIC climate and environment collaborative project. +