
Over a two-month period, contributed to the amrvac/AGILE-experimental repository by developing the FFHD (Fast Hydrodynamics) physics module, enabling advanced fluid dynamics simulations with configurable Fortran code and integrated FS3D test cases. Focused on modularizing the codebase, decoupling dependencies, and laying the foundation for future radiative cooling features. Subsequently, streamlined the test suite and build system by consolidating test maintenance, removing outdated and duplicate tests, and integrating TI3D coverage into CI workflows. Leveraged Fortran, Bash, and shell scripting to enhance maintainability, improve test reliability, and support robust continuous integration and testing practices throughout the development process.
September 2025 monthly summary for amrvac/AGILE-experimental: Key feature delivered was the Test Suite Cleanup and Build System Simplification, consolidating test maintenance, removing an outdated TI hydro test, cleaning up duplicate code and directives, and updating the build/test infrastructure to include TI3D tests while removing standalone TI3D test setups. This work improves CI reliability and maintainability by tightening test coverage and simplifying the test harness.
September 2025 monthly summary for amrvac/AGILE-experimental: Key feature delivered was the Test Suite Cleanup and Build System Simplification, consolidating test maintenance, removing an outdated TI hydro test, cleaning up duplicate code and directives, and updating the build/test infrastructure to include TI3D tests while removing standalone TI3D test setups. This work improves CI reliability and maintainability by tightening test coverage and simplifying the test harness.
Month 2025-08 — amrvac/AGILE-experimental: Delivered the FFHD (Fast Hydrodynamics) physics module enabling advanced fluid dynamics simulations, with initial test coverage and configurability. Focus this month was on feature delivery, codebase modularization, and groundwork for radiative cooling integration. No explicit production bug fixes recorded for this module; primary value is enabling fast hydrodynamics workflows and establishing a solid foundation for future improvements.
Month 2025-08 — amrvac/AGILE-experimental: Delivered the FFHD (Fast Hydrodynamics) physics module enabling advanced fluid dynamics simulations, with initial test coverage and configurability. Focus this month was on feature delivery, codebase modularization, and groundwork for radiative cooling integration. No explicit production bug fixes recorded for this module; primary value is enabling fast hydrodynamics workflows and establishing a solid foundation for future improvements.

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