Large-scale Multicore Smart Photonics: Using advanced design and configuration protocols to develop the largest-scale programmable photonic processor

ERC (European Research Council)HORIZON-ERCID: 101076175
EC Contribution
€14,993
Consortium Size
1 orgs
Start Year
2023
Summary

Emerging communications and computing fields are pushing the limits of integrated electronics demanding growing performance and requiring to symbiotically team up with integrated photonics. The development of multipurpose programmable photonic integrated circuits promises cost-effective mass production and the system versatility required in novel dynamic processing scenarios. However, their scalability is a major challenge constrained both by hardware and software.To unleash the potential of programmable photonics it is essential to create novel circuits and components as well as to re-define its fundamentals. Multicore architectures are a potential unexplored solution offering scalability, multitasking, and parallelization, but key technology enablers are required to jump to practical large-scale applications.The aim of this project is to develop the theoretical and technological fundamentals of programmable integrated photonics to unlock their limited-scale by developing the first large-scale multicore programmable photonic processor and its application as a complex-valued neuromorphic computer.To achieve this aim, we will (i) identify the main scalability limits, advanced photonic circuit architectures and component development solutions for large-scale programmable photonic circuits; (ii) develop a functional single-core programmable photonic processor with more than 2500 phase actuators; (iii) demonstrate large-scale complex-valued coherent neuromorphic circuits; and (iv) develop a functional 4-core programmable photonic processor with more than 10000 actuators and demonstrate its experimental application to photonic neuromorphic systems.LS-PHOTONICS’s will have a major impact on high-density integrated photonics circuits by facilitating a new paradigm of general-purpose/application, advanced photonic computing and ready-to-use and flexible devices that will extend the penetration of advanced photonics technology into seamless areas of application.

Consortium (1)

Project Results (12)

Source: CORDIS, the EU research results database.

Publications (11)
AIP Advances
APL Photonics· 2025DOI
José Roberto Rausell-Campo; Daniel Pérez-López; José Capmany Francoy
Differential evolution algorithm for compact and highly accurate photonic extreme learning machines
· 2025DOI
J. R. Rausell, D. Pérez-López, A. Hurtado, J. Capmany
Large-scale photonic processors and their applications
npj Nanophotonics· 2025DOI
Daniel Pérez-López, Luis Torrijos-Morán
Programmable Photonic Extreme Learning Machines
Laser & Photonics Reviews· 2025DOI
José Roberto Rausell‐Campo; Antonio Hurtado; Daniel Pérez‐López; José Capmany Francoy
Photonic extreme learning machines using hexagonal programmable waveguide meshes
· 2024DOI
J. R. Rausell, D. Pérez-López, and J. Capmany Francoy
Programming universal unitary transformations on a general-purpose silicon photonics platform
arXiv· 2024DOI
Jose Roberto Rausell-Campo, Daniel Pérez, López, José Capmany Francoy
Software-defined optical networking applications enabled by programmable integrated photonics
Journal of Optical Communications and Networking· 2024DOI
Zhenyun Xie, David Sánchez-Jácome, Luis Torrijos-Morán, Daniel Pérez-López
Universal unitary transformations on a programmable integrated photonic processor
· 2024DOI
J. R. Rausell, D. Pérez-López, J. Capmany Francoy
General purpose programmable photonic processor for advanced radiofrequency applications
Nature Communications· 2023DOI
Daniel Pérez-López; Ana Gutierrez; David Sánchez; Aitor López-Hernández; Mikel Gutierrez; Erica Sánchez-Gomáriz; Juan Fernández; Alejandro Cruz; Alberto Quirós; Zhenyun Xie; Jesús Benitez; N
Tandem Neural Networks for the Inverse Programming of Linear Photonic Processors
2023 International Topical Meeting on Microwave Photonics (MWP)· 2023DOI
José Roberto Rausell-Campo, Daniel Pérez-López, Bhavin Shastri, Daniele Melati
Thermal Crosstalk Modeling and Compensation for Programmable Photonic Processors
2023 IEEE Photonics Conference (IPC)· 2023DOI
Ali Cem, David Sanchez-Jacome, Daniel Pérez-López, Francesco Da Ros
Deliverables (1)
Data Management Plan