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C++ & Python API for Scientific I/O with openPMD
openPMD is an open metadata format for open data workflows in open science. This library provides a common high-level API for openPMD writing and reading. It provides a common... -
C++ & Python API for Scientific I/O with openPMD
openPMD is an open metadata format for open data workflows in open science. This library provides a common high-level API for openPMD writing and reading. It provides a common... -
C++ & Python API for Scientific I/O with openPMD
openPMD is an open metadata format for open data workflows in open science. This library provides a common high-level API for openPMD writing and reading. It provides a common... -
C++ & Python API for Scientific I/O with openPMD
openPMD is an open metadata format for open data workflows in open science. This library provides a common high-level API for openPMD writing and reading. It provides a common... -
EFCL Channelizer
Extremely fast digital audio channelizer implementation, usable as a building block for experimental ASR front-ends or signal denoising applications. Also applicable in software... -
Sparse tensor based nuclear gradients for periodic Hartree–Fock and low-scali...
The development of novel double-hybrid density functionals offers new levels of accuracy, and is leading to fresh insights into the fundamental properties of matter.... -
HPC-Europa3 - D12.2 - Container-as-a-service Technical Documentation
This document contains technical documentation related to the installation and usage of a number of container technologies used for HPC applications. It also demonstrates how... -
D3.1 - Report on the Workshops for SMEs
This deliverable describes the outcome of Task 3.1 - Enlarging the SMEs awareness of HPC. The task aimed to support SMEs and bring them closer to the HPC opportunities,... -
D12.3 - Using container technologies to improve portability of applications i...
The aim of this deliverable is to provide indications about how to use container to improve portability of applications on HPC systems. Important steps to run a containerized... -
D5.1 - UEDIN-EPCC and ICHEC Transnational Access success story
This document describes the HPC-Europa3 visit of Dr. Mats Simmermacher, Technical University of Denmark, to Dr. Adam Kirrander, University of Edinburgh, and their subsequent... -
D12.6 – Benchmarking results
The aim of this deliverable is to provide measurements of performance of selected applications that explore various subsystems and compare the performance on bare metal and... -
D2.7 - Third Transnational Access summary report
This document is the third report on the HPC-Europa3 Transnational Access activity. It covers the third reporting period (Months 37-60, i.e. 1 May 2020 – 30 April 2022). In this... -
HPC-Europa3 - D2.2 - First Transnational Access summary report
This document is the first report on the HPC-Europa3 Transnational Access activity. It covers the first reporting period (Months 1-18, i.e. 1 May 2017 – 31 October 2018). In... -
D2.5 - Second HPC-Europa3 research projects directory
This is the second document in a series which collects the scientific results of some of the research visits carried out in between October 2018 and March 2020 of the... -
D8.1 - SURF Transnational access success story
Different visitors in the Quantum Chemistry group at the Rijksuniversiteit Groningen have made a really important contribution to research, thanks to the collaboration with the... -
D9.1 - CSC Transnational Access success story
This document describes the fruitful collaboration of Dr. Volker Deringer from the University of Cambridge, UK, and Dr. Miguel Caro, from the Aalto University, Finland, which... -
HPC-Europa3 - D12.1 - Container-as-a-service analysis report
The main goal of this report is to evaluate the use of container technology in order to streamline the deployment of HPC end-user applications. Each application to be deployed... -
D4.1 - CINECA transnational access success story
This document provides an overview of two visits to CINECA. The visits were not only scientifically successful with very interesting scientific outputs produced but they also... -
D12.5 - Workload collocation based on container technologies to improve isola...
The aim of this report is to study containers resource isolation and explore Dynamic Resource Assignment techniques to maximize hardware utilization. Containers bring... -
HPC-Europa3 - D12.3 - Using container technologies to improve portability of ...
The aim of this deliverable is to provide indications about how to use container to improve portability of applications on HPC systems. Important steps to run a containerized...