What is Computer Science And Engineering ( AI and ML)?
Computer Science and Engineering in Artificial Intelligence (AI) and Machine Learning (ML) is a modern engineering branch that focuses on building intelligent computer systems that can think, learn, and make decisions like humans.
It combines Computer Science, Mathematics, Data Science, and Cognitive Science to develop smart technologies such as virtual assistants (Siri, Alexa), self-driving cars, recommendation systems, and advanced robotics.
Key Areas of AI & ML
Artificial Intelligence – Creating systems that can make decisions, understand natural language, and simulate human intelligence.
Machine Learning – Teaching computers to learn from data and improve performance over time.
Deep Learning – Advanced ML using neural networks (used in image recognition, speech processing).
Natural Language Processing (NLP) – Building systems that understand and process human language (e.g., chatbots, translators).
Computer Vision – Enabling computers to analyze and interpret images and videos.
Data Science & Analytics – Collecting and analyzing big data for decision-making.
Robotics & Automation – Designing intelligent robots for industries, healthcare, and other fields.
Subjects Studied
Data Structures & Algorithms
Artificial Intelligence
Machine Learning & Deep Learning
Data Science & Big Data Analytics
Neural Networks & Fuzzy Logic
Natural Language Processing
Cloud Computing & IoT
Career Opportunities
Graduates can work in:
AI & Data Science companies
Software & IT firms (Google, Microsoft, Amazon, Infosys)
Healthcare & Robotics industries
Research & Development organizations
Job Roles: AI Engineer, Machine Learning Engineer, Data Scientist, NLP Specialist, Computer Vision Engineer, Research Scientist.
ELECTRONICS AND COMPUTR SCIENCE
Year of Commencement of Program: 2025
Sanctioned Annual Intake: 60
What is Electronics and Computer Science (ECS)?
Electronics and Computer Science (ECS) is an interdisciplinary branch that combines electronics engineering (hardware systems, circuits, microprocessors) with computer science (software development, algorithms, data processing).
In simple words, ECS engineers are trained to design, build, and program smart electronic systems — from embedded devices and IoT gadgets to complex computer-based applications.
Key Areas of Electronics and Computer Science
Digital & Analog Electronics – Circuits, microprocessors, and embedded systems.
Computer Programming & Software Development – Designing applications and system software.
Embedded Systems & IoT – Creating intelligent, connected devices.
Networking & Communication Systems – Building and managing computer networks.
Data Structures & Algorithms – Core computer science for problem-solving.
Artificial Intelligence & Machine Learning – Adding intelligence to systems.
Cybersecurity & Cloud Computing – Securing and managing systems over the internet.
Subjects Studied
Basic & Digital Electronics
Microprocessors & Microcontrollers
Computer Networks
Data Structures & Algorithms
Operating Systems
Embedded Systems & IoT
Programming Languages (C, C++, Java, Python)
Database Management Systems
Artificial Intelligence & Machine Learning
Career Opportunities
Electronics and Computer Science graduates can work in:
Electronics & IT industries
Embedded systems & IoT companies
Telecommunication & Networking sectors
Software development firms
AI, robotics & automation projects
Opportunities in both core electronics & IT companies (e.g., Intel, TCS, Infosys, Qualcomm, Wipro).
Job Roles: Embedded Systems Engineer, Software Developer, Network Engineer, IoT Developer, AI/ML Engineer, Systems Analyst.
COMPUTER TECHNOLOGY
Year of Commencement of Program: 1986
Sanctioned Annual Intake : 120
What is Computer Technology?
Computer Technology is a branch of engineering that focuses on designing, developing, and using computer systems, software, and networks to solve problems and improve efficiency in various fields. It combines hardware (physical components) and software (programs and applications) to create powerful tools that drive modern life — from smartphones to artificial intelligence.
Key Areas of Computer Technology
Computer Hardware – Design and development of processors, memory, storage, and devices.
Software Development – Programming, application development, and operating systems.
Networking & Internet – Communication between computers, cybersecurity, and cloud computing.
Database Management – Storing and managing large volumes of information.
Artificial Intelligence & Machine Learning – Building intelligent systems that can learn and adapt.
Cybersecurity – Protecting data and systems from hacking and digital threats.
Web & App Development – Creating websites and mobile applications.
Subjects Studied in Computer Technology
Programming Languages (C, C++, Java, Python, etc.)
Data Structures & Algorithms
Operating Systems
Computer Networks
Database Management Systems
Web Technologies
Cybersecurity
Artificial Intelligence & Machine Learning
Career Opportunities
Computer technology professionals can work in:
Software companies (application & system development)
Information Technology (IT) is a branch of engineering that focuses on using computers, software, networks, and data to store, process, and share information. It involves applying technology to manage and solve real-world problems in businesses, education, healthcare, banking, and many other sectors.
While Computer Engineering deals more with building hardware and software, IT focuses on applying these technologies for practical use in organizations and industries.
Key Areas of IT
Software Development – Building applications for businesses, websites, and mobile platforms.
Database Management – Storing, organizing, and securing large amounts of data.
Cybersecurity – Protecting systems from hacking, malware, and digital threats.
Web Technologies – Designing and maintaining websites and web applications.
Data Analytics – Analyzing big data for decision-making.
IT Project Management – Planning, executing, and maintaining technology projects.
Subjects Studied in IT
Programming Languages (Java, Python, C++, etc.)
Database Management Systems
Computer Networks
Cloud Computing
Web Development
Cybersecurity
Software Engineering
Data Science & Analytics
Career Opportunities
IT graduates can work in:
Software companies & IT services
Web development & digital marketing firms
Banking, healthcare & e-commerce sectors
Cloud & cybersecurity companies
Government & private organizations
Job Roles: Software Developer, IT Consultant, Network Administrator, Cybersecurity Analyst, Web Developer, Database Administrator, Cloud Engineer.
ELCTRONICS AND COMMUNICATION ENGINEERING
Year of Commencement of Program: 2001
Sanctioned Annual Intake: 60
What is Electronics and Communication Engineering?
Electronics and Communication Engineering (ECE) is a branch of engineering that combines electronics, telecommunication, and computer systems. It focuses on the design, development, and maintenance of electronic devices, communication systems, and networks.
In simple words, ECE engineers work on technologies that connect people and machines — from smartphones and satellites to Internet of Things (IoT) devices and 5G networks.
Key Areas of Electronics and Communication Engineering?
Analog & Digital Electronics – Design of circuits, microprocessors, and semiconductor devices.
Communication Systems – Wireless, satellite, optical fiber, and 5G technologies.
Signal Processing – Processing audio, video, and data signals for better communication.
Embedded Systems – Programming microcontrollers for smart devices (e.g., home automation, robotics).
Networking & IoT – Connecting devices over the internet and creating smart systems.
VLSI & Chip Design – Designing integrated circuits used in computers, mobiles, and gadgets.
Control Systems – Applications in automation and robotics.
Subjects Studied in Electronics and Communication Engineering
IT & Software (Embedded systems, IoT, AI applications)
Defence & Aerospace (Radar, satellites, avionics)
Consumer Electronics (Smartphones, home devices, robotics)
Opportunities in government & private sectors (ISRO, DRDO, BSNL, Qualcomm, Intel, etc.).
Job Roles: Electronics Engineer, Communication Engineer, Embedded Systems Developer, VLSI Designer, Network Engineer, IoT Developer, Signal Processing Engineer.
CIVIL ENGINEERING
Year of Commencement of Program: 1985
Sanctioned Annual Intake : 60
What is Civil Engineering?
Civil Engineering is one of the oldest and most essential branches of engineering. It deals with the planning, designing, constructing, and maintaining the physical and naturally built environment. Civil engineers work on infrastructure projects such as buildings, roads, bridges, dams, airports, railways, and water supply systems, making it a branch that directly impacts people’s lives.
Key Areas of Civil Engineering
Structural Engineering – Design and analysis of buildings, bridges, towers, and other structures.
Geotechnical Engineering – Study of soil and foundations for construction.
Transportation Engineering – Planning and designing of roads, highways, railways, airports, and traffic systems.
Environmental Engineering – Waste management, water treatment, pollution control, and sustainable development.
Water Resources Engineering – Dams, canals, irrigation systems, flood control, and water supply.
Construction Management – Project planning, cost estimation, and site management.
Urban & Town Planning – Designing smart cities and urban infrastructure.
Subjects Studied in Civil Engineering
Engineering Mechanics & Strength of Materials
Structural Analysis & Design
Surveying & Geomatics
Fluid Mechanics & Hydraulics
Transportation Engineering
Geotechnical Engineering
Environmental Engineering
Concrete & Steel Design
Construction Management
Irrigation & Water Resources
Career Opportunities
Civil engineers can work in:
Construction & Infrastructure (Buildings, highways, bridges, tunnels)
Government sectors (PWD, Railways, Defense, Municipal Corporations)
Mechanical Engineering is one of the oldest and broadest branches of engineering. It deals with the design, analysis, manufacturing, and maintenance of mechanical systems. It applies principles of physics, mathematics, material science, and energy to create machines and processes that make life easier.
Key Areas of Mechanical Engineering
Thermal Engineering – Study of heat, thermodynamics, and energy conversion (e.g., engines, power plants).
Design Engineering – Designing machines, tools, and systems using CAD/CAM software.
Manufacturing Engineering – Processes like machining, welding, casting, 3D printing, and automation.
Fluid Mechanics & Hydraulics – Study of liquids and gases in motion (e.g., turbines, pumps).
Robotics & Automation – Integration of mechanical systems with electronics and AI.
Mechatronics – A blend of mechanical, electrical, and computer engineering.
Material Science – Study of metals, alloys, composites, and their applications
Subjects Studied in Mechanical Engineering
Engineering Mechanics
Thermodynamics
Strength of Materials
Fluid Mechanics
Heat Transfer
Machine Design
Theory of Machines
Manufacturing Technology
CAD/CAM
Control Systems
Career Opportunities
Mechanical engineers can work in:
Automobile & Aerospace (Car & aircraft design)
Energy & Power (Thermal, renewable, nuclear plants)
Robotics & Automation
Manufacturing & Production
Research & Development (R&D)
Government sectors (ISRO, DRDO, Indian Railways, Defence Services, PSU companies)
Job Roles: Design Engineer, Production Engineer, Maintenance Engineer, Quality Analyst, R&D Engineer, Robotics Engineer, etc.
ELECTRICAL ENGINEERING
Year of Commencement of Program: 2010
Sanctioned Annual Intake : 60
What is Electrical Engineering?
Electrical Engineering is one of the core branches of engineering that deals with the study, design, and application of electrical systems. It focuses on generation, transmission, distribution, and utilization of electricity along with the development of electrical machines, power systems, and control devices.
In simple words, Electrical Engineers work on everything that uses or produces electricity — from power plants and transformers to motors, renewable energy systems, and smart grids.
Key Areas of Electrical Engineering
Power Systems – Generation, transmission, and distribution of electrical power.
Electrical Machines – Design and maintenance of motors, generators, and transformers.
Control Systems – Automation and control of machines and processes.
Power Electronics – Converters, inverters, and electronic control for machines.
Renewable Energy – Solar, wind, and other sustainable power technologies.
Instrumentation – Measurement and control of industrial processes.
Smart Grids & Modern Energy Systems – Integrating IoT and AI in energy networks.
Subjects Studied in Electrical Engineering
Basic Electrical Engineering
Electrical Circuits & Networks
Power Systems
Electrical Machines
Control Systems
Power Electronics
Renewable Energy Systems
Instrumentation & Measurement
High Voltage Engineering
Career Opportunities
Electrical Engineers can work in:
Power generation & distribution companies (NTPC, PowerGrid, State Electricity Boards)
Manufacturing & Heavy Industries
Renewable energy projects (Solar, Wind, Hydropower)
Automation & Control sectors
Research & Development
Government & Defence sectors
Opportunities in both public and private sectors with global demand.
Job Roles: Power Engineer, Electrical Design Engineer, Control Engineer, Maintenance Engineer, Project Manager, Renewable Energy Specialist.
BACHOLAR OF ARCHITECTURE
Year of Commencement of Program: 1994
Sanctioned Annual Intake : 20
What is Bachelor of Architecture (B.Arch)?
The Bachelor of Architecture (B.Arch) is a 5-year undergraduate program that focuses on the art and science of designing buildings, spaces, and cities. It combines creative design, engineering principles, and environmental awareness to prepare students for planning and constructing safe, functional, and aesthetically pleasing structures.
Architects don’t just design houses; they also work on urban planning, heritage conservation, landscape design, and sustainable development.
Key Areas of Study
Architectural Design – Designing residential, commercial, and public spaces.
Building Construction & Materials – Understanding how structures are built and what materials are used.
Structural Systems – Basics of civil and structural engineering in buildings.
Environmental & Sustainable Design – Green architecture and eco-friendly solutions.
Urban & Regional Planning – Designing cities and public spaces.
