SMARTY

Scalable and Quantum Resilient Heterogeneous Edge Computing enabling Trustworthy AI

Abstract

SMARTY invokes a cloud-edge continuum, made from heterogeneous systems, that protects data-in-transit and data-in-process in order to offer a trustful fabric to run AI processes. The securitization occurs by employing novel accelerators for quantum resilient communications, confidential computing, software defined perimeters and swarm formation, offering multiple layers of security.
Semantic programmability and graph-management open the door to drag-and-drop approaches in deploying services in a fast and reliable manner.
SMARTY is proposed within the context of different key sectors in Europe: automotive, fintech, telco and industrial settings; the technology proposed in SMARTY will be matured within the lifetime of the project and tested through five use cases.

  • Partners
    Mellanox Technologies Denmark Aps (DK), Italtel (IT), University Of Stuttgart (DE), Nubis (EL), Technische Universitat Berlin (DE), NNG (HU), Cefriel (IT), CNIT (IT), Golfe (DK), Nvidia (IT), Metaphacts (DE), Mellanox Technologies (IL), ISRD (PL), Gottfried Wilhelm Leibniz Universitaet Hannover (DE), Tamogatott Kutatocsoportok Irodaja (HU), INFAI (DE), Ethnicon Metsovion Polytechnion (EL), Cognitive Experts (ES), Universidad Politecnica De Madrid (ES), Qamcom Research And Technology Central Europe (HU), Robert Bosch (DE), Infineon Technologies (DE), Inbestme Europe (ES), Technische Universitaet Muenchen (DE), Continental Automotive Romania (RO), Iquadrat Informatica (ES), Scontain (DE), Scuola Superiore di Studi Universitari e di Perfezionamento S. Anna (IT), Barcelona Supercomputing Center Centro Nacional de Supercomputacion (ES), Eesy-Innovation (DE), Computational Modelling Pirmasens (DE), Technische Universiteit Eindhoven (NL), Nexaeve (DE), Orange Polska (PL)
  • Call
    HORIZON-KDT-JU-2023-1-IA
  • Duration
    36 months