Thesis
Useful quantum systems will be limited not only by qubit quality, but also by the classical infrastructure that measures, controls, corrects, and explains system behavior.
Outline
- The classical control problem
Why timing, feedback, and orchestration become infrastructure bottlenecks.
- Observability around fragile systems
How calibration, drift, and error signals need structured telemetry.
- Acceleration and latency
Where GPUs, FPGAs, and specialized classical paths may matter.
- Hybrid operating model
How quantum devices, classical control, and cloud platforms fit together.
- Public demo direction
A simplified visual model for quantum-classical scheduling and feedback.
Status
This memo is a public research roadmap and does not use confidential employer information.
References
References will use public quantum systems, control electronics, accelerated computing, and infrastructure sources.