SubsidieMeestersScalable Hardware for Large-Scale Quantum Computing
Developing a scalable, fault-tolerant quantum computer using advanced cryo-CMOS technology to enhance precision and efficiency in processing complex data across various fields.
Projectdetails
Introduction
Computing power is key to innovation, allowing us to process vast amounts of data and solve complex problems in fields such as finance, healthcare, science, and engineering. However, traditional computing has limitations, and quantum computing offers a solution.
Advantages of Quantum Computing
Quantum computers excel at optimization tasks such as solving complex logistical problems. One day, they may be able to accurately model viruses and drugs, as well as come up with climate solutions.
Current Challenges
However, we currently face hardware and scalability limitations in creating large-scale and fault-tolerant quantum computers.
Our Solution
To address this challenge, we have developed a new technology that integrates:
- A cryo-CMOS multiplexer for precise control of high-quality silicon spin qubits
- Commercial-ready nanometer-scale CMOS processes to create and accommodate millions of such qubits
Our technology operates at relatively high temperatures, resulting in a smaller carbon footprint and a more compact form factor. This will make it a practical and energy-efficient solution for easy and sustainable deployment.
Project Goals
Our goal is to build a full-stack quantum computer demonstrator using:
- SQT's breakthrough high-quality Si spin qubit & cryo-CMOS multiplexer technology
- QBX's extensive gate model quantum computing characterization & control experience
The final demonstrator system will be a significant step forward in the development of scalable, fault-tolerant quantum computers that require millions of qubits.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.499.998 |
| Totale projectbegroting | € 2.499.998 |
Tijdlijn
| Startdatum | 1-9-2023 |
| Einddatum | 28-2-2026 |
| Subsidiejaar | 2023 |
Partners & Locaties
Projectpartners
- SEMIQON TECHNOLOGIES OYpenvoerder
- QBLOX BV
Land(en)
Vergelijkbare projecten binnen EIC Transition
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Developing Multi-Core Silicon-Based Quantum ProcessorsThe project aims to develop a scalable FDSOI-based quantum processor demonstrator with a 4X4 multi-core architecture to bridge the gap between semiconductor techniques and quantum computing needs. | EIC Transition | € 2.440.870 | 2024 | Details |
Germanium quantum processors: more, robust, availableGroove aims to develop scalable germanium-based qubits for quantum computing, achieving 16 qubits for cloud access while preparing a start-up to meet market demands and advance the EU's quantum ambitions. | EIC Transition | € 2.499.999 | 2023 | Details |
Scalable Qubit Readout to Resolve Superconducting Quantum Computing’s Skeleton in the ClosetSilent Waves aims to revolutionize qubit readout in quantum computing with a compact Traveling Wave Parametric Amplifier, enhancing scalability and performance for practical quantum processors. | EIC Transition | € 2.479.570 | 2025 | Details |
Real-World Commercial Coherent Quantum Annealing TechnologyOur project aims to accelerate quantum computing readiness by providing a full-stack solution with coherent quantum annealers and a Quantum as a Service suite for seamless industry integration. | EIC Transition | € 2.495.000 | 2023 | Details |
Developing Multi-Core Silicon-Based Quantum Processors
The project aims to develop a scalable FDSOI-based quantum processor demonstrator with a 4X4 multi-core architecture to bridge the gap between semiconductor techniques and quantum computing needs.
Germanium quantum processors: more, robust, available
Groove aims to develop scalable germanium-based qubits for quantum computing, achieving 16 qubits for cloud access while preparing a start-up to meet market demands and advance the EU's quantum ambitions.
Scalable Qubit Readout to Resolve Superconducting Quantum Computing’s Skeleton in the Closet
Silent Waves aims to revolutionize qubit readout in quantum computing with a compact Traveling Wave Parametric Amplifier, enhancing scalability and performance for practical quantum processors.
Real-World Commercial Coherent Quantum Annealing Technology
Our project aims to accelerate quantum computing readiness by providing a full-stack solution with coherent quantum annealers and a Quantum as a Service suite for seamless industry integration.
Vergelijkbare projecten uit andere regelingen
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Democratizing quantum computing with 3D scalable and customizable quantum processors:The project aims to revolutionize quantum computing by developing affordable, customizable, and scalable QPUs using innovative technologies, enabling faster access to high-capacity quantum processors. | EIC Accelerator | € 2.499.700 | 2023 | 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 |
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 |
A MILLION QUBIT QUANTUM COMPUTER - HIGHLY SCALABLE SOLID STATE QUANTUM COMPUTING PLATFORM WITH NATIVE OPTICAL NETWORKINGQuantum Transistors aims to develop a highly scalable quantum computing platform with millions of qubits, using efficient cooling methods for broader adoption and reduced costs. | EIC Accelerator | € 2.499.999 | 2024 | Details |
High-Throughput Quantum Chip DiagnosticsWe are developing the Orange Quantum Diagnostics System to automate and expedite the quality assessment of quantum chips, enabling faster transition from research to industry-grade applications. | EIC Accelerator | € 2.499.999 | 2023 | Details |
Democratizing quantum computing with 3D scalable and customizable quantum processors:
The project aims to revolutionize quantum computing by developing affordable, customizable, and scalable QPUs using innovative technologies, enabling faster access to high-capacity quantum processors.
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.
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.
A MILLION QUBIT QUANTUM COMPUTER - HIGHLY SCALABLE SOLID STATE QUANTUM COMPUTING PLATFORM WITH NATIVE OPTICAL NETWORKING
Quantum Transistors aims to develop a highly scalable quantum computing platform with millions of qubits, using efficient cooling methods for broader adoption and reduced costs.
High-Throughput Quantum Chip Diagnostics
We are developing the Orange Quantum Diagnostics System to automate and expedite the quality assessment of quantum chips, enabling faster transition from research to industry-grade applications.