Xiangyu-Hu/SPHinXsys
Mar 2026 – May 2026
3 Months active
Languages Used
C++CMakeXML
Technical Skills
C++ developmentCMakeContinuous IntegrationTestingC++C++ programming
Pruthvik Arasikere Mallikarjuna
PROFILE
Pruthvik Arasikere Mallikarjuna
Worked on the Xiangyu-Hu/SPHinXsys repository to enhance simulation reliability and validation for fluid-structure interaction scenarios. Focused on improving restart functionality, state preservation, and cross-platform regression testing, the developer implemented robust C++ solutions with CMake integration and XML manipulation. Delivered automated regression testing tools and continuous integration pipelines, ensuring consistent validation of simulation results across Windows and non-Windows environments. Addressed critical bugs affecting restart stability and data integrity, adding targeted regression tests to prevent future regressions. The work emphasized test-driven development, algorithm optimization, and data validation, resulting in more stable, reproducible, and maintainable computational physics simulations.
Overall Statistics
Feature vs Bugs
40%Features
Repository Contributions
8Total
Bugs
3
Commits
8
Features
2
Lines of code
1,236,875
Activity Months3
Your Network
25 peopleShared Repositories
25
Work History
May 2026
3 Commits • 1 Features
May 1, 2026Month: 2026-05 — Xiangyu-Hu/SPHinXsys: Focused on strengthening automated validation for Fish FSI, delivering a regression testing tool, CI integration, and cross-platform reliability improvements. This set of changes enhances reproducibility, reduces manual validation effort, and lowers release risk by ensuring input assets are available in CI and by stabilizing regression results acrossWindows and non-Windows environments.
3 Commits • 1 Features
May 1, 2026Month: 2026-05 — Xiangyu-Hu/SPHinXsys: Focused on strengthening automated validation for Fish FSI, delivering a regression testing tool, CI integration, and cross-platform reliability improvements. This set of changes enhances reproducibility, reduces manual validation effort, and lowers release risk by ensuring input assets are available in CI and by stabilizing regression results acrossWindows and non-Windows environments.
May 2026
April 2026
4 Commits • 1 Features
Apr 1, 2026April 2026 monthly summary for Xiangyu-Hu/SPHinXsys. Focused on enhancing restart reliability, state preservation, and overall stability across fluid-structure interaction (FSI) and non-FSI simulations. Key outcomes include robust restart support with preserved evolving variables for both fluid and solid components, added regression tests to verify restart consistency, and targeted fixes to prevent crashes in non-FSI scenarios. Commit activity spans feature development and stabilization work across restart flow, energy matching, and variable registration.
April 2026
4 Commits • 1 Features
Apr 1, 2026April 2026 monthly summary for Xiangyu-Hu/SPHinXsys. Focused on enhancing restart reliability, state preservation, and overall stability across fluid-structure interaction (FSI) and non-FSI simulations. Key outcomes include robust restart support with preserved evolving variables for both fluid and solid components, added regression tests to verify restart consistency, and targeted fixes to prevent crashes in non-FSI scenarios. Commit activity spans feature development and stabilization work across restart flow, energy matching, and variable registration.
March 2026
1 Commits
Mar 1, 2026March 2026: Delivered a critical bug fix for oscillating beam solid restart in Xiangyu-Hu/SPHinXsys, complemented by a regression test to ensure long-term stability. The fix reduces restart-related failures and enhances simulation reliability for oscillating-beam scenarios. Commit 17fe79349377541050f18323eccc6041de5a1f42 documents the changes, reflecting a focused effort on stabilizing core simulation workflows. Emphasis on code quality and test coverage enables safer production deployments and easier maintenance.
1 Commits
Mar 1, 2026March 2026: Delivered a critical bug fix for oscillating beam solid restart in Xiangyu-Hu/SPHinXsys, complemented by a regression test to ensure long-term stability. The fix reduces restart-related failures and enhances simulation reliability for oscillating-beam scenarios. Commit 17fe79349377541050f18323eccc6041de5a1f42 documents the changes, reflecting a focused effort on stabilizing core simulation workflows. Emphasis on code quality and test coverage enables safer production deployments and easier maintenance.
March 2026
Activity
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Quality Metrics
Correctness97.6%
Maintainability87.6%
Architecture87.6%
Performance87.6%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++CMakeXML
Technical Skills
C++C++ developmentC++ programmingCMakeContinuous IntegrationData AnalysisRegression TestingTestingXML manipulationalgorithm optimizationcomputational physicsdata analysisdata validationfluid dynamicsregression testing
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