SpinQ QPU Foundry Dataset: Custom Design & Fabrication Records

What Is a QPU Quantum Foundry — and Why Does It Matter to You?

A quantum foundry is the backbone of custom quantum chip production. Instead of relying on generic hardware, you can partner with SpinQ’s foundry to craft superconducting QPUs tailored to your specific research or commercial applications. This means better coherence, improved gate fidelity, and topologies that fit your exact quantum circuit needs.

SpinQ’s Quantum Foundry Capabilities: Designed for Your Ambition

SpinQ’s QPU Quantum Foundry combines world-class chip design tools with controlled fabrication environments. From superconducting materials to dilution refrigerators reaching ~20 mK, every parameter is optimized to maintain qubit integrity and performance. With foundry logs and performance reports in hand, you can trust each QPU to meet your precise specs.

Customize Designs with SpinQ’s QEDA Tool

SpinQ’s proprietary QEDA (Quantum Electronic Design Automation) platform streamlines your design process. Drag, drop, simulate, and revise layouts without the friction of traditional chip design cycles. When your design is ready, you push it straight into the foundry pipeline for fabrication.

Inside the Fabrication Pipeline

Once your design is finalized, SpinQ’s quantum foundry takes over. Each chip layout is transferred to a contamination-controlled line where your QPU is fabricated with options for 1D or 2D topologies, capacitive coupling, and multi-qubit scalability — from simple 2-qubit chips up to 20-qubit chains.

Factory Characterization: Know Your QPU’s True Performance

After fabrication, each QPU undergoes rigorous characterization. You receive full reports detailing:

• Resonator frequency
• Qubit frequency
• T₁ decoherence time
• T₂* measurements
• Single- and two-qubit gate fidelities

This ensures you have trusted, reproducible metrics to support your research or commercial deployment.

What’s in the Dataset?

Your dataset covers every critical step:

• Design specs: Topology, qubit layout, coupling details.
• Fabrication logs: Batch numbers, yield data, production dates.
• Test metrics: Coherence times, gate fidelities, resonator specs.
• Environmental context: Operating temperature, packaging details.
• Versioning: Which QEDA version was used, fabrication toolchains, and dataset timestamps.

Why Iterative Prototyping Changes the Game for You

With the foundry dataset in hand, you can refine your designs faster. SpinQ’s loop of design → fabrication → test → feedback lets you tweak parameters and push for higher performance with each iteration. This dramatically shortens your development cycles compared to working blind.

Use Cases: Where You Can Make an Impact

• Academic labs exploring new superconducting qubit designs.
• Fintech or material science teams pushing quantum simulations.
• Quantum computing educators needing reliable, testable hardware for demonstrations.

Your foundry dataset gives you confidence that each chip meets your intended spec.

How to Access the Dataset

SpinQ makes it simple for you to explore your data:

• Download CSV, JSON, or SQL tables.
• Use the REST API to query real-time logs.
• Filter by design, batch, test result, or date.

Example query: "Show all QPUs with T₁ greater than 50 µs and gate fidelity above 99.5%."

Final Thoughts: Take Charge of Your Quantum Roadmap

A robust quantum foundry dataset is more than just files — it’s your window into precision manufacturing and performance assurance. By working with SpinQ’s transparent data pipelines, you accelerate development, share reproducible results, and push the boundaries of quantum research.

Whether you’re pioneering algorithms or deploying real-world quantum applications, SpinQ’s QPU Foundry Dataset keeps you ahead. Ready to design your next custom chip? Let’s build the quantum future — together.