Expert in FPGA, DSP, Control Systems, Power Electronics & MATLAB/Simulink – Delivering Optimized, Scalable, and Real-Time Engineering Solutions.

I am a results-driven Electronics Engineer with over five years of hands-on experience in FPGA design, Digital Signal Processing (DSP), Control Systems, and MATLAB/Simulink modeling. My work spans both academic and industrial domains, where I’ve successfully designed, simulated, and implemented numerous high-performance systems tailored to client specifications.

My technical skillset includes expertise in Verilog and VHDL programming, hardware modeling, signal processing algorithms, control loop design, and electrical machine simulation. I have an in-depth command of industry-standard tools such as Xilinx Vivado, ModelSim, MATLAB/Simulink, and Cadence Virtuoso.

Over the course of my career, I’ve led and contributed to projects such as:

Implementation of the LMS algorithm on FPGA with a two-step truncation method for precision control

Design and simulation of Carry Look-Ahead Adders and custom ALUs

Real-time signal acquisition and filtering using ADC/DAC interfacing with FPGA boards (Nexys 2 – Spartan 3E)

Digital controller design (P, PI, PD, PID) for Twin Rotor MIMO systems

Power electronic converters and EV motor control simulations using MATLAB/Simulink

Design of a Low Power Hybrid Flip-Flop, achieving a 20% reduction in dynamic power and an 89% reduction in leakage power using 90nm CMOS technology

What sets me apart is my commitment to engineering excellence, attention to detail, and strong communication with clients. I prioritize optimized designs, resource-efficient implementations, and on-time delivery, all while maintaining thorough documentation and project transparency.

I take pride in being a lifelong learner who is constantly evolving with new technologies in the electronics and embedded systems landscape. Outside of work, I enjoy mentoring junior engineers, engaging in technical communities, and creating educational content around control systems, DSP, and FPGA development.

Whether you're developing a custom FPGA module, refining a signal processing algorithm, simulating a control system, or modeling a power electronics application, I offer the skills and dedication needed to turn your ideas into robust, real-world solutions.

Let’s collaborate to transform your project into a high-quality, reliable, and scalable system.

Work Terms

Hours of Operation:
I am available to work Monday to Saturday, from 9:00 AM to 8:00 PM (GMT+5). For urgent tasks or time-sensitive projects, extended hours can be arranged with prior notice.

Payment Terms:
I prefer using Guru’s SafePay system for secure and transparent transactions. For fixed-price projects, I require funding of milestones in advance. For hourly projects, time tracking and detailed work logs will be provided regularly.

Communication Style:
I believe in clear and timely communication. I am available via Guru messages, email, and Zoom/Google Meet for video calls if needed. You will receive regular progress updates, detailed documentation, and quick responses to queries.

Turnaround Time:
Project timelines will be mutually discussed and agreed upon. I am committed to meeting deadlines and delivering high-quality work within the agreed timeframe.

Revisions and Support:
I offer post-delivery support and reasonable revisions to ensure client satisfaction. Long-term collaboration is always welcome.