Diploma In Computer Engineering
The Department of Computer Engineering focuses on the theory and practical applications of computer systems. It offers comprehensive training in key areas such as computer programming, hardware architecture, software development, and networking. The curriculum is designed to equip students with the technical skills and analytical thinking required for a wide range of careers in the rapidly evolving field of computer technology and development.
Our Vision
To develop Computer Engineers who are technologically adept, innovative, and self-motivated, while upholding human values and social responsibility. The department aims to impart high-quality skills that enable graduates to make meaningful contributions to the ever-evolving field of computer technologies.
Our Mission
The mission of the Computer Engineering Department is to provide opportunities for diploma students to play a pivotal role in various domains of modern computer engineering. It aims to help students understand fundamental concepts and apply them creatively across different engineering fields. The department also strives to instill environmental awareness, safety consciousness, and economic sensitivity, while producing technically skilled graduates through intensive training in computer engineering tools and applications, preparing them for successful professional careers and further research.
Faculty Profile
Ms. G. Sivagami Pursuring Ph. D
Professor
Ms.K.Swetha
Lecturer
Ms. Banu Priya
Lab Incharge
Ms.T.Manasa
Computer Lab Instructor
PROGRAM EDUCATIONAL OBJECTIVIES(PEOs):
The Computer Engineering program is continuously evolving to transform students into competent professionals with strong technical abilities, ethical grounding, and human values. Upon successful completion of the programme, graduates are expected to possess the following attributes:
PEO1: To produce skilled diploma-level Computer Engineering technicians by aligning academic instruction with the growing industrial demand and providing a solid foundation for lifelong learning.
PEO2: To prepare students as productive professionals with leadership and teamwork skills, practical knowledge, communication abilities, and awareness of the latest technological developments across multidisciplinary domains.
PEO3: To impart in-depth technical expertise in core areas of Computer Engineering while fostering the ability to collaborate with other disciplines and assume supervisory roles.
PEO4: To cultivate professionalism through emphasis on field practices and industry-oriented activities, ensuring students are well-prepared for real-world challenges.
PEO5: To instill social and environmental responsibility by fostering a commitment to community values, sustainable development, and ethical conduct.
PROGRAM SPECIFIC OUTCOME(PSOs):
PSO1: Foundation of Computer Systems
Demonstrate a strong understanding of the principles and functioning of computer systems, with the ability to analyze and evaluate both hardware and software components.
PSO2: Foundations of Software Development
Apply knowledge of software development methodologies and design processes. Exhibit professional skills in programming using a wide range of languages and open-source platforms, with competence in developing efficient and effective software solutions.
PSO3: Foundation of Mathematical Concepts
Utilize mathematical techniques to solve computational problems, model real-world scenarios using appropriate data structures and algorithms, and apply this knowledge in practical environments—including entrepreneurship and small-scale startups—leveraging insights gained through industrial training.
PROGRAM OUTCOMES (POs):
PO1: Basic and Discipline-Specific Knowledge
Apply knowledge of basic mathematics, science, and engineering fundamentals along with discipline-specific expertise to solve well-defined engineering problems.
PO2: Problem Analysis
Identify and analyze well-defined engineering problems using codified standard methods and logical reasoning.
PO3: Design/Development of Solutions
Design solutions for well-defined technical problems and contribute to the development of system components or processes that meet specific needs.
PO4: Engineering Tools, Experimentation, and Testing
Use modern engineering tools and techniques to conduct standard tests and measurements effectively.
PO5: Engineering Practices for Society, Sustainability, and Environment
Apply appropriate technologies considering societal needs, environmental impact, sustainability, and ethical practices.
PO6: Project Management
Apply engineering management principles to work effectively as an individual, team member, or leader in managing projects and communicating efficiently in engineering contexts.
PO7: Life-Long Learning
Recognize the need for continuous learning and demonstrate the ability to engage in independent and lifelong learning in the context of technological advancements.