IEEE Researcher | Computer Architecture | RISC-V Systems | TL-Verilog | Verilog | Low-Level Debugging | AI & ML | Data Analysis | Open Source Contributor
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π§ My work focuses on Computer Architecture, TL-Verilog designs, RISC-V systems, and low-level system debugging, particularly analyzing the early boot process of operating systems running on simulated hardware platforms.
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βοΈ I actively experiment with TL-Verilog and Makerchip to explore modern hardware design methodologies such as timing-abstract and pipeline-based design.
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π» I work with Verilog and TL-Verilog to build and understand hardware components including pipelines, ALUs, and system-level designs, while exploring their integration with RISC-V processor architectures.
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π€ I have also completed 5+ projects in Artificial Intelligence and Machine Learning, working with Python, data analysis, model training, and applied ML techniques to solve practical problems.
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π± Iβm currently learning RISC-V privilege architecture, QEMU internals, system-level debugging, hardware/software co-design, and advanced computer architecture concepts.
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π€ Iβm looking for help with architectural checkpointing techniques and RTL simulation workflows in the OpenPiton ecosystem
https://github.com/PrincetonUniversity/openpiton -
π IEEE Research Publication: Verilog-based digital hardware design and implementation.
π https://ieeexplore.ieee.org/document/11416567 -
π My long-term goal is to contribute to open-source processor architectures, hardware design tools, and research in computer architecture.
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π¨βπ» All of my projects are available at https://github.com/chillakalyan
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π I regularly write articles on https://medium.com/@chillakalyan78
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π¬ Ask me about RISC-V architecture, Linux boot flow, QEMU debugging, GDB analysis, and computer architecture fundamentals
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π« How to reach me chillakalyan78@gmail.com
