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European Science Cluster of Astronomy & Particle physics ESFRI research infrastructures

Periodic Reporting for period 3 - ESCAPE (European Science Cluster of Astronomy & Particle physics ESFRI research infrastructures)

Okres sprawozdawczy: 2022-02-01 do 2023-01-31

The European Science Cluster of Astronomy & Particle physics research infrastructures (ESCAPE) brings together seven ESFRI facilities (CTA, ELT, EST, FAIR, HL-LHC, KM3NeT, SKA), two pan-European organizations (CERN, ESO), an ERIC (JIV-ERIC) and a French-Italian private Consortium (EGO-Virgo). It has the unique ambition of developing a multi-probe and cross-domain Open Science Cloud environment engaging researchers from astronomy, astroparticle physics and particle and nuclear physics.

The EOSC will be Europe’s virtual environment for all researchers to access, manage, exploit and re-use research outputs, open science resources and services for research, innovation and educational purposes. ESCAPE will deliver a set of services that will support Exabyte-scale FAIR data stewardship and open science, as well as being used by the engaged research collaborations in the international and global context of their science.
In this second reporting period a pilot ESCAPE Data Lake was designed, deployed and successfully assessed through a joint exercise by the partner ESFRI RIs. Such an exercise was performed along a full processing chain: (i) from data recording from the telescopes/detectors/sensors to data browsing and access by users; (ii) consequently data were challenged through several RI-designed production-like activities covering processing workflows and data analysis pipelines. Some end-to-end workflows have been running integrally in the Data Lake, that, although originally developed for particle physics, is now expanded and adapted to astroparticle physics, astronomy and cosmology communities thanks to ESCAPE. A broader community of potential users has been engaged through integration of the Data Lake with higher level services to hide the complexity, and giving a simple user view of the service.. AAI services and HPC interfaces within the Data Lake in collaboration with the FENIX/HPC project were successfully tested.

ESCAPE beneficiaries contributed to the development, benchmarking and deployment of software. Gathering common practices and know-how towards the definition of best community approaches for FAIRness of software was a highly relevant step forward for the benefit of the EOSC architecture. Partners contributed to and developed a series of software and services, enriching the ESCAPE catalogue content, including innovation, mostly in the domains of machine learning methods and high-performance programming. All developments are openly available and an example project exists, showing the full possibilities of the system, from best practices in software development (e.g. license and metadata), over continuous integration to test and upload the project to the catalogue, that is linked to the EOSC core services.

The integration of the Virtual Observatory (VO) in the current EOSC infrastructure has progressed significantly during the reporting period. The VO community of data providers and consumers has analysed largely connection points, requirements and challenges for such a purpose. Major progress was achieved towards interoperability standards of tool definition for the multi-messengers investigation with the future advent of the ESFRI projects currently in construction.

The main progress accomplished along the plan for implementing the analysis platform concerned the “integration” activity. Namely,enabling the prototype science analysis platform to interface to most of the other components of the ESCAPE cell: (i) “Data-Lake-as-a-Service” (DLaaS) project; (ii) enabling attached storage in analysis environments of any user, for making large data products available to the compute resource; (iii) VOSpace storage and query services; (iv) analysis software catalogue access and deployment; (v) user analysis environment services.

ESCAPE has been working to integrate into its analysis platform the Zooniverse citizen science platform, with the aim of addressing requirements from the largest possible categories of users. A recent extension of our tasks has been to incorporate engagement not just with the ESCAPE science community, but with the wider EOSC-Future communities.

Finally we acknowledge the active participation of the ESCAPE coordinator to the set-up of the EOSC Future work programme as well as to establish a dedicated consortium. The coordination action with the other science clusters (EOSC-Life, SSHOC, ENVRI-FAIR and PANOSC) as well as with other pan-European e-infrastructures has been intense and successful. We acknowledge a large number of workshops, co-edition of position documents and meetings with the EOSC Association Board, ESFRI Board and EC.
The main results expected by the end of the project (within less than a year) will be to achieve the full deployment of services that the consortium committed to and establish requirements and paths for their consolidation and sustainable operation. All ESCAPE services must respond to researchers’ expectations, demonstrating value added to their data analysis when users are integrated in the ESCAPE Virtual Research Environment dedicated to FAIR-data-science. For such a purpose the ESCAPE project combined with the commitments of the ESCAPE cluster in the EOSC Future work programme guarantee that our project will continue progressing beyond the state of the art. In the next phase of the project two large “Test Science Projects” (TSP) will be implemented to demonstrate new cutting-edge scientific capabilities, making use of the services implemented within ESCAPE. The first TSP addresses a fundamental scientific question on Dark Matter, by integrating all of the data from the astronomy and particle physics ESFRIs and providing a unique opportunity to explore that data coherently. The second TSP on the Extreme Universe and Gravitational Waves will push the frontier in Multi-Messenger Astronomy, by fully exploiting the data available in ESCAPE and the capabilities of the science and e-infrastructure platforms. These projects, together with other scientific use cases in ESCAPE will give strong feedback on the capabilities delivered by ESCAPE, and will serve to both ensure a clean integration of facilities across the project as well as demonstrate open science capabilities within a sustainable framework fully integrated in the EOSC.
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