Engineering Quantum Systems
I build the software and control infrastructure that makes superconducting quantum computers work—from pulse-level control to cloud orchestration platforms.
Background
My path started in computer science and software engineering. I built web systems, explored distributed architectures, and developed a deep appreciation for well-crafted tools.
Quantum computing drew me in because it sits at a unique intersection: cutting-edge physics meets systems engineering. The computers themselves are extraordinary, but they're useless without software layers, calibration pipelines, and infrastructure that scales.
That gap—between quantum hardware and practical systems—became my focus.
What I Do
Control Systems
I work on control systems for superconducting qubits—web-based QPU interfaces, pulse optimization, calibration automation. The goal is to make quantum processors more accessible and reliable for researchers.
Quantum Cloud Platforms
Building cloud infrastructure for quantum computing: orchestration, resource management, API design, job scheduling. Systems that handle real workloads at scale.
Developer Tooling
Contributing to the Qiskit ecosystem and building tools that improve developer experience. Libraries, workflows, documentation—the scaffolding that lets others build faster.
Community & Events
I lead technical communities and events—creating spaces where researchers and engineers can collaborate, share knowledge, and push the field forward together.
Philosophy
Real systems require craft. Not just at the algorithm level, but in architecture, tooling, ergonomics, and maintainability.
I believe in:
- —Building things that work in production, not just demos
- —Thinking deeply about abstractions and interfaces
- —Making complexity manageable through good design
- —Sharing knowledge openly
Systems thinking means understanding how each layer enables the whole—from quantum gates to developer experience.
Currently
I'm focused on advancing quantum control systems and infrastructure that bridges research prototypes and practical deployment.
Building systems that make quantum computing more accessible, reliable, and useful.
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