Summary
Bio-inspired and quantum paradigms have risen as the two main competitors aiming to address the inefficiency of “conventional” computational schemes. Up to now these two paradigms utilize non-overlapping routes towards addressing this common objective; routes that are challenging in terms of scalability and integration readiness. PROMETHEUS’ proposition aims to shatter the boundaries between neuromorphic and quantum engineering and merge them to a common disruptive photonic integrated platform, able to merge each field’s merits. The platform will be based on a dense reconfigurable silicon waveguide mesh, powered by non-volatile BaTiO3 phase-shifters offering marginal power consumption and GHz tuning speed, during mesh reconfiguration. A key “upgrade” to this “synaptic” platform will be the co-integration of ultra-fast, multi-section lasers, acting as “neurons”. Sophisticated electro-optic packaging, will provide the basis to PROMETHES’ platform so as to evolve from the proof-of-concept limbo to a standalone neuromorphic/quantum hybrid integrated engine. This versatile chip will enable the realization of neuromorphic architectures such as large-scale spiking neural networks by exploiting signal multiplexing and GHz firing rate, photonic time-based convolutional networks, liquid state machines and on-chip training. PROMETHEUS will render feasible the exploration of disruptive concepts such as quantum reservoir computing. The platform will be utilized as an integrated quantum random generator and as a physical unclonble function, adding physical layer trustworthiness and novel security features. PROMETHEUS’ chips will be benchmarked, in terms of consumption, accuracy, speed and versatility, in a set of demanding applications that extend from ultra-fast image processing for flow cytometry and machine vision, signal equalization and authentication in high-speed optical links to quantum key generation and distribution.
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| Web resources: | https://cordis.europa.eu/project/id/101070195 |
| Start date: | 01-09-2022 |
| End date: | 31-08-2025 |
| Total budget - Public funding: | 3 830 019,75 Euro - 3 830 019,00 Euro |
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Original description
Bio-inspired and quantum paradigms have risen as the two main competitors aiming to address the inefficiency of “conventional” computational schemes. Up to now these two paradigms utilize non-overlapping routes towards addressing this common objective; routes that are challenging in terms of scalability and integration readiness. PROMETHEUS’ proposition aims to shatter the boundaries between neuromorphic and quantum engineering and merge them to a common disruptive photonic integrated platform, able to merge each field’s merits. The platform will be based on a dense reconfigurable silicon waveguide mesh, powered by non-volatile BaTiO3 phase-shifters offering marginal power consumption and GHz tuning speed, during mesh reconfiguration. A key “upgrade” to this “synaptic” platform will be the co-integration of ultra-fast, multi-section lasers, acting as “neurons”. Sophisticated electro-optic packaging, will provide the basis to PROMETHES’ platform so as to evolve from the proof-of-concept limbo to a standalone neuromorphic/quantum hybrid integrated engine. This versatile chip will enable the realization of neuromorphic architectures such as large-scale spiking neural networks by exploiting signal multiplexing and GHz firing rate, photonic time-based convolutional networks, liquid state machines and on-chip training. PROMETHEUS will render feasible the exploration of disruptive concepts such as quantum reservoir computing. The platform will be utilized as an integrated quantum random generator and as a physical unclonble function, adding physical layer trustworthiness and novel security features. PROMETHEUS’ chips will be benchmarked, in terms of consumption, accuracy, speed and versatility, in a set of demanding applications that extend from ultra-fast image processing for flow cytometry and machine vision, signal equalization and authentication in high-speed optical links to quantum key generation and distribution.Status
SIGNEDCall topic
HORIZON-CL4-2021-DIGITAL-EMERGING-01-07Update Date
09-02-2023
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Organisations
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| IPRONICS PROGRAMMABLE PHOTONICS,SL (Coördinator)
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| DANMARKS TEKNISKE UNIVERSITET
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| FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
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| Ghent University
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| IBM RESEARCH GMBH
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| INIVATION AG
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| LUMIPHASE AG
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| PANEPISTIMIO AIGAIOU
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| PANEPISTIMIO DYTIKIS ATTIKIS
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| QTI SRL
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| SCINTIL PHOTONICS