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SYEDA ASGHAR A. ZAIDI
Aspiration Statement
“Interested in Cybersecurity and Networking, Microchip and Digital System Design, love video-games, design-thinking, software-engineering and thinking philosophically. Matches with CE pursuing philosophy minor and the courses I have taken”
Core Skills
- C++
- C
- Cisco Packet Tracer
- Flutter
- MATLAB
- Python
- VIvado Verilog
- Qualitative Research
Academic Awards / Achievements
- Dean's List 2022
- Habib Merit Scholarship
Experience
Leadership / Meta-curricular
- General Secretary, Multiverse 2022
Internship / Volunteer Work
- Research Assistant, Habib University (June – September 2023)
- Learning Community Mentor, Habib University
- Teacher Assistant, CE/CS 321/330 Computer Architecture, Habib University
Publications / Creative Projects
- Published "Design and Implementation of a Localization App to Achieve Sub-Meter Level Accuracy Using Suparco’s Pak-Rehber Precise Positioning Service (RTK)" in INMIC 2024:
- Published "Enhancing Security in Smart Home IoT Networks: Vulnerability Analysis and Mitigation Strategies" in INMIC 2024:
Final Year Project
Project Title
A Low Power Area Efficient Switching Fabric Design for High Radix Systems
Description
With the rise in the popularity of AI, cryptocurrency, and big data, there is an increased demand for large data centers causing a dramatic increase in global power consumption. Most of this power consumed is during transmission. The hardware required for this transmission consists of a switching fabric comprising an array of switches lacking adaptability and smartness leading to inefficient power usage. We introduce adaptive analog circuits to the switching fabric, enabling it to detect when to operate at high or low speeds depending on the workload. This adaptability leads to significant power savings as the system only draws current when necessary. Using the SkyWater 130nm CMOS technology stack and state-of-the-art Cadence analog design tools, this project introduced us to practical challenges in low-power circuit design—extending beyond academic concepts