• Design code wrappers to seamlessly integrate FaaS functions with different cloud providers' native FaaS engines.

• Develop workflow orchestration logic to coordinate execution of FaaS functions across clouds.

• Implement intelligent function fusion techniques to reduce workflow execution latency and optimize costs.

• Create placement strategies to strategically deploy functions across cloud providers for optimal performance and cost efficiency.

Currently focused on developing an efficient method for data protection using Quantum Key Distribution (QKD) protocols.

Engaged in the development of a Quantum Key Distribution protocol utilizing Qiskit and IBM Quantum Experience's Quantum Computers for practical implementation.

Guided by Dr. Gayathri, Assistant Professor in the Department of Computer Science and Engineering at SRMIST, for insightful advice and direction.

Engineered a Quantum Data Teleportation system with Qiskit using 3 qubits, employing strategic Bell pair utilization and harnessing the principles of Quantum Superposition and Quantum Entanglement. Implemented a robust teleportation mechanism, showcasing expertise in quantum algorithms.

Incorporated insights from the ”Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channels” paper to enhance the performance of the system. Demonstrated a nuanced understanding of cutting-edge research, elevating the teleportation capabilities through dual classical and quantum channels.

Established 2 entangled qubits for secure and efficient quantum data teleportation between distant locations through strategic utilization of Bell pair utilization and the principles of Quantum Superposition and Entanglement.

Implemented 3-bit quantum error correction mechanisms to ensure data accuracy during teleportation processes.

Accelerated data teleportation time by a notable 12% by integrating CUDA Quantum, enhancing overall system efficiency and performance.

Implemented an efficient quantum algorithm using Qiskit, specifically applying the Variational Quantum Eigensolver (VQE) algorithm with the TwoLocal ansatz and an entanglement structure for Hamiltonian analysis. This involved architecting a robust quantum circuit tailored for analyzing Hamiltonians, enabling accurate eigenvalue computations.

Utilized the Simultaneous Perturbation Stochastic Approximation (SPSA) algorithm to optimize the ansatz further, ensuring precision in eigenvalue computations. By fine-tuning the ansatz parameters, the algorithm achieved optimal performance in quantum computations, particularly in handling complex eigenstates and eigenvalues.

Architected a responsive web application using FastAPI, Next.js, and TailwindCSS to complement the quantum algorithm. The application provides seamless user interaction and visual appeal, allowing users to input Hamiltonian parameters and visualize the corresponding quantum states and eigenvalues in real-time.

Part of the distinguished QS Award-winning lab, recognized twice for research excellence. Acknowledged for achievements, with a focus on advanced machine learning methods within the renowned McCarthy Lab where I orchestrated seamless project collaboration, driving cutting-edge research in AI and Quantum Computing.

Developed Next Tech Lab’s website using Next.js, TailwindCSS, and Sanity.io CMS, achieving a perfect 100% score on Lighthouse performance metrics, ensuring modern and optimized user experience.

Created the NTL Quest Site, a secret recruiting challenge, based on the 5 labs under Next Tech Lab.

Managed and guided web development initiatives, creating an efficient URL shortener using Next.js, MongoDB, and Redis for optimized caching.

Achieved a substantial 170% reduction in load time for the Club’s website, optimizing it from 18.7 seconds to approximately 1.5 seconds.

Authored diverse Medium articles for the Data Science Medium Journal, contributing to the club’s knowledge-sharing endeavors and reaching an audience of over 100,000+.

Mentored peers and conducted weekly research paper reviews, staying abreast of advancements in AI and Quantum Computing.

Offered mentorship to a cohort of 300+ participants throughout the Data Science Hackathon.

Worked on the Events Management System, a web application that streamlined event management processes, ensuring seamless coordination and communication among the team members. The application was developed using Next.js, TailwindCSS, and Firebase.

Created a custom wrapper for GCP's Cloud Storage to facilitate efficient file uploads and downloads, enhancing the user experience and ensuring optimal performance.