endeve/thornado
Oct 2024 – Dec 2024
2 Months active
Languages Used
Fortran
Technical Skills
Computational PhysicsFortran ProgrammingNumerical SimulationPhysics SimulationBuild SystemsComputational Fluid Dynamics
Joseph Hunter
PROFILE
Joseph Hunter
Hunter contributed to the endeve/thornado repository by enhancing the stability and reproducibility of fluid dynamics simulations using Fortran and high-performance computing techniques. Over two months, Hunter stabilized shock simulation initialization for the two-moment fluid model, introducing deterministic initial conditions and refactoring test cases to reduce spurious failures. He also implemented slope limiting, troubled cell detection, and realizability checks in the TwoMoment_FMC solver, consolidating these features to improve physical realism and simulation robustness. His work included updating build systems and integrating new modules, resulting in more reliable validation cycles and a stronger foundation for accurate computational physics and scientific computing workflows.
Overall Statistics
Feature vs Bugs
50%Features
Repository Contributions
5Total
Bugs
1
Commits
5
Features
1
Lines of code
2,154
Activity Months2
Your Network
15 peopleSame Organization
@osu.edu9
Shared Repositories
6
Colter RichardsonMember
Eirik EndeveMember
Harris, AustinMember
jbuffalMember
mewesvMember
Quan, ShaopingMember
Work History
December 2024
3 Commits • 1 Features
Dec 1, 2024December 2024 monthly summary for endeve/thornado focusing on slope limiting and stability enhancements for the TwoMoment_FMC solver. Implementations consolidate slope limiting, troubled cell detection, and realizability checks to improve stability and physical realism of simulations, with initial parameter tuning and a build integration to incorporate new modules. This work establishes a more robust foundation for accurate simulations and smoother validation cycles, enabling better decision-making based on reliable results.
3 Commits • 1 Features
Dec 1, 2024December 2024 monthly summary for endeve/thornado focusing on slope limiting and stability enhancements for the TwoMoment_FMC solver. Implementations consolidate slope limiting, troubled cell detection, and realizability checks to improve stability and physical realism of simulations, with initial parameter tuning and a build integration to incorporate new modules. This work establishes a more robust foundation for accurate simulations and smoother validation cycles, enabling better decision-making based on reliable results.
December 2024
October 2024
2 Commits
Oct 1, 2024Month: 2024-10 — Endeve/thornado: focused on stabilizing shock-related simulations and improving reproducibility in initialization and testing. The changes deliver more robust numerical behavior for the two-moment fluid model, with deterministic initial conditions and more reliable, testable shock scenarios.
October 2024
2 Commits
Oct 1, 2024Month: 2024-10 — Endeve/thornado: focused on stabilizing shock-related simulations and improving reproducibility in initialization and testing. The changes deliver more robust numerical behavior for the two-moment fluid model, with deterministic initial conditions and more reliable, testable shock scenarios.
Activity
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Quality Metrics
Correctness82.0%
Maintainability80.0%
Architecture78.0%
Performance64.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
Fortran
Technical Skills
Build SystemsComputational Fluid DynamicsComputational PhysicsFluid Dynamics SimulationFortranFortran ProgrammingHigh-Performance ComputingNumerical MethodsNumerical SimulationParallel ProgrammingPhysics SimulationScientific Computing
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