SCAlable LAttice Boltzmann Leaps to Exascale (Scalable)
Public support
Provider
Ministry of Education, Youth and Sports
Programme
—
Call for proposals
H2020-JTI-EuroHPC-2019-1
Main participants
Vysoká škola báňská - Technická univerzita Ostrava / IT4Innovations
Contest type
RP - Co-financing of EC programme
Contract ID
MSMT-40631/2020-20/3
Alternative language
Project name in Czech
SCAlable LAttice Boltzmann Leaps to Exascale (Scalable)
Annotation in Czech
The primary goal of SCALABLE is to develop an industrial LBM-based CFD solver capable to exploit current and future extreme scale architectures, expanding current capabilities of existing industrial LBM solvers by at least two orders of magnitude in terms of processor cores and in terms of lattice cells, while preserving its accessibility from both an end-user and a physical developer point of view. The top level objectives can be broken down as follows: 1. Assess the differences between LaBS and waLBerla solvers and to understand the key drivers for optimal performance, while preserving the industrial needs as a “best solution” industrial solver. 2. Unleash the full CPU performance, identify and remove bottlenecks in the path towards industrial extreme scale computing: 3. Dedicated code generation for the LBM accounting for runtime specificities to enable better versatility and performance for the next generations of HPC hardware: 4. Increase the ease-of-use and use of high-scalable HPC systems for industrial applications.
Scientific branches
R&D category
VV - Exeperimental development
OECD FORD - main branch
10201 - Computer sciences, information science, bioinformathics (hardware development to be 2.2, social aspect to be 5.8)
OECD FORD - secondary branch
20301 - Mechanical engineering
OECD FORD - another secondary branch
10305 - Fluids and plasma physics (including surface physics)
CEP - equivalent branches <br>(according to the <a href="http://www.vyzkum.cz/storage/att/E6EF7938F0E854BAE520AC119FB22E8D/Prevodnik_oboru_Frascati.pdf">converter</a>)
AF - Documentation, librarianship, work with information<br>BC - Theory and management systems<br>BD - Information theory<br>BK - Liquid mechanics<br>BL - Plasma physics and discharge through gases<br>IN - Informatics<br>JR - Other machinery industry<br>JT - Propulsion, engines and fuels
Completed project evaluation
Provider evaluation
U - Uspěl podle zadání (s publikovanými či patentovanými výsledky atd.)
Project results evaluation
The project finished according to the overall work plan and attained all its objectives, despite some deviations from the work plan. The main objective to develop an industrial LBM-based CFD solver capable of exploiting current and future extreme scale architectures, expanding current capabilities of existing industrial LBM solvers by at least two orders of magnitude in terms of processor cores and in terms of lattice cells while preserving its accessibility from both an end-user and a physical developer point of view has been achieved.
Solution timeline
Realization period - beginning
Jan 1, 2021
Realization period - end
Dec 31, 2023
Project status
U - Finished project
Latest support payment
Feb 27, 2023
Data delivery to CEP
Confidentiality
S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů
Data delivery code
CEP24-MSM-MC-U
Data delivery date
Jul 1, 2024
Finance
Total approved costs
5,029 thou. CZK
Public financial support
5,029 thou. CZK
Other public sources
0 thou. CZK
Non public and foreign sources
0 thou. CZK