DUNE/sandreco
Apr 2025 – Apr 2025
1 Month active
Languages Used
C++
Technical Skills
C++CMakeData Structures
FelixofRivia
PROFILE
Felixofrivia
Developed foundational data structures and processing utilities for the GRAIN detector within the DUNE/sandreco repository, focusing on robust modeling of both sparse and dense image data, as well as representations for tracklets and clusters. Leveraged C++ and CMake to create modular, reusable components that facilitate photon and charge counting from raw SIPM sensor data. This work established the core framework required for end-to-end data processing and analysis, enabling future signal extraction and performance evaluation. By prioritizing extensible data modeling and utility development, the contributions laid the groundwork for scalable downstream pipelines and more efficient analysis of detector outputs.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
1Total
Bugs
0
Commits
1
Features
1
Lines of code
112
Activity Months1
Your Network
10 peopleShared Repositories
10
Work History
April 2025
1 Commits • 1 Features
Apr 1, 2025April 2025 – DUNE/sandreco Summary of work: Delivered foundational capabilities for the GRAIN detector by introducing data structures and processing utilities, establishing the core models needed to represent sparse and dense image data, tracklets, and clusters. Added utilities to count photons and charge from raw SIPM data, laying groundwork for end-to-end GRAIN data processing and analysis. Impact and value: This work creates the structural backbone for future signal extraction, quality metrics, and detector performance insights, enabling faster, more reliable analysis of GRAIN outputs and enabling downstream pipelines to scale with data volume. Major bugs fixed: None reported this month; focus was on building the foundation and preparing the pipeline for future work. Technologies/skills demonstrated: Data modeling for image data (sparse and dense), representation of tracklets and clusters, utility development for sensor data extraction (photon and charge counting), and modular, reusable design geared toward pipeline integration.
1 Commits • 1 Features
Apr 1, 2025April 2025 – DUNE/sandreco Summary of work: Delivered foundational capabilities for the GRAIN detector by introducing data structures and processing utilities, establishing the core models needed to represent sparse and dense image data, tracklets, and clusters. Added utilities to count photons and charge from raw SIPM data, laying groundwork for end-to-end GRAIN data processing and analysis. Impact and value: This work creates the structural backbone for future signal extraction, quality metrics, and detector performance insights, enabling faster, more reliable analysis of GRAIN outputs and enabling downstream pipelines to scale with data volume. Major bugs fixed: None reported this month; focus was on building the foundation and preparing the pipeline for future work. Technologies/skills demonstrated: Data modeling for image data (sparse and dense), representation of tracklets and clusters, utility development for sensor data extraction (photon and charge counting), and modular, reusable design geared toward pipeline integration.
April 2025
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Quality Metrics
Correctness80.0%
Maintainability80.0%
Architecture80.0%
Performance60.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
C++
Technical Skills
C++CMakeData Structures
Repositories Contributed To
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