Experienced C++ developer with 8+ years of experience in multinational incorporations (IBM and Mentor Graphics) in software analysis, design, and development. My software development background and experience cover data structure, design patterns, Object-Oriented programming, multithreading, embedded, and socket programming under Linux and windows environment. Continuous learning on other programming languages such as (Python, JavaScript, HTTP, CSS, Git, Shell scripting, and Agile).
I have a long success record of individually contributing as well as team leading both in-site and remotely across multiple time zones. My programming skills is blended with solid background in GNSS (Global navigation satellite system), RF (radar signal analysis, multiple target tracking), EDA (electronic design automation), scientific problem solving, algorithm development (genetic algorithm [GA], particle swarm optimization [PSO], data modeling and curve fitting, Kalman filter, etc.), antenna and PCB design, and signal and power integrity. My previous challenging projects equipped me with strong problem solving and technical skills coupled with innovative mindset and the effectiveness in communicating and work with senior management, associates, and customers.
GPA = 3.86
GPA = A
GPA = 92%
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Initiated and led the efforts of extraction tool refactoring from outdated geni-scripting to C & C++ using UML modeling and design patterns.
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.
Designed and implemented object-oriented client/server database application using C & C++
Implemented and maintained data retrieval application under both VM and MVS using PLAS, PLX, and REXX.
I got the task of using the OAI-NB-IoT-ntust branch to develop a stand-alone software package for NB-IoT-PHY layer (algorithms and DSP routines) that can interface with a general base station solution.
The open-source code includes C, C++, Python, and MATLAB codes.
Completed the study of the OAI code structure with special focus on ITTI (inter task interface) and multithreading and got to a very good level in gaining the needed knowledge towards the goal. Then the project was put on hold by the client.
Initiated the whole project and introduced the DRFS architecture to Ehsim
Initiated and led the RF front-end and the Software DSP research and development activities.
Initiated the commercialization effort by interfacing with potential customers and industrial partners.
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