obokhove/FDnumerics2024
Nov 2024 – Dec 2024
2 Months active
Languages Used
Jupyter NotebookMarkdownPythonXML
Technical Skills
Data VisualizationDocumentationFinite Element MethodNumerical MethodsScientific ComputingFinite Element Method (FEM)
Grasiele Romanzini-Bezerra
PROFILE
Grasiele Romanzini-bezerra
Over a two-month period, contributed to the obokhove/FDnumerics2024 repository by developing numerical analysis tools and enhancing project documentation. Delivered a Discontinuous Galerkin (DG0) Riemann solver in Python for shock wave analysis, accompanied by Jupyter Notebook resources and improved onboarding materials. Implemented a Poisson equation solver using Firedrake’s Finite Element Method, providing automated L2 error analysis and visualization across mesh resolutions and polynomial degrees. Updated documentation and PDFs to clarify exercise structures and code paths, addressing minor errors to streamline user navigation. Demonstrated expertise in Python, scientific computing, and numerical methods, with a focus on reproducibility and accessibility.
Overall Statistics
Feature vs Bugs
80%Features
Repository Contributions
6Total
Bugs
1
Commits
6
Features
4
Lines of code
590
Activity Months2
Your Network
5 peopleWork History
December 2024
3 Commits • 2 Features
Dec 1, 2024December 2024 monthly summary for obokhove/FDnumerics2024 focusing on delivered features, fixed issues, and overall impact for business value and technical excellence.
3 Commits • 2 Features
Dec 1, 2024December 2024 monthly summary for obokhove/FDnumerics2024 focusing on delivered features, fixed issues, and overall impact for business value and technical excellence.
December 2024
November 2024
3 Commits • 2 Features
Nov 1, 2024Month 2024-11: Concise monthly summary highlighting business value and technical achievements in obokhove/FDnumerics2024. Key features delivered include a new DG0-based Riemann solver resource for shock-wave analysis and improved project documentation. No major bugs fixed this month. Overall impact: expanded numerical toolkit, improved reproducibility and onboarding. Technologies/skills demonstrated: Python, Finite Element Method (FEM) with Discontinuous Galerkin (DG0), Jupyter notebooks, and documentation best practices.
November 2024
3 Commits • 2 Features
Nov 1, 2024Month 2024-11: Concise monthly summary highlighting business value and technical achievements in obokhove/FDnumerics2024. Key features delivered include a new DG0-based Riemann solver resource for shock-wave analysis and improved project documentation. No major bugs fixed this month. Overall impact: expanded numerical toolkit, improved reproducibility and onboarding. Technologies/skills demonstrated: Python, Finite Element Method (FEM) with Discontinuous Galerkin (DG0), Jupyter notebooks, and documentation best practices.
Activity
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Quality Metrics
Correctness95.0%
Maintainability93.4%
Architecture95.0%
Performance93.4%
AI Usage20.0%
Skills & Technologies
Programming Languages
Jupyter NotebookMarkdownPythonXML
Technical Skills
Data VisualizationDocumentationFinite Element MethodFinite Element Method (FEM)FiredrakeNumerical AnalysisNumerical MethodsPythonScientific Computing
Repositories Contributed To
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