Project Details
Description
This project will investigate new hardware to solve computationally hard optimization problems. The
hardware is based on a unique combination of two ground-breaking ideas that have been developed
at UGent and VUB-APHY
respectively. They are now being brought together for the first time to create a novel photonic
neuromorphic architecture, enabling an unprecedented combination of speed and power efficiency.
The two concepts combined yield a novel architecture for Ising machines. Next to developing this
new high speed implementation, we will develop in parallel theory based on continuation methods to
understand the operation of these Ising machines and the difficulty of the problems at hand. Finally,
for our Ising machines to be viable future candidates to tackle a broad range of optimisation
problems, we have to move beyond quadratic unconstrained binary optimization methods. Therefore,
in this project we explore higher order spin couplings and multilevel spin systems
hardware is based on a unique combination of two ground-breaking ideas that have been developed
at UGent and VUB-APHY
respectively. They are now being brought together for the first time to create a novel photonic
neuromorphic architecture, enabling an unprecedented combination of speed and power efficiency.
The two concepts combined yield a novel architecture for Ising machines. Next to developing this
new high speed implementation, we will develop in parallel theory based on continuation methods to
understand the operation of these Ising machines and the difficulty of the problems at hand. Finally,
for our Ising machines to be viable future candidates to tackle a broad range of optimisation
problems, we have to move beyond quadratic unconstrained binary optimization methods. Therefore,
in this project we explore higher order spin couplings and multilevel spin systems
| Acronym | FWOAL1146 |
|---|---|
| Status | Active |
| Effective start/end date | 1/01/25 → 31/12/28 |
Keywords
- Ising machines
- combinatorial optimization
Flemish discipline codes in use since 2023
- Photonics, optoelectronics and optical communications
- Neuromorphic computing
- Nanophotonics
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Research output
- 1 Article
-
Incorporating external fields in analog Ising machines
De Prins, R., Lamers, J., Bienstman, P., Van Der Sande, G., Verschaffelt, G. & Van Vaerenbergh, T., 27 Nov 2025, In: Communications Physics. 8, 10 p., 482.Research output: Contribution to journal › Article › peer-review
Open AccessFile