STEM Programs

Engineering intelligence. Designing systems. Advancing human capability.

Our STEM programs connect mathematics, computation, engineering, materials, medicine, and intelligent systems. Students don’t just learn concepts — they learn how to build solutions for energy, health, infrastructure, autonomy, and the future of work.

High-demand skills Industry-aligned Research-driven

Mathematical Intelligence & Computational Science

The mathematical engine behind modern simulation, prediction, automation, and AI. Students learn to describe the world with equations, solve it with computation, and steer it with intelligent decision-making.

Mathematics
Advanced calculus, linear algebra, analysis, and differential equations — the core language of science and engineering.
Applied & Computational Mathematics
Numerical methods, PDE modeling, scientific computing, optimization & control, high-performance simulation.
Applied Statistics & Probability
Statistical modeling, stochastic processes, uncertainty quantification, data-driven decision making.
Data Science & Artificial Intelligence
Machine learning, deep learning, predictive analytics, physics-informed AI, and large-scale data systems.
Outcome
Developing algorithms, building intelligent models, and simulating complex systems for high-impact applications in energy, finance, infrastructure, defense, and healthcare.

Mechanical, Civil & Structural Systems

We design the physical world — from advanced machines to resilient cities. Students learn how things move, carry load, transfer heat, manage flow, and survive the real world.

Mechanical Engineering
Dynamics, thermofluids, solid mechanics, heat transfer, energy systems, robotics, mechatronics, and control.
Civil & Environmental Engineering
Structural analysis, smart and sustainable infrastructure, water systems, geotechnical and transportation engineering, resilient construction.
Applied Physics
Continuum mechanics, fluid dynamics, thermodynamics, electromagnetics, optics/photonics, and computational physics for engineered systems.
Outcome
Modeling and optimizing structures, machines, and infrastructure before they are built — making them safer, cleaner, and more efficient.

Materials, Chemical & Bio-Systems Engineering

We engineer matter, energy, and life. From smart materials and clean energy to medical devices and regenerative systems, students work where science touches the human body and the planet.

Materials Science & Engineering
Metals, polymers, ceramics, composites, functional and electronic materials, nanomaterials, advanced manufacturing, and materials for energy and medicine.
Chemical & Biomolecular Engineering
Transport phenomena, reaction engineering, catalysis, electrochemical systems, bioprocessing, process modeling and control for energy, pharma, and sustainability.
Applied Biomedical Engineering
Biomechanics, biomaterials, tissue engineering, biomedical imaging, assistive/rehabilitation devices, AI in medicine, human performance technologies.
Outcome
Creating cleaner energy systems, smarter materials, scalable bioprocesses, and human-centered medical solutions.

Computing, Electronics & Intelligent Systems

Where hardware, software, autonomy, and intelligence meet. Students design secure, adaptive, data-driven systems that sense, decide, and act in real time.

Electrical & Computer Engineering
Circuits and electronics, embedded systems, sensing and instrumentation, signal and image processing, communications, control, robotics integration, power electronics, intelligent hardware.
Computer Science & Software Systems
Algorithms, data structures, operating systems, cybersecurity, high-performance and parallel computing, cloud and edge platforms, scalable software architecture.
Data & AI Systems Engineering
Autonomous systems, perception and sensing, real-time decision systems, trustworthy AI at the edge, secure cyber-physical infrastructure.
Outcome
Building intelligent, secure, connected solutions — from robotics and autonomous platforms to large-scale distributed AI.