nxp-upstream/zephyr
Mar 2026 – Mar 2026
1 Month active
Languages Used
CYAML
Technical Skills
C programmingconfiguration managementdevice driver developmentdevice treeembedded systemshardware control
minyuan xue
PROFILE
Minyuan Xue
Min Yuan Xue developed a low-level clock control framework for the Realtek Ameba platform within the nxp-upstream/zephyr repository, focusing on hardware integration and power management. The work involved implementing a dedicated clock driver in C, complete with enable, disable, and status APIs, and integrating Realtek Ameba RCC bindings and device-tree entries using YAML. By adding Kconfig support, Min Yuan Xue enabled configurable clock control for Ameba SoCs, supporting both performance tuning and scalable deployment. The project demonstrated depth in embedded systems and device driver development, establishing a robust foundation for future hardware control and integration in Zephyr-based environments.
Overall Statistics
Feature vs Bugs
100%Features
Repository Contributions
4Total
Bugs
0
Commits
4
Features
1
Lines of code
1,362
Activity Months1
Your Network
137 peopleSame Organization
@realsil.com.cn5
Work History
March 2026
4 Commits • 1 Features
Mar 1, 2026Concise monthly summary for March 2026 focused on delivering Ameba clock control capabilities in Zephyr. Implemented a low-level clock control framework for Ameba, including Realtek Ameba RCC bindings, device-tree entries, and a dedicated clock driver with enable/disable/status APIs. Added Kconfig support to expose clock control for Ameba SoCs, enabling power management and performance tuning. The work establishes a solid foundation for Ameba hardware integration and paves the way for reliable, scalable deployments.
4 Commits • 1 Features
Mar 1, 2026Concise monthly summary for March 2026 focused on delivering Ameba clock control capabilities in Zephyr. Implemented a low-level clock control framework for Ameba, including Realtek Ameba RCC bindings, device-tree entries, and a dedicated clock driver with enable/disable/status APIs. Added Kconfig support to expose clock control for Ameba SoCs, enabling power management and performance tuning. The work establishes a solid foundation for Ameba hardware integration and paves the way for reliable, scalable deployments.
March 2026
Activity
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Quality Metrics
Correctness95.0%
Maintainability85.0%
Architecture95.0%
Performance85.0%
AI Usage25.0%
Skills & Technologies
Programming Languages
CYAML
Technical Skills
C programmingconfiguration managementdevice driver developmentdevice treeembedded systemshardware controlhardware integrationlow-level programming
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