SemiQit™
Fast-track your quantum research with SemiQit
Reliable and affordable silicon quantum dot devices for researchers.
The Challenge
Why research progress slows down
Researchers often spend years building quantum hardware before they can focus on what matters most: advancing science. Fabrication, bonding, and packaging take time and expertise, slowing down scientific progress.
The solution
SemiQit: a ready-to-use quantum research solution
We speed up the progress of the quantum computing field by making our pioneering technology available to top researchers.
Fast-track your entry into quantum research without the complexity of device fabrication and packaging. SemiQit equips universities and research groups with ready-to-use spin-qubit chips, enabling faster experimentation and discovery.
Key Benefits
Skip fabrication. Start experimenting.
SemiQit arrives fully packaged and lab-ready, allowing you to bypass cleanroom processes and focus directly on quantum experimentation.
Reduce setup complexity.
With no need for bonding, packaging, or specialised infrastructure, SemiQit simplifies your workflow, so you can spend less time preparing and more time doing research.
Validated devices.
Each device is pre-tested and shipped with datasheets and measurement instructions, supporting reliability and consistency in your experiments.
A reliable partner in quantum research.
With ongoing technical support and a growing customer community, SemiQon is committed to helping researchers move faster.
What’s in the SemiQit package
- Selected spin-qubit chip variants for R&D
- Devices shipped fully packaged – plug-and-play without tedious bonding on R&D side
- Quality control – devices pre-tested and shipped with datasheets and operational instructions
- Technical support from SemiQon experts
- Designed for universities and research groups
Starting price €15.000
Technical specs
| Feature | Technical Specifications | |||||
|---|---|---|---|---|---|---|
| Product Name | SemiQit 4 | SemiQit 6 | SemiQit 12 | SemiQit 128M | ||
| General description | Fully packaged device with plug-and-play FDSOI nanowire with two gate layers, barriers and plungers, for electrostatically defining the quantum dots. | Fully packaged device with plug-and-play, Quantum IC device with 6-bit digital multiplexer for addressing 64 pairs of double quantum dots. The quantum dots have two gate layers (barriers and plungers). | ||||
| Charge readout | Device has electrometer(s) for charge read-out. | One of the double dot pair can be used as electrometer. | ||||
| Operation temperature | 1.5 K or below | 1.5 K or below | ||||
| Gate leakage | below 1 nA / V at room temperature | below 1 nA / V at room temperature | ||||
| Backgate | Global backgate, channel potential tuning ~0.1 V/V | Global backgate, channel potential tuning ~0.1 V/V | ||||
| Ambipolar | In the same device, both electrons and holes can be operated. | In the same device, both electrons and holes can be operated. | ||||
| Charge noise | below 10 μeV/sqrt(Hz) at 1 Hz @ 420 mK or below 18 μeV/sqrt(Hz) at 1 Hz @ 1.5 K. | below 10 μeV/sqrt(Hz) at 1 Hz @ 420 mK or below 18 μeV/sqrt(Hz) at 1 Hz @ 1.5 K for selected 80 quantum dots (40 pairs). | ||||
| Magnet (required for qubit operation) | Typical operation point 1 – 1.5 T, minimum inner diameter of the magnet is 53 mm. | Typical operation point 1 – 1.5 T, minimum inner diameter of the magnet is 53 mm. | ||||
| Current readout (transport and electrometers) | Current amplifier and digital multimeter capable for pA-level current measurements. Two read-out channels are required, but preferably three should be available. The setup should be capable for sub-1 ms measurements. | Current amplifier and digital multimeter capable for pA-level current measurements. Two read-out channels are required, but preferably three should be available. The setup should be capable for sub-1 ms measurements. | ||||
| Training | Training to tune the device will be provided either by remote support or on-site visit. | Training to tune the device will be provided either by remote support or on-site visit. | ||||
| Options | Integrated tank circuits, CMOS amplifiers, micromagnets, dc-multiplexers, rf-switches | Integrated CMOS amplifier | ||||
Download the full technical specifications of SemiQit.
Get a printable version of SemiQit brochure.
How are we different?
Built in-house, iterated fast
Unlike suppliers relying on external fabs or fixed product cycles, SemiQit is manufactured in our own semiconductor pilot line, allowing fast iteration and tailored development.
Powered by silicon, not exotic materials
SemiQit is based on traditional CMOS (Si) technology, not SiGe or other exotic materials that require specialised infrastructure and high investment to scale.
Engineered for reproducibility and research-readiness
Every device is pre-tested, quality-controlled, and shipped with measurement instructions, helping you minimise trial-and-error and maximise usable data.
Trusted by leading quantum research institutions
Commercial inquiries and partnerships
Yukihisa Tsuruta
Business Development Director
Featured News & Insights
Dr. Obert Golim receives a PoDoCo grant to develop 3D integration process for SemiQon’s quantum processor
SemiQon Appoints Antti Vasara as Chair of the Board
