IT4Innovations is a research and development centre with strong international links, it is involved in all activities of EuroHPC Joint Undertaking and in a number of prestigious international organisations (PRACE, ETP4HPC, EUDAT, BDVA, EOSC).
IT4Innovations is currently a National Centre of Competence for HPC, a member of the MaX and Space Centres of Excellence and a partner in more than 10 other international projects of Horizon 2020, Horizon Europe or Digital Europe, coordinating the EXA4MIND project. It also collaborates on the European Space Agency (ESA) project called AIOPEN (Platform Extensions with AI Capabilities).
The implementation of national projects financially supported by the Ministry of Education, Youth and Sports, the Ministry of Industry and Trade, the Ministry of the Interior, the Grant Agency of the Czech Republic or the Technology Agency of the Czech Republic is also important. Some of the projects are carried out in the form of contract research with commercial entities.
TOP 5 IT4INnovations PROJEcTs
2023–2026
Project ID: LM2023054
Provider: Large Infrastructures for Research, Experimental Development and Innovation project
e-INFRA CZ is a unique e-infrastructure for research, development, and innovationin the Czech Republic, which represents a fully transparent environment providingcomplex capacities and resources for scientific data transfer, storage, and process-ing to all entities focused on research, development, and innovation across sectors.
It creates a communication, information, storage, and computing platform for re-search, development, and innovation both at the national and international levels. Italso provides an extensive and comprehensive portfolio of ICT services for conduct-ing modern research, development and innovation.
The main components of e-INFRA CZ include:
→ high-performance national communication infrastructure,
→ national grid and cloud infrastructure,
→ most powerful and state-of-the-art supercomputing systems in the Czech Republic,
→ high-capacity data storage facilities.
Other tools and services, such as access control to ICT resources, tools to supportremote cooperation, and tools to ensure secure communication and data protec-tion, are also an essential part and an added value of this infrastructure, contribut-ing to its efficient and diverse use.
EXA4MIND
EXtreme Analytics for MINing Data
2023–2025
Project ID: 101092944
EXA4MIND project will build an Extreme Data platform which brings together data storage systems and powerful computing infrastructures by implementing novel automated data management and effective data staging. The project is driven by four application cases from molecular dynamics, advanced driver assistance systems, smart agri-viticulture and health and social Big Data. The EXA4MIND proposes innovative solutions to complex everyday data-processing problems and addresses critical challenges like data analytics, Machine Learning and Artificial Intelligence at scale; effectively democratising access to and enabling connectivity across EU supercomputing centres.
EuroCC 2
National Competence Centres in the framework of EuroHPC Phase 2
2023–2025
Project ID: 101101903
The mission of EuroCC 2 is to continue the establishment of a network of National Competence Centres (NCC) in the most efficient way while continuing to address the differences in the maturity of HPC deployment in Europe. The main task of the overall activity is to support national centres in setting up their operational frameworks while accessing and making the most of the experience and expertise currently available at national and European levels. The main goal is to drive collaboration, and exchange of best practices and knowledge at the European level and to accelerate the improvement of national and thus European capabilities.
European Open Science Cloud Czech Republic
2023–2028
Project ID: CZ.02.01.01/00/22_004/0007682
The European Open Science Cloud (EOSC) is a European initiative focused on developing infrastructures supporting open science practices in research data management. It offers facilities for storing and sharing so-called FAIR research data – findable, accessible, interoperable, and reusable. The EOSC-CZ project is the implementation of the EOSC initiative in the Czech Republic, which aims to create a national node of this European initiative and promote good practice in research data management across scientific communities. Implementing National Data Infrastructures will create a common platform for sharing, managing, and accessing data and computing resources for research purposes. The NDI will support scientific and multidisciplinary research activities and include various scientific fields and disciplines.
More information here.
MAterials design at the eXascale
2023–2026
Project ID: 101093374
Materials simulations have become one of the most intensive and fast-growing domains for high-performance computing worldwide, with a recognized European leadership in developing and innovating the ecosystem of quantum simulation codes. MAX project will target these lighthouse codes to address the challenges and leverage the opportunities arising from future exascale and post-exascale architectures, and to offer powerful paths to discovery and innovation serving both scientific and industrial applications.
OTHER IT4INNOVATIONS PROJECTS
European Pilot for Exascale
2022–2025
Project ID: 101033975 (H2020-JTI-EuroHPC-2020-01, RIA)
The EUPEX consortium aims to design, build, and validate the first EU platform for HPC, covering end-to-end the spectrum of required technologies with European assets: from the architecture, processor, system software, and development tools to the applications. The EUPEX prototype will be designed to be open, scalable, and flexible, including the modular OpenSequana-compliant platform and the corresponding HPC software ecosystem for the Modular Supercomputing Architecture. Scientifically, EUPEX is a vehicle to prepare HPC, AI, and Big Data processing communities for upcoming European Exascale systems and technologies.
European Master for High Performance Computing
2022–2025
Project ID: 101051997 (H2020-JTI-EuroHPC-2020-03, CSA)
The consortium, led by the University of Luxembourg, includes universities, research and supercomputing centres, industrial partners, and other cooperating institutions. The consortium aims to launch master’s degree programmes at eight European universities: the University of Luxembourg, Universitat Politècnica de Catalunya, Politecnico di Milano, Friedrich-Alexander-Universität Erlangen-Nürnberg, Sorbonne Université, Sofia University St. Kliment Ohridski, Università della Svizzera Italiana, and Kungliga Tekniska Hoegskolan. It is envisaged that the list of participating universities and institutions will be expanded in the future. This activity is part of the broader EuroHPC Joint Undertaking strategy to support the development of key competencies and education and training in HPC for the needs of European science and industry.
HPC big dAta artifiCial intelligence cross stack platfoRm tOwardS exaScale
2021–2024
Project ID: 955648 (H2020-JTI-EuroHPC-2019-1, EuroHPC-IA)
The project aims to co-design and develop an HPC, BD, and Artificial Intelligence (AI) convergent platform, supporting applications in the Aeronautics, Climate and Weather, and Energy domains. To this end, the project will leverage the next generation of pre-exascale infrastructures, still ready for exascale systems and effective mechanisms to easily describe and manage complex workflows in the three domains mentioned. The project combines traditional HPC techniques with AI (specifically machine learning/deep learning) and BD analytic techniques to enhance the application test case outcomes.
SCAlable LAttice Boltzmann Leaps to Exascale
2021–2023
Project ID: 956000 (H2020-JTI-EuroHPC-2019-1, EuroHPC-IA)
The project brings together eminent industrial and academic partners to improve the performance, scalability, and energy efficiency of industrial Lattice Boltzmann methods-based computational fluid dynamics (CFD) software. The Lattice Boltzmann method (LBM) provides a reliable alternative to conventional CFD approaches. LBM is exceptionally well suited to exploit advanced supercomputer architectures as it enables massive parallelisation. The project will directly benefit European industry while contributing to fundamental research.
Data Infrastructure Capacity for EOSC
2021–2023
Project ID: 101017207 (H2020-INFRAEOSC-2018-2020, RIA)
The project consortium brings together a network of computing and data centres, research infrastructures, and data repositories to enable a European storage and data management infrastructure for EOSC, providing generic services and building blocks to store, find, access, and process data consistently and persistently.
IO Software for Exascale Architecture
2021–2024
Project ID: 955811 (H2020-JTI-EuroHPC-2019-1, EuroHPC-RIA)
IO-SEA aims to provide a novel data management and storage platform for exa-scale computing based on hierarchical storage management (HSM) and on-demand provisioning of storage services. The platform will efficiently use storage tiers spanning NVMe and NVRAM at the top all the way down to tape-based technologies. Advanced IO instrumentation and monitoring features will be developer within the project, leveraging the latest AI and machine learning advancements to systematically analyse the telemetry records and make smart decisions on data placement.
LIgand Generator and portable drug Discovery platform AT Exascale
2021–2024
Project ID: 956137 (H2020-JTI-EuroHPC-2019-1, EuroHPC-IA)
The project aims to integrate and co-design best-in-class European open-source components together with proprietary IPs to keep worldwide leadership on Computer-Aided Drug Design (CADD) solutions exploiting today’s high-end supercomputers and tomorrow’s Exascale resources, fostering European competitiveness in this field. The proposed LIGATE solution, in a fully integrated workflow, enables to deliver the result of a drug design campaign with the highest speed and accuracy; further implementation of auto-tuning the parameters of the solutions to meet the time and resource constraints.
dEsign enVironmEnt foR Extreme-Scale big data analytics on heterogeneous platforms
2020–2024
Project ID: 957269 (H2020-ICT-2018-20 / H2020-ICT-2020-1)
The project is developing a holistic approach for co-designing computation and communication in the high-tech and especially secure system for HPDA. This will be achieved by simplifying the programmability of heterogeneous and distributed architectures through a “data-driven” design approach, using hardware-accelerated AI, and the efficient monitoring of the execution with a unified hardware-software paradigm. The project will validate its approach by applying it in real-life business scenarios such as a weather analysis-based prediction model, an application for air-quality monitoring, and a smart city traffic modelling framework.
Novel Spin-Based Building Blocks for Advanced TeraHertz Applications
2020–2024
Project ID: 863155 (H2020-FETOPEN-2018-2020, RIA)
The project aims to research and develop a revolutionary approach to TeraHertz (THz) technology for generating and detecting THz radiation, initiating the new field of spin-based TeraHertz technology. The project aims to provide a platform of room-temperature innovative spin-based THz building blocks arising from novel combinations of magnetism and optics. The project will provide cutting-edge solutions to solve bottleneck scientific issues in the THz field motivated by clear needs in judiciously chosen target applications.
PRACE-6IP – Partnership for Advanced Computing in Europe, 6th Implementation Phase
2019–2022
Project ID: 823767 (H2020 INFRAEDI-2018-2020)
The project’s objective was to build on the previous successful PRACE projects, the task of which was to implement the European HPC infrastructure and to continue to develop supercomputing cooperation to strengthen the competitiveness of European science, research, and industry. Unlike the previous ones, the sixth project in a row to support the pan-European PRACE research infrastructure and its users was focused on identifying and developing new applications with significant potential to exploit the capacity of exascale supercomputers.
Open European Quantum Key Distribution Testbed
2019–2023
Project ID: 857156 (H2020-SU-ICT-2018-2020)
The project aims to establish a testbed for a highly secure network using the principles of quantum mechanics for key distribution. It has been the most extensive implementation of QKD (Quantum Key Distribution) in Europe. The role of IT4Innovations lies primarily in three areas. The first is a real use case of HPC via QKD between IT4Innovations and PSNC (Poznan). The second is participation in the development and implementation of key management. The third is a simulation of the QKD use cases of all partners in the project and the improvement of an open/source QKD simulator, which is being developed as an open source. The computational resources of IT4Innovations are used for the simulations.
2019–2021
Large-scale Execution for Industry & Society
Identifikátor projektu: 825532 (H2020-ICT-2018-2020)
The project's goal is to create an advanced engineering platform using modern technologies such as high-performance computing, big data, and cloud services. The benefits of the LEXIS project will be demonstrated by validating the platform in three use cases suitable for industrial sectors such as aeronautics, weather and climate, and earthquake and tsunami.
2018–2021
Exascale Quantifications of Uncertainties for Technology and Science Simulation
Identifikátor projektu: 800898 (H2020-FETHPC-2016-2017)
The three-year-long project ExaQUte aims to develop new methods for solving complex engineering problems using computational simulations on exascale systems. Within the project, new computational methods and software tools for solving aerodynamic simulations to optimize geometrically complex structures will be developed. The work of IT4Innovations in the project involves collaborating in deploying Hyperloom and COMPss tools on high-performance computing systems, as well as their configuration and optimization. IT4Innovations will also be involved in testing robust algorithms for shape optimization of structures under wind loads.
Performance Optimisation and Productivity 2
2018–2022
Project ID: 824080 (H2020-INFRAEDI-2018-1)
The POP2 Centre of Excellence built on the Performance Optimisation and Productivity 1 (POP1) project and extended its activities. The main aim of POP2 was to assist with the analysis of parallel applications, identify erroneous parts of codes, and make recommendations of optimisation methods, resulting in increased performance and better scalability of a given application.
2017–2021
EXperiments and high PERformance computing for Turbine mechanical Integrity and Structural dynamics in Europe
Project ID: (H2020-MSCA-ITN-2016 call)
The objective of this project is to educate researchers able to participate in interdisciplinary cooperation in the areas of supercomputing and mechanics. The colaboration between industrial partners and research organizations will speed up development of the key technologies in turbomachinery and their rapid commissioning in practice. The project is supported by Marie Skłodowska-Curie Innovative Training Networks grant within Horizon 2020.
2017–2021
Technology transfer via multinational application experiments
Project ID: 761349 (H2020-ICT-2016-2 call)
The objective of this project was to implement the European "Smart Anything Everywhere" initiative in the field of Customized Low Energy Computing for cyber-physical systems and the Internet of Things. The essential purpose of this initiative is to accelerate innovations in European industry. The initiative connects technical and application know-how, which helps small and medium-sized enterprises adopt advanced digital technologies more effectively and efficiently.
2017–2021
Cloudification of Production Engineering for Predictive Digital Manufacturing
Project ID: 768892 (H2020-FOF-2017 call)
The project's mission was to contribute to efficient use of high performance computing by European small and medium-sized production companies and thus increase their competitiveness. This project aims at the optimization of production processes and productivity of companies using HPC-based modelling and simulation, as well as cloud services.