Chronos-Q
Chronos-Q Overview:
• AQSolotl’s quantum computing solution, bridging classical and quantum computing for complex problems with unprecedented speed and efficiency.
Real-World Applications:
• Delivers a practical solution for tackling complex computational challenges and advancing the quantum revolution.
Combining the best of quantum and classical computing
Core Capabilities:
• Hybrid architecture: Integrates Quantum Processing Units (QPU) and Central Processing Units (CPU).
• Future-proofed for scalability, supporting advanced AI and machine learning tasks ready for GPU acceleration.
Chronos-Q in action
AQSolotl's technology has already been trialled on Singapore’s first quantum processor platform at the National Quantum Computing Hub (NQCH).
Its versatile design makes it compatible with superconducting quantum processors from numerous manufacturers, delivering maximum flexibility and scalability.
Key Features
Scalability and
Flexibility
Combining flexible functionality with low price and compact size, Chronos-Q is built with maximum scalability in mind. The system allows organizations to expand their quantum capabilities as needed.
Quantum-Classical integration
Combining quantum and classical systems into a single high-performance engine, Chronos-Q delivers seamless QPU/CPU coordination, optimizing calculation speed and system stability.
Precision and
Real-Time Feedback
With up to 16 channels for qubit manipulation and up to 32 additional channels for flux bias control, Chronos-Q delivers low latency, real-time feedback, and precise qubit state detection.
Instant Quantum Control
Chronos-Q’s state-of-the-art control system is natively compatible with current superconducting quantum processors. The platform comes with drivers and pre-built examples for common quantum experiments and is Linux-embedded for network-based operation and control.
High-level product specifications
Chronos-Q’s firmware can be updated at any time, allowing users to switch between pre-made versions or create custom ones without changing the hardware.
Hardware version |
Size (Rack mountable) |
Firmware Version |
Upgradable Firmware |
Qubit XY Drive Lines |
Qubit Readout Lines |
Flux Drive Lines |
AWG playback time (XY Drive) |
AWG playback time (Readout) |
AWG playback time (Flux Drive) |
Readout Multiplexed Frequencies |
State classification latency (after last sample) |
Active feedback round trip delay (active reset) |
GHz Frequency Generation Method |
Variation 1 | Variation 2 | Custom |
|---|---|---|
2 | 2 | 2 |
2U x 55 cm | 2U x 55 cm | 2U x 55 cm |
1-24H2 | 2-24H2 | C-24H2 |
YES | YES | YES |
12 | 6 | Up to 16 |
4 | 4 | combine |
16 | 12 | Up to 16 |
44 us | 88 us | Up to 88 us |
2.8 us | 2.8 us | Up to 88 us |
33 us | 33 us | Up to 133 us |
16 Freq x 4 | 16 Freq x 4 | Up to 144 |
14 ns | 14 ns | 14 ns |
Best in class | Best in class | Best in class |
Nyquist Zone | Nyquist Zone | Nyquist Zone |
Software support |
|---|
Pulse level python API |
Experiment level python driver (RB/Ramsey/Spin echo/…) |
Quantum Circuit level integration (Quiskit/Qasm) |
Onboard Linux for Networking and Integration |
Variation 1 | Variation 2 | Custom |
|---|---|---|
YES | YES | YES |
YES | YES | YES |
YES | YES | YES |
YES | YES | YES |
Future-ready hardware
No matter how your applications or research evolve, Chronos-Q adapts quickly and easily.
Increasing Qubit XY playback time to max 1 ms |
Advance active feedback: Simple error correction |
Custom error correction algorithm |
Double the max amount of Flux Drive, from 16 to 32 |
Advanced spurious noise management system |
Higher density solution (2X channels only 1.5X box size) |
Hardware Version | Firmware Version |
|---|---|
2.0 and up | 25H2 and up |
2.0 and up | 26H1 and up |
2.0 and up | Custom |
2.1 and up | 25H1 and up |
2.2 and up | 25H1 and up |
3.0 and up | 24H2 and up |
