OpenDevicePartnership/embedded-services
Oct 2025 – Oct 2025
1 Month active
Languages Used
Rust
Technical Skills
Embedded SystemsFirmware DevelopmentPower Delivery (PD)Type-C
Geo Palakunnel
PROFILE
Geo Palakunnel
During October 2025, Gepala developed a configurable Power Delivery and Type-C port state machine for the OpenDevicePartnership/embedded-services repository. This work focused on embedded systems and firmware development using Rust, consolidating PD logic and Type-C state transitions into a unified, maintainable framework. Gepala’s implementation introduced runtime configurability, allowing dynamic enabling or disabling of the PD state machine and flexible selection of Type-C port roles such as Sink, Source, DRP, or Disabled. By standardizing state machine interfaces and supporting dynamic configuration, the solution improved hardware interoperability and prepared the codebase for future cross-partner deployments, demonstrating depth in embedded firmware design.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
1Total
Bugs
0
Commits
1
Features
1
Lines of code
216
Activity Months1
Your Network
4192 people
Work History
October 2025
1 Commits • 1 Features
Oct 1, 2025Month: 2025-10 Overview: Delivered a configurable Power Delivery (PD) and Type-C port state machine for the embedded-services repository to enable dynamic control over PD operations and Type-C port connection states. This work introduces runtime configurability (enable/disable PD state machine) and dynamic Type-C state settings (Sink, Source, DRP, Disabled), laying groundwork for flexible hardware interoperability across deployments.
1 Commits • 1 Features
Oct 1, 2025Month: 2025-10 Overview: Delivered a configurable Power Delivery (PD) and Type-C port state machine for the embedded-services repository to enable dynamic control over PD operations and Type-C port connection states. This work introduces runtime configurability (enable/disable PD state machine) and dynamic Type-C state settings (Sink, Source, DRP, Disabled), laying groundwork for flexible hardware interoperability across deployments.
October 2025
Activity
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Quality Metrics
Correctness90.0%
Maintainability90.0%
Architecture90.0%
Performance80.0%
AI Usage20.0%
Skills & Technologies
Programming Languages
Rust
Technical Skills
Embedded SystemsFirmware DevelopmentPower Delivery (PD)Type-C
Repositories Contributed To
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