SubsidieMeestersIntegrated Quantum Network Node using Chip-based Qubit Devices
Delft Networks aims to develop scalable quantum networking technology and services to demonstrate real-world applications, enhancing societal and economic value through innovative quantum connectivity.
Projectdetails
Introduction
Computer networks have had a profound impact on humanity, fundamentally changing our everyday lives. Akin to these ‘classical’ networks, quantum networks will distribute quantum information, thereby leveraging unique quantum advantages for applications which provably outperform any classical approach.
Mission of Delft Networks
The mission of Delft Networks is to develop the technology and services that unlock the large societal and economic potential of general-purpose quantum networks. Building on world-leading research and a strong IP foundation, InQubate will position us to execute proof-of-concept use-case demonstrations that link to concrete user demands and that use scalable technology.
Development of Quantum Networking Node
To reach this stage, we will build a full-stack integrated quantum networking node using chip-based networking qubits. Reconfigurable optical links between its qubits will enable its use as a development and use-case testbed for various relevant network topologies.
Exploiting Recent Breakthroughs
In doing so, we will exploit our recent breakthroughs in:
- Diamond networking qubits
- Optical device packaging
- Quantum network software architectures
We aim to push these to TRL6 at the system level.
Business Objectives
In conjunction, our business objective aims to translate well-known conceptual advantages of quantum connectivity to concrete use-cases that create real value for industry and society. We will achieve this by:
- Combining expertise in application protocol development
- Establishing connections to relevant industry
- Providing a bespoke application co-development process
Engaging with End-Users
Achieving the tech objective will provide a complete system to engage with end-users in co-developing solutions that create value. The outcomes of the use-case work will provide continued feedback to steer tech development to the needs of end-users.
Future Market Opportunities
Achieving the objectives will allow us to capitalize on our innovations and expertise, unlocking future markets and investments. This will provide Europe with a leading industry player in this emerging strategic market.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.499.999 |
| Totale projectbegroting | € 2.499.999 |
Tijdlijn
| Startdatum | 1-6-2025 |
| Einddatum | 31-5-2027 |
| Subsidiejaar | 2025 |
Partners & Locaties
Projectpartners
- Delft Networks B.V.penvoerder
Land(en)
Vergelijkbare projecten binnen EIC Transition
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Industry-grade Quantum Memory Links enabling the Quantum InternetQMLINK aims to develop industry-grade quantum memory links for a Quantum Internet, enhancing secure communication and distributed computing with high efficiency and long storage times. | EIC Transition | € 2.499.375 | 2024 | Details |
A Quantum System on Chip for equal access to secure communications: a pilot-ready photonic integrated circuit with embedded quantum key distribution functions for high-performance transceivers.PhotonIP aims to develop a cost-effective, miniaturized Quantum System on Chip (QSoC) for mass-market quantum key distribution, ensuring secure communications across existing networks. | EIC Transition | € 2.307.188 | 2022 | Details |
Industry-grade Quantum Memory Links enabling the Quantum Internet
QMLINK aims to develop industry-grade quantum memory links for a Quantum Internet, enhancing secure communication and distributed computing with high efficiency and long storage times.
A Quantum System on Chip for equal access to secure communications: a pilot-ready photonic integrated circuit with embedded quantum key distribution functions for high-performance transceivers.
PhotonIP aims to develop a cost-effective, miniaturized Quantum System on Chip (QSoC) for mass-market quantum key distribution, ensuring secure communications across existing networks.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Q-NETQphoX en Q*BIRD ontwikkelen een quantum connectie tussen QPU's via Transducers en een Central Hub om de toegankelijkheid van quantumtechnologie te vergroten en langeafstandverbindingen mogelijk te maken. | Mkb-innovati... | € 298.970 | 2022 | Details |
Ontwikkeling Quantum Control HighwayDit R&D-project richt zich op het ontwikkelen van een gestandaardiseerd modulair systeem voor kwantumcomputerinfrastructuur, waarmee opschaling van 16 tot 1024 qubits mogelijk wordt, met aanzienlijke economische voordelen. | Mkb-innovati... | € 194.894 | 2019 | Details |
Scaling-up quantum computers with quantum memory linksWelinq is developing interconnection technology for modular quantum architectures to enhance qubit scalability and drive global adoption of quantum computing solutions. | EIC Accelerator | € 2.486.312 | 2025 | Details |
QUantum reservoir cOmputing based on eNgineered DEfect NetworkS in trAnsition meTal dichalcogEnidesThis project aims to develop a proof-of-concept for Quantum Reservoir Computing using Quantum Materials defects to create advanced computing devices and enhance Quantum Technologies. | EIC Pathfinder | € 2.675.838 | 2024 | Details |
SCALABLE MULTI-CHIP QUANTUM ARCHITECTURES ENABLED BY CRYOGENIC WIRELESS / QUANTUM -COHERENT NETWORK-IN PACKAGEThe QUADRATURE project aims to develop scalable quantum computing architectures with distributed quantum cores and integrated wireless links to enhance performance and support diverse quantum algorithms. | EIC Pathfinder | € 3.420.513 | 2023 | Details |
Q-NET
QphoX en Q*BIRD ontwikkelen een quantum connectie tussen QPU's via Transducers en een Central Hub om de toegankelijkheid van quantumtechnologie te vergroten en langeafstandverbindingen mogelijk te maken.
Ontwikkeling Quantum Control Highway
Dit R&D-project richt zich op het ontwikkelen van een gestandaardiseerd modulair systeem voor kwantumcomputerinfrastructuur, waarmee opschaling van 16 tot 1024 qubits mogelijk wordt, met aanzienlijke economische voordelen.
Scaling-up quantum computers with quantum memory links
Welinq is developing interconnection technology for modular quantum architectures to enhance qubit scalability and drive global adoption of quantum computing solutions.
QUantum reservoir cOmputing based on eNgineered DEfect NetworkS in trAnsition meTal dichalcogEnides
This project aims to develop a proof-of-concept for Quantum Reservoir Computing using Quantum Materials defects to create advanced computing devices and enhance Quantum Technologies.
SCALABLE MULTI-CHIP QUANTUM ARCHITECTURES ENABLED BY CRYOGENIC WIRELESS / QUANTUM -COHERENT NETWORK-IN PACKAGE
The QUADRATURE project aims to develop scalable quantum computing architectures with distributed quantum cores and integrated wireless links to enhance performance and support diverse quantum algorithms.