It starts here.
Precision electronics
for the most sensitive instruments ever built
We use techniques pioneered for astrophysics to enable the next leap in technology for scientific sensors, quantum computing, and satellite instrumentation.
The t0 Control & Readout System (CRS) is a microwave control and readout system that scales seamlessly from single-boards to deployments with hundreds of units
Explore the CRS for applications in superconducting sensors and wide-band radio interferometry
Applications
Microwave Kinetic Inductance Devices (mKIDs) and Microwave Multiplexing
Scales to 100,000+ resonators
Up to 4,096x multiplexing over 4 GHz of BW
Active digital feedback
Qubits and Quantum Sensors
Mixerless control and readout up to 10 GHz
Low-latency programmable feedback
Phase-coherence within and across hundreds of modular boards
Multiplexed control and readout
Distributed compute for AI/ML integration
Radio Interferometry
For FX correlation, VLBI, and beam-forming
Full mesh architecture for integrated corner-turns
High data throughput to GPU/HPC clusters
Self-monitoring hardware and remote firmware access for simple and reliable operation
Custom applications
Accessible hardware and software access for custom applications
Permissively licensed Python and C/C++ API stack.
Custom firmware development for specific experiment needs
Join Us
Are you part of a laboratory pushing the envelope with:
• Microwave Kinetic Inductance Detectors
• Qubits (superconducting or otherwise)
• High-performance space-qualified signal processing
We know the biggest innovations start with small research groups stretching the possible.
We're committed to facilitating that with deployment-quality hardware at a fraction of the current costs.