Welcome to my GitHub! I'm passionate about exploring the intersection of quantum technologies, autonomous systems, and security paradigms that will shape our digital future.

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Bachelor of Technology in Computer Science
Expected Graduation: May 2028

Google Student Ambassador
Google | August 2025 – Present

• Foster technology adoption and community engagement on campus through workshops and seminars
• Bridge emerging technologies with practical student applications through collaborative outreach programs

Autonomous Drone Developer
Indian Institute of Technology, Hyderabad | February 2025

• Engineered an autonomous drone system with real-time object detection and tracking capabilities using onboard cameras
• Optimized and deployed a lightweight YOLOv5 model using ONNX and TensorRT for edge inference on Raspberry Pi, achieving real-time performance
• Implemented navigation logic with obstacle avoidance algorithms using Python, OpenCV, and ultrasonic sensors

Intern
Muskurahat Foundation | January 2025 – February 2025

• Led educational outreach initiatives and developed technical content for underserved student communities
• Managed GitHub repositories for collaborative content delivery and version control

Quantum Circuit Simulator | Personal Project

• Simulated quantum gates and circuits using Python and Qiskit framework for quantum algorithm exploration
• Visualized qubit states, entanglement, and superposition phenomena using Bloch sphere representations
• Automated measurement and visualization workflows to interpret quantum behavior patterns

Advanced Qiskit Quantum Simulations | Academic Research

• Double-Slit Experiment: Modeled wave-particle duality using superposition states with Hadamard gates; demonstrated quantum interference patterns through parameterized circuits and heatmap visualizations
• Schrödinger's Cat Paradox: Simulated quantum superposition and probabilistic collapse through single-shot measurements
• CHSH Game Implementation: Designed quantum circuits for entangled Bell states; implemented measurement basis rotations; demonstrated quantum advantage over classical strategies with >82% success rate

Research on Quantum Search Algorithms | Academic Project (2024)

• Studied and implemented Grover's Algorithm using Qiskit, analyzing quantum speedup for unstructured search problems
• Modeled computational complexity comparisons between classical O(N) and quantum O(√N) search performance
• Presented research findings at university seminar on emerging quantum technologies

Quantum Computing: Qiskit, IBM Quantum Lab, Quantum Circuits, Grover's Algorithm, QuTiP
Programming Languages: Python, C/C++, Bash, Shell Scripting
ML/AI Frameworks: PyTorch, TensorFlow, HuggingFace Transformers, Ollama, vLLM

• Qiskit Global Summer School 2025 – Quantum Fundamentals | IBM Quantum
• IBM Quantum Challenge | IBM Quantum
• CS50x: Introduction to Computer Science | Harvard University
• Quantum Computing Basics | World Technocon & BITS Pilani Hyderabad
• Drone Technology (Quadcopter) | Techobytes Technologies & IIT Hyderabad E-Cell
• Introduction to Model Context Protocol | Anthropic
• English Proficiency: CEFR Level B2 | Cambridge Linguaskill

• Competitive Canoe Polo Player (Forward) – Developing teamwork, strategic thinking, and discipline through competitive sports
• Research Interests: Exploring intersections of Artificial Intelligence and Quantum Computing for next-generation algorithms