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king-p3nguin

PROFILE

King-p3nguin

Contributed to the Classiq/classiq-library repository by developing advanced Jupyter notebooks for quantum chemistry research, focusing on algorithm implementation and scientific computing using Python. Delivered a Bayesian Phase Difference Estimation notebook that demonstrated quantum circuit construction and Bayesian optimization for energy gradient calculations on molecular systems, with integrated data visualization to support interpretation. Enhanced research tooling by implementing and stabilizing Quantum Drude Oscillator notebooks, including Hamiltonian generation and London dispersion energy analysis, and created continuous-time quantum walk notebooks for photosynthetic energy transfer studies. Prioritized reproducibility, robust testing, and collaborative workflows, resulting in well-documented, reliable resources for quantum computing and data science applications.

Overall Statistics

Feature vs Bugs

100%Features

Repository Contributions

17Total
Bugs
0
Commits
17
Features
3
Lines of code
4,420
Activity Months2

Your Network

64 people

Same Organization

@g.ecc.u-tokyo.ac.jp
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Work History

March 2026

16 Commits • 2 Features

Mar 1, 2026

March 2026 monthly summary for Classiq/classiq-library focusing on business value and technical achievements. Delivered two major notebook feature tracks for quantum chemistry research: (1) Quantum Drude Oscillator (QDO) notebooks and tests, including Hamiltonian generation, London dispersion energy visualizations, and performance metrics; notebook and tests were stabilized through iterative commits and improved test coverage. (2) Continuous-time quantum walk notebooks for photosynthetic energy transfer and FMO systems, including Suzuki-Trotter decomposition, references, cleanup, and cable of notes.

April 2025

1 Commits • 1 Features

Apr 1, 2025

April 2025 (2025-04) - Monthly work summary for Classiq/classiq-library. Delivered a BPDE notebook demonstrating Bayesian Phase Difference Estimation for numerical energy gradient calculations, including quantum circuit construction, application to the hydrogen molecule, visualization of potential energy surfaces and gradients, and Bayesian optimization to determine energy differences. The notebook was added to the paper implementation challenge, supported by a reproducible commit history.

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Quality Metrics

Correctness90.6%
Maintainability85.8%
Architecture88.2%
Performance84.6%
AI Usage35.2%

Skills & Technologies

Programming Languages

Jupyter NotebookPython

Technical Skills

Algorithm ImplementationBayesian OptimizationData VisualizationJupyter NotebookJupyter notebooksPythonQuantum ChemistryQuantum Computingdata analysisdata sciencedata visualizationnotebook developmentquantum computingscientific computingtesting

Repositories Contributed To

1 repo

Overview of all repositories you've contributed to across your timeline

Classiq/classiq-library

Apr 2025 Mar 2026
2 Months active

Languages Used

Jupyter NotebookPython

Technical Skills

Algorithm ImplementationBayesian OptimizationData VisualizationQuantum ChemistryQuantum ComputingJupyter Notebook