Zero-tolerance sector

Quality for hardware with zero margin for drift

Quantum computing runs on control systems, calibration routines, and tooling where a fraction of a degree of drift corrupts every result downstream. TestLauncher brings agentic testing, continuous compliance, and a compounding QA Brain to quantum stacks, so a miscalibration is caught in the tooling, not in a corrupted run.

Why zero tolerance here A qubit holds coherence for microseconds; a miscalibrated pulse or an untested control-firmware change silently poisons a run, and you learn about it in the data, not the logs. At quantum scale, a defect is not a crash — it is a plausible-looking wrong answer that no one can distinguish from signal. That is the zero-tolerance bar TestLauncher is built for.
The hard part

What makes quality hard in quantum

Calibration drift over time

Qubit parameters shift with temperature, materials, and use. Tests have to catch the slow drift between calibration cycles, not just a pass at a single instant.

Non-deterministic, probabilistic output

Correct behavior is a distribution, not a value. Regression has to reason about statistical shifts, so a real defect isn't dismissed as quantum noise — or the reverse.

Tightly coupled control and firmware

Pulse sequencers, FPGAs, and cryogenic control layers move together. A change in one layer can silently detune another, and the failure only shows in end-to-end runs.

Scarce, expensive test cycles

Time on real quantum hardware is limited and costly. Coverage must be earned on simulators and classical control paths before a run ever reaches the fridge.

How TestLauncher helps

One intelligence layer for quantum

The same owned QA Brain — testing, knowledge, and compliance — focused on the risks this sector can’t afford to get wrong.

Launch App

The sovereign, deterministic foundation that pins every calibration run, control-firmware version, and result to a reproducible record — so a run is auditable and repeatable, not a one-time reading.

bugAgent

Scriptless suites that explore control-software and calibration edge cases and self-adapt across firmware and model versions, surfacing drift and regressions before a hardware run consumes them.

qualThread

A 100-year digital thread that turns years of calibration logs, device histories, and tribal knowledge into live intelligence — so hard-won lessons survive team turnover and hardware generations.

manualTesting

Expert human testers for the physics-in-the-loop edge cases where judgment beats automation — reading anomalous distributions and deciding what is noise and what is a real defect.

Standards & frameworks

Designed to support the regimes you work toward

TestLauncher is designed to support programs working toward the standards below and generates the traceability and evidence they call for. Naming a standard here is not a claim of certification — it describes the regimes our customers operate in.

  • ISO/IEC 27001

    Information security management — protecting sensitive research, control, and calibration data.

  • IEC 61508

    Functional safety for electrical and electronic control systems; broadly applicable to the control and instrumentation layers around quantum hardware.

  • ISO 9001

    Quality management systems; a widely recognized baseline for the processes behind deep-tech hardware and its tooling.

  • NIST Post-Quantum Cryptography (FIPS 203/204/205)

    Standardized quantum-resistant cryptographic algorithms, relevant to security work across quantum-era systems.

Bring the QA Brain to quantum.

Powered by Launch App, bugAgent, qualThread, manualTesting. Tell us where quality can’t fail and we’ll show you what an owned intelligence layer looks like for your programs.