Personal details
Alaa E.
About
Accomplished software development engineer and professor with expertise in C++, C, and Python on Linux and Windows. Has successfully led and advanced significant projects, such as Calibre-PEX re-architecture, Multi-GNSS front-end and software receiver research and development, demonstrating a proactive approach in consulting roles for Narrow Band IoT and other companies. Extensive experience with multinational teams at IBM and Mentor Graphics underpins a proven reputation for enhancing project success through strong leadership and individual innovation. Seeks to utilize a robust engineering and academic background to drive forward-looking software solutions.
Core Competencies:
- Programming Languages: C++, C, Python, MATLAB
- Software Development: STL, OOP, Multithreading, socket programming.
- Development Tools: Git, DevOps, Jenkins, CI/CD, Dockers, Kubernetes, Performance and Memory Usage Profilers
- Frameworks/Tech: Boost, CUDA, Numerical Libraries, ML.
- Embedded Systems: ARM Cortex M4, STM32
- Web Development: REST API
- Operating Systems: Linux, Windows
- Languages: Arabic (mother tongue), English (fluent), Turkish (intermediate)
Work Experience
§ Modeling the parasitic of common silicon structures for different processes and technologies.
§ Improved the parasitic model extraction accuracy and computational time through research studies which outcomes had been integrated into the tool.
§ Initiated and led the efforts of extraction tool refactoring (from outdated geni-scripting to C++) using UML model.
§ Explored and investigated domains adjacent to parasitic extraction such as substrate noise coupling and statistical timing analysis.
§ Developed SI/PI capabilities of the team, through research, methodology development, new features and tool introduction, and deployment.
§ Led many feasibility studies, and design guideline development, on FSB, DDR2 and DDR3 through extensive signal integrity analysis.
§ Utilized DOE (JMP) in design guideline (solution space) development
§ Introduced the frequency-domain method for power delivery design and analysis in STTD department and trained peers on the method.
§ Led the team of the power delivery design and analysis through the proof of concept and prototyping phases for the VRM on TIU technique. Patent disclosed.
§ Proposed and prototyped an innovative current monitoring technique and circuitry for microprocessor TIU. Patent disclosed.