Specialization: CSE
Session Starts – August 2026
Duration – 4 Years
Residential Degree Program
Round Deadline - 22nd July 2026
Computer science is a dynamic discipline, applicable to a diverse range of industries. This program explores cutting-edge innovation in experimental computer science, and provides you with a solid grounding of professional, real-world experience, with the right blend of advanced academic teaching and rigorous practicals to ensure you have the knowledge, skills and ability to engage with computing and computer science in a wide range of industries.
In particular, graduates will be able to attain significant knowledge and abilities in key technologies like UI/ UX, Cloud Computing, Enterprise Network Design, Reinforcement Learning, Web Applications & many others.
Semester 1
+| Course Title |
|---|
| Computational Thinking and Problem Solving |
| Computational Thinking and Problem Solving Practical |
| Engineering Mathematics |
| Design Thinking for Technologists |
| Applied Physics for Next Generation |
| Applied Physics for Next Generation Practical |
| Electronic Devices and Fundamentals for IoT |
| Electronic Devices and Fundamentals for IoT Practical |
| Environmental Science |
| Experiential Learning Project |
Semester 2
+| Course Title |
|---|
| Data Structures and Algorithms with Industry Applications |
| Data Structures and Algorithms with Industry Applications Practical |
| Object-Oriented Programming |
| Object-Oriented Programming Practical |
| Chemistry for Sustainable Future |
| Chemistry for Sustainable Future Practical |
| Communication skills for Engineers |
| Communication skills for Engineers Practical |
| Probability & Statistics |
| Indian Knowledge Systems |
| Societal Internship Project |
Semester 3
+| Course Title |
|---|
| Conceptual Project – I |
| Modern Database Systems |
| Design Analysis of Algorithm |
| Foundations of Artificial Intelligence |
| Discrete Mathematics for Computer Science |
| Technology, Institutions, and Society |
| Industry Integrated Technical Writing |
| Advanced Communication and Logical thinking |
Semester 4
+| Course Title |
|---|
| Conceptual Project – II |
| Operating Systems and Concurrent Computing |
| Data Communication Networks |
| Machine Learning and Neural Networks |
| Modern Web Application Engineering |
| Engineering Systems and Decision Making |
| Language and Critical Thinking |
| Numerical and Personality Refinement |
Semester 5
+| Course Title |
|---|
| Applicative Project – I |
| Full Stack Development |
| Distributed Systems |
| Discipline Specific Elective – I |
| Skill – Based Elective – I |
| Foundations of Identity and Communication |
Semester 6
+| Course Title |
|---|
| Applicative Project – II |
| Scalable Cloud and Edge Systems |
| Discipline Specific Elective – II |
| Discipline Specific Elective – III |
| Skill – Based Elective – II |
| Software Engineering Studio |
Semester 7
+| Course Title |
|---|
| Capstone Project – I |
| Software Architecture and System Reliability |
| Open Elective |
| Skill – Based Elective – III |
| Global Elective |
Semester 8
+| Course Title |
|---|
| Capstone Project – II |
| Skill – Based Elective – IV |
| Industry Internship |
Electives
+| Discipline Specific Electives |
|---|
| Mobile Application Development |
| Theory of Computation |
| Quantum Computing |
| Human-Computer Interaction & UX |
| Dev-Sec-MLOps |
| Software Testing |
| Software Project Management |
| Agentic AI |
| Introduction to Augmented & Virtual Reality Systems |
| Cryptography and Network Security |
| Open Electives |
|---|
| Digital Forensics |
| Embedded Systems |
| Big Data analytics |
| Generative AI Fundamentals |
| Edge AI and Smart IoT Systems |
| Data Engineering and Cloud Analytics |
| Global Electives |
|---|
| AI for Business Intelligence and FinTech |
| Health & Wellness/Yoga education/ sports/ fitness |
| Urban Technology Challenge I |
| Industry-Defined Technical Challenge |
| Technology Venture Formation |
| Responsible Leadership |
| Reflecting Self |
| Existential Dialogue |
| Skill-Based Elective |
|---|
| Ideation and Business Model Design |
| Proof of Concept and Technical Feasibility |
| Minimum Viable Product and User Validation |
| Market-Ready Product and Startup Launch |
| Research Foundations and Scientific Inquiry |
| Empirical Research Methods |
| Research Writing, Publishing and IP |
| Industrial Prototyping |
| India: Economy, Society & Development |
| Technical Communication |
| Engineering Aptitude |
| Professional Programming Practice |
| Systems Design and Algorithmic Engineering |
| AI in Industry |
| Engineering challenges in Agentic AI Systems |
Solve complex, new-age engineering problems by applying fundamental knowledge of mathematics, science, and engineering to come up with inventive solutions.
Identification, Reviewing previously conducted studies, and Analysis of Industry 5.0 Engineering Problems to reach conclusions using the fundamental principles of mathematics, science, and engineering sciences.
Understanding and recognising limitations while developing and applying available resources, techniques, and in-demand engineering tools to complex engineering activities.
Engineering necessitates the application of ethical principles and a commitment to professional ethics, as well as taking on societal responsibilities and adhering to engineering norms.
Harnessing the modern technologies to their full potential while understanding the societal and environmental impact of their solutions and demonstrating knowledge of sustainable practices for the safety and betterment of society.
Evaluation of overall societal issues as well as the responsibilities that rise with them in the modern and professional engineering context by applying contextual information.
Demonstrate proficiency in developing complex web applications using data structures and algorithms, a variety of programing languages, and software methodologies.
Acquire extensive knowledge and skills in key technologies such as UI/UX, Cloud Computing, Enterprise Network Design, Reinforcement Learning, Web Applications, and use the platform to develop and deploy micro-services applications, monitoring, and logging solutions.
Demonstrate the ability to conduct scientific data analysis and use it to form, prove, and defend complex engineering hypotheses.
Demonstrate theoretical knowledge for understanding raw and live market data, as well as the ability to invent solutions utilising modern tools and technologies.
Ability to efficiently manage and deal with all the constraints that introduces risks into software development.
Demonstrate knowledge of, and practical application of, various methods for creating, implementing, and manipulating visual content digitally.
Graduates of the B.Tech program will be able to apply their knowledge for developing novel solutions to the existing real-world problems and can look forward to a wide range of roles in advanced computing and related disciplines including:
What are the key BTech Computer Science subjects students should expect?
+BTech Computer Science subjects generally include programming, data structures, algorithms, databases, operating systems, computer networks, software engineering, mathematics, cloud computing, artificial intelligence, cybersecurity, and project-based learning. Students should check Woxsen University's official curriculum for exact subject details.
What is B.Tech CSE at Woxsen University?
+B.Tech CSE at Woxsen University is an undergraduate engineering program focused on computer science, software development, programming, computing systems, problem-solving, and emerging technologies. It is designed for students interested in technology-driven careers.
Who should choose B.Tech Computer Science Engineering?
+Students who enjoy coding, logic, mathematics, technology, app development, software systems, data, AI, cybersecurity, or product innovation can consider B.Tech Computer Science Engineering. The program suits learners who want to build technical and analytical skills.
How do BTech Computer Science subjects support career readiness?
+BTech Computer Science subjects support career readiness by building foundations in programming, systems, databases, algorithms, software development, and modern technologies. Projects, internships, coding practice, and problem-solving help students prepare for software and technology roles.
What should students compare before choosing a B.Tech CSE college?
+Students should compare curriculum, faculty, coding culture, labs, industry projects, internships, placement support, specialization options, campus environment, student outcomes, and exposure to emerging technologies before choosing a B.Tech CSE college.
Is B.Tech CSE useful for AI, data science, and cybersecurity careers?
+Yes, B.Tech CSE can create a strong foundation for AI, data science, cybersecurity, cloud computing, software engineering, and product development careers. Students may need projects, certifications, internships, and specialization-focused learning to build deeper expertise.
What career options are available after B.Tech CSE?
+After B.Tech CSE, students can explore careers in software development, web development, app development, data analytics, cloud computing, AI, cybersecurity, IT consulting, product engineering, research, startups, and higher education.
How can students apply for B.Tech CSE at Woxsen University?
+Students can apply by visiting the official Woxsen University B.Tech CSE page, checking eligibility and curriculum details, reviewing admission requirements, and completing the application process mentioned by the university.
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*25% seats for admissions are reserved for the students of the State of Telangana under the domicile-based reservation clause mentioned in The Telangana State Private Universities (Establishment and Regulation) Act, 2018.
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