silvest/HEPfit
Nov 2024 – May 2025
3 Months active
Languages Used
C++
Technical Skills
C++ DevelopmentNumerical AnalysisPhysics CalculationsHigh Energy PhysicsNumerical IntegrationParticle Physics
j-scholze
PROFILE
J-scholze
Over a three-month period, contributed to the silvest/HEPfit repository by developing and integrating advanced theoretical features for rare B meson decay calculations. Delivered NPDF2 integration into DGamma observables, updated calculation workflows, and incorporated new parameter sets to improve prediction accuracy. Expanded the model to support neutrino-inclusive decay channels, refactored core modules for maintainability, and enhanced branching ratio predictions for processes like B+ → K+ nu nu. Further improved theoretical precision by adding non-perturbative contributions to MPll and MVll calculations. Demonstrated expertise in C++ development, numerical analysis, and high energy physics, focusing on robust, extensible code and reliable scientific predictions.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
4Total
Bugs
0
Commits
4
Features
3
Lines of code
834
Activity Months3
Your Network
15 peopleShared Repositories
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Work History
May 2025
1 Commits • 1 Features
May 1, 2025Concise monthly summary for May 2025 focusing on delivered features, impact, and technical achievements in silvest/HEPfit. No major bugs fixed this month.
1 Commits • 1 Features
May 1, 2025Concise monthly summary for May 2025 focusing on delivered features, impact, and technical achievements in silvest/HEPfit. No major bugs fixed this month.
May 2025
April 2025
2 Commits • 1 Features
Apr 1, 2025In April 2025, focused on expanding the HEPfit neutrino-inclusive decay modeling for silvest/HEPfit, delivering end-to-end predictions for new neutrino final states and strengthening the robustness of core calculation modules.
April 2025
2 Commits • 1 Features
Apr 1, 2025In April 2025, focused on expanding the HEPfit neutrino-inclusive decay modeling for silvest/HEPfit, delivering end-to-end predictions for new neutrino final states and strengthening the robustness of core calculation modules.
November 2024
1 Commits • 1 Features
Nov 1, 20242024-11: Delivered the NPDF2 integration into the DGamma observable for B meson mixing in silvest/HEPfit. Updated calculations with new NPDF2 parameters and revised formulas to improve prediction accuracy. Commit: 0efe47745df3bc64acd09411660eed601cb8b158. No major bugs fixed this month. Business impact: higher fidelity theoretical predictions enabling more reliable phenomenology and experimental comparisons. Technologies/skills: theoretical modeling, parameter management for NPDF2, code integration and validation in HEPfit.
1 Commits • 1 Features
Nov 1, 20242024-11: Delivered the NPDF2 integration into the DGamma observable for B meson mixing in silvest/HEPfit. Updated calculations with new NPDF2 parameters and revised formulas to improve prediction accuracy. Commit: 0efe47745df3bc64acd09411660eed601cb8b158. No major bugs fixed this month. Business impact: higher fidelity theoretical predictions enabling more reliable phenomenology and experimental comparisons. Technologies/skills: theoretical modeling, parameter management for NPDF2, code integration and validation in HEPfit.
November 2024
Activity
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Quality Metrics
Correctness82.6%
Maintainability80.0%
Architecture80.0%
Performance65.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++
Technical Skills
C++ DevelopmentHigh Energy PhysicsNumerical AnalysisNumerical IntegrationParticle PhysicsPhysics CalculationsTheoretical Physics
Repositories Contributed To
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