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Active HORIZON European Commission

NEUROmorphic energy-efficient secure accelerators based on Phase change materials aUgmented siLicon photonicS

€8.32M EUR

Funder European Commission
Recipient Organization Centre National de la Recherche Scientifique CNRS
Country France
Start Date Jan 01, 2023
End Date Dec 31, 2026
Duration 1,460 days
Number of Grantees 14
Roles Participant; Third Party; Coordinator
Data Source European Commission
Grant ID 101070238
Grant Description

The growing need to transfer massive amounts of data among multitudes of interconnected devices for e.g., self-driving vehicles, IoT or industry 4.0 has led to a quest towards low-power and secure approaches to locally processing data.

Neuromorphic computing, a brain-inspired approach, addresses this need by radically changing the processing of information.

Although neuromorphic electrical computing systems offer advantages in terms of CMOS implementations and scalability, they inherit limitations of conventional electronics such as low energy-efficiency, high latency and low bandwidth density. Besides, such systems often require robust security layers for e.g., safety-critical applications.

Security layers based on memory-stored secret keys are prone to several types of memory-accessing attacks.

Therefore, silicon hardware approaches for security primitives such as physical unclonable functions (PUFs) are currently investigated because of their absence of long-term digital memory storage.

Although electronic PUFs have received major attention thanks to their native CMOS implementation, for secure authentication they are prone to machine learning and side-channel attacks due to their CMOS technology.The NEUROPULS project aims to build next-generation low-power and secure edge-computing systems by developing novel photonic computing architectures and security layers based on photonic PUFs in augmented silicon photonics CMOS-compatible platforms.

The integration of emerging non-volatile phase change materials for synapses/neurons and III-V materials for on-chip spiking sources, for the first time, will allow to build novel neuromorphic accelerators featuring RISC-V compliant interfaces for smooth adoption and programmability. Optimal performance will be achieved thanks to a novel full-system simulation platform for design space exploration.

Three relevant use-cases will be considered for benchmarking to demonstrate 2 orders of magnitude energy efficiency improvement.

All Grantees

Albora Technologies Sl; Universita Degli Studi Di Verona; Universite Dijon Bourgogne; Universiteit Gent; Ethniko Kai Kapodistriako Panepistimio Athinon; Commissariat A L Energie Atomique Et Aux Energies Alternatives; Hewlett Packard Enterprise Belgium; Technische Universitat Berlin; Politecnico Di Torino; Ecole Centrale de Lyon; Inesc Id - Instituto de Engenhariade Sistemas E Computadores, Investigacao E Desenvolvimento Em Lisboa; Argotech As; Centre National de la Recherche Scientifique CNRS; Barcelona Supercomputing Center Centro Nacional de Supercomputacion

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