SciTransfer
DEMOQC · Project

Scalable and Customizable Quantum Processors for Faster Market Entry

digitalPilotedTRL 7

Imagine trying to build a skyscraper, but you can only run wires across the floor, making it impossible to reach the top levels. This project moves the wiring into 3D layers so the computer can grow much larger without getting tangled. It's like moving from a flat map to a multi-story building, making these powerful chips easier and cheaper to build for everyone.

By the numbers
1000+
qubit QPUs
30
days to deliver packaged QPUs
The business problem

What needed solving

Quantum processing units are scarce and expensive, creating a monopoly for tech giants. Small innovators cannot afford to build their own hardware and lack access to reliable suppliers.

The solution

What was built

A scalable 3D architecture for QPUs and an automated design workflow to increase qubit yield and quality.

Audience

Who needs this

Quantum computer integratorsQuantum software startupsResearch labsFinancial modeling firmsPharmaceutical R&D centers
Business applications

Who can put this to work

Pharmaceuticals
SME
Target: Drug discovery startup

If you are a drug discovery startup dealing with the high cost of proprietary quantum hardware — this project developed customizable QPUs that lower entry barriers. This allows you to run complex chemistry simulations without needing the capital of a tech giant.

Finance
mid-size
Target: Quantitative hedge fund

If you are a quantitative hedge fund dealing with limited access to high-qubit processors — this project developed modular 1000+ qubit QPUs. This enables the processing of larger financial datasets for optimization and risk analysis.

Quantum Computing Systems
any
Target: Quantum computer integrator

If you are a quantum computer integrator dealing with a scarcity of available processing units — this project developed a high-yield fabrication process. You can now receive fully packaged QPUs in less than 30 days.

Frequently asked

Quick answers

How does this affect the cost of acquiring quantum hardware?

The project aims to make QPUs commercially available at competitive pricing by reducing capital intensity and leveraging economies of scale.

Can these processors be scaled for industrial use?

Yes, the project focuses on a 3D architecture to overcome planar bottlenecks, offering modular QPUs with 1000+ qubits.

Who owns the intellectual property and how is it licensed?

Based on available project data, the technology relies on three proprietary technologies: parameterized designs, high-yield fabrication, and scalable 3D architecture.

How quickly can a business get a custom processor?

The coordinator has demonstrated the ability to deliver fully packaged QPUs to customers in less than 30 days.

How is the hardware integrated into existing systems?

The project provides customizable and modular QPUs, allowing integrators to specify their needs to make quantum computing succeed.

Consortium

Who built it

The project is led by a single Dutch SME, QuantWare B.V., with a 100% industry ratio. This lean structure indicates a highly commercial focus, aiming to move quickly from prototype to product without the slower pace of academic partnerships.

How to reach the team

Contact QuantWare B.V. regarding customizable QPU procurement.

Next steps

Talk to the team behind this work.

Contact us to find compatible quantum integrators for your business.