Admission Requirements:

• Academic Qualification: Completion of 12th grade from a recognized board with at least 65%.
• Age Requirement: Minimum 17 years old at the time of application.
• Entrance Exam: This may be required based on university policy.
• Language Proficiency: English proficiency may be required for international students.
• Educational Background: SSC & HSC must be from the Science stream.

Standardized Testing:
Strong SAT/ACT scores (SAT 1220-1420, ACT 27)
English proficiency exam for non-native speakers

The University of Georgia accepts applications from students without requiring any type of English language proficiency test results. The University of Georgia does not require a score on the English Language Proficiency Test for admission to any of its programs. Students can provide their English language proficiency test results as proof of proficiency if they have them.

Program Outcomes:

• Problem-Solving: Identify, formulate, and solve complex computer engineering problems using principles of engineering, science, and mathematics.
• Design Application: Design solutions in computer engineering that meet specific needs while considering public health, safety, welfare, and global, cultural, social, environmental, and economic factors.
• Communication: Effectively communicate with various audiences.
• Ethics and Professional Responsibility: Recognize ethical and professional responsibilities and make informed decisions considering the broader impact of engineering solutions.
• Teamwork: Work effectively in teams, contributing to leadership, fostering collaboration, setting goals, planning, and achieving objectives.
• Experimentation and Analysis: Develop and conduct experiments, analyze data, and use engineering judgment to conclude.
• Continuous Learning: Acquire and apply new knowledge using appropriate learning strategies.
• Technical Application: Use basic computer engineering knowledge to solve tasks related to electronic devices, computer systems, and information technologies.

Key Areas of Focus and Roles in Computer Engineering:

• Hardware Development: Design and create physical components and systems for computing devices.
• Software Development: Develop programs and applications for various computing platforms.
• Networking: Focus on the design and management of communication systems and network infrastructure.
• Artificial Intelligence (AI) and Machine Learning (ML): Develop algorithms and models that enable machines to learn and make decisions.
• Embedded Systems: Design and implement specialized computing systems embedded in other devices.
• Cybersecurity: Protect computing systems and networks from cyber threats and attacks.
• Programming: Write code and develop software for different applications.
• Systems Architect: Design the structure and framework of complex computing systems.
• Embedded Systems Engineer: Specializes in designing and developing embedded systems for various applications.

Teaching Methods:

• Lecture - Seminar: Traditional lectures complemented by interactive seminars.
• Working with the Book: Engaging with textbooks and written materials to deepen understanding.
• Demonstration: Showing practical applications and solutions through examples.
• Discussions: Encouraging open dialogue to explore and clarify concepts.
• Practical Lessons: Hands-on activities to apply theoretical knowledge.
• Laboratory Exercises: Conducting experiments and exercises in a controlled lab environment.
• Interactive Lessons: Engaging students through interactive activities and tools.
• Teamwork: Collaborating with peers to solve problems and complete tasks.
• Problem Solving and Their Solution: Applying critical thinking to find solutions to real-world challenges.
• Verbal and Oral Method: Communication of ideas and knowledge through spoken word.
• Critical Analysis: Evaluating and assessing information or problems deeply and thoughtfully.
• Problem-Solving Tasks: Assigning tasks that require students to find solutions through analysis and creativity.