ExaNeSt
European Exascale System Interconnect and Storage
HPC (High Performance Computing)
ExaNeSt studies architectural solutions to store and share data in a unified manner.
A prototype of a physical platform and rack systems, needed to realize European exascale systems, are developed.
A solution to support industrial marketing and follow-up of exascale systems is developed following recommendations of the ETP4HPC roadmap.
The consortium collects technology and experience on the whole HPC process: applications, algorithms, operating systems, data-storage, HPC communication, packaging and system configuration, kernel tuning, data management and analysis of applications.
An innovative high efficiency Exascale level calculator is modeled, simulated and validated through prototype.
The new system has the following peculiarities: high productivity, unified storage and distributed computing, low power consumption and complexity, limited maintenance and database management costs quality of Service guarantees and resilience, storage and distributed localization of computing elements anagement of I/O in order to alleviate congestion, low latency connectivity, which is foundamental for non-volatile memory, support for task-to-data sw; models, integration scheme for the Hyper-Density system: a commercial European modular cooling system for Exascale applications in ~ 200 rack that guarantees reliability and reduced operating costs.
EnginSoft testes the ExaNest platform with various CAE applications which often require parallelism and big data management.
These applications are both commercial and Open Source and are dedicated to the most relevant computational science areas like mechanics, fluid-dynamics, fast dynamics and crash, metallurgy, process simulation, porous media, environmental engineering, off-shore engineering, acoustic analysis, process integration and design optimization (PIDO).
EnginSoft also assists the Foundation for Research and Technology Hellas in coordinating and administrating the project.
Allinea Software Ltd | EnginSoft Spa | eXact Lab Srl | Fraunhofer Institut | FOundation for Research and Technology Hellas (FORTH) | Iceotope | ISTITUTO NAZIONALE DI ASTROFISICA (INAF) | Istituto Nazionale di Fisica Nucleare (INFN) | Monet DB | Universitat Politecnica de Valencia | University of Manchester | Virtual Open Systems
Funding Scheme Horizon2020 | Call identifier H2020-FETHPC-2014
42 months
December 2015 - May 2019
FOundation for Research and Technology Hellas (FORTH)
Gino Perna
12
Some of our competences in research and technology transfer
Research project
The project aimed to develop an open integrated framework that connects materials models at various levels of complexity, experimental data sets and commercial information (e.g. ingredients and processing costs), so that decision makers can use a wider variety of key performance indicators.
Research project
The final goal of the project is to define a technology solution to repair metal components. End users require an automated or semi-automated solution for mounting a part of partially unknown shape into a machine, measuring the relevant part of its surface in 3D and automatically generating a repair program to restore it to the desired shape.
