sPHENIX-Collaboration/analysis
Aug 2025 – Aug 2025
1 Month active
Languages Used
C++MakefileShellText
Technical Skills
C++Data AnalysisHigh Energy PhysicsParticle PhysicsROOT FrameworkShell Scripting
Yuko Sekiguchi
PROFILE
Yuko Sekiguchi
During August 2025, work focused on developing an end-to-end particle event generation and data collection workflow within the sPHENIX-Collaboration/analysis repository. Using C++, Shell scripting, and the ROOT Framework, the developer integrated PYTHIA-based and single-particle gun simulations, enabling flexible event generation for high energy physics studies. Batch-processing capabilities were established through Condor job submission scripts, supporting scalable simulation runs. The addition of a J/psi to electron-positron decay file expanded the range of physics channels under investigation. A silicon seed analysis module was also incorporated, facilitating the collection and storage of tracking and calorimeter data for seed-based reconstruction studies.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
1Total
Bugs
0
Commits
1
Features
1
Lines of code
9,977
Activity Months1
Your Network
51 peopleSame Organization
@riken.jp3
Shared Repositories
48
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Derek M AndersonMember
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Work History
August 2025
1 Commits • 1 Features
Aug 1, 2025August 2025 monthly summary for sPHENIX-Collaboration/analysis. Focus this month was on delivering an end-to-end particle event generation and data collection workflow, expanding simulation capabilities and preparing batch-processing pipelines for large-scale studies. No major bugs were reported; ongoing issues are tracked separately as needed. The work lays a strong foundation for physics channel studies and detector performance analyses.
1 Commits • 1 Features
Aug 1, 2025August 2025 monthly summary for sPHENIX-Collaboration/analysis. Focus this month was on delivering an end-to-end particle event generation and data collection workflow, expanding simulation capabilities and preparing batch-processing pipelines for large-scale studies. No major bugs were reported; ongoing issues are tracked separately as needed. The work lays a strong foundation for physics channel studies and detector performance analyses.
August 2025
Activity
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Quality Metrics
Correctness80.0%
Maintainability80.0%
Architecture80.0%
Performance60.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++MakefileShellText
Technical Skills
C++Data AnalysisHigh Energy PhysicsParticle PhysicsROOT FrameworkShell ScriptingSimulation
Repositories Contributed To
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