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
Worked on the endeve/thornado repository to enhance the stability and reproducibility of fluid dynamics simulations, focusing on the two-moment fluid model. Addressed initialization fragility in shock simulations by introducing deterministic initial conditions and unifying parameter computation, which improved test reliability and reduced spurious failures. Developed and integrated slope limiting, troubled cell detection, and realizability checks into the TwoMoment_FMC solver, strengthening simulation stability and physical realism. Updated build systems and test cases to support these enhancements, enabling more robust validation cycles. Utilized Fortran, numerical methods, and high-performance computing techniques to deliver a more reliable foundation for 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
16 peopleSame Organization
@osu.edu10
furnstahlMember
Liang GengMember
Arun GhimireMember
Youwei LiuMember
Pranav MalewadkarMember
Rohit Kumar SrivastavaMember
tirpak15osuMember
John-UlmOSUMember
Jinghan YaoMember
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
Repositories Contributed To
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