
Contributed to QuTech-Delft/OpenSquirrel by developing educational quantum algorithm circuit demonstrations and enhancing analysis capabilities for quantum circuits. Focused on Python-based implementations, the work included building and testing circuits such as QFT, Grover, QAOA, and VQE, with an emphasis on clear resource documentation and robust test coverage. Introduced the CircuitAnalyzer pass to compute structural metrics like size, interaction graphs, and gate dependency graphs, integrating these into the circuit analysis workflow. Refactored and expanded the test suite to ensure reliability and clarity, supporting both educational and research use cases in quantum computing and data analysis over a two-month period.
Month: 2026-05. Focused on delivering measurable circuit analysis capabilities and improving test coverage in OpenSquirrel. Delivered CircuitAnalyzer pass computing structural metrics (size, interaction graph, gate_dependency_graph, density) for quantum circuits; refactored tests for clarity and added 14 tests; updated Circuit.analyze() return type to dict[str, Any]; tests and changelog updated; groundwork laid for CQT-455; no major bugs reported this month.
Month: 2026-05. Focused on delivering measurable circuit analysis capabilities and improving test coverage in OpenSquirrel. Delivered CircuitAnalyzer pass computing structural metrics (size, interaction graph, gate_dependency_graph, density) for quantum circuits; refactored tests for clarity and added 14 tests; updated Circuit.analyze() return type to dict[str, Any]; tests and changelog updated; groundwork laid for CQT-455; no major bugs reported this month.
April 2026 monthly summary focusing on key accomplishments for QuTech-Delft/OpenSquirrel. Focused on delivering educational content and strengthening test coverage for quantum algorithm circuits, enhancing resource materials for learners and researchers.
April 2026 monthly summary focusing on key accomplishments for QuTech-Delft/OpenSquirrel. Focused on delivering educational content and strengthening test coverage for quantum algorithm circuits, enhancing resource materials for learners and researchers.

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