Industrial tie-ups for M.Tech students offer valuable opportunities to gain real-world experience, collaborate with industry experts and enhance their employability. Here are some common ways in which M.Tech programs establish industrial tie-ups

• Internship Programs: We have partnerships with leading IT companies and organizations that offer internship programs for our students. Through these internships, students gain hands-on experience, develop professional skills and apply their classroom knowledge to real –world projects.
• Guest Lectures and Workshops: We regularly invite industry experts, IT professionals, and entrepreneurs to conduct guest lectures and workshops. These sessions provide valuable insights into the current trends, challenges and opportunities in the IT industry, allowing students to learn directly from industry practitioners.
• Industry Visits and Expert Sessions: We collaborate with organizations to provide our students with industry projects. These projects allow students to work on real-life challenges and develop practical solutions, giving them a taste of the professional work environment.
• Sponsored Projects and Collaborative Research: M.Tech programs may collaborate with industries to undertake sponsored projects or collaborative research initiatives. This allows students to work on real-world problems and challenges, with access to industry resources, expertise, and guidance. Such projects can result in practical solutions, patents, and publications
• Recruitment Drives and Job Placements: Collaborations with industries often facilitate recruitment drives and job placement opportunities for M.Tech students. Industries may conduct campus interviews or recruit students directly from the program. This helps student’s secure employment in their desired fields and industries. 

The MTECH PROGRAM has the following intended outcomes that are duly aligned with the Educational objectives listed above. These program outcomes are:

• • PO1: Domain Knowledge & Its Application: Apply knowledge of computing fundamentals, mathematics, and domain knowledge of computing specialisation for conceptualization of computing models from defined problems and  requirements.
  • PO2: Analytical Ability & Development of Solutions using Modern Computing Tools: Create, select, adapt and apply appropriate techniques, resources, and modern computing tools to complex computing activities providing solutions to complex computing problems by designing or evaluating systems, components and processes.
  • PO3: Effective Communication : Effective Communication with the computing community/society about complex computing activities by writing effective reports, design documentation, effective presentations.
  • PO4: Project Management: Demonstrate knowledge and understanding of the computing and management principles and apply these to manage projects in multidisciplinary environments.
  • PO5: Professional Ethics and Value Based Leadership Abilities: Perform and lead professional functions in an ethical way, taking the cyber regulations & laws, responsibilities, and norms of professional computing practices into consideration.
  • PO6: Innovation and Entrepreneurship: Identify entrepreneurial opportunity and apply innovation to create value and wealth for the betterment of the individual and society at large. 

• To understand the mathematical fundamentals that are prerequisites for a variety of courses like Data mining, Network protocols, analysis of Web traffic, Computer security, Software engineering, Computer architecture, operating systems, distributed systems, Bioinformatics, Machine learning.
• To study various sampling and classification problems.
• The student should be able to choose appropriate data structures, understand the ADT/libraries, and use it to design algorithms for a specific problem.
• Students should be able to come up with analysis of efficiency and proof of correctness.
• To learn the concept of how to learn patterns and concepts from data without being explicitly programmed in various IOT nodes.
• To explore Deep learning techniques and various feature extraction strategies.
• Understanding of the fundamental concepts of wireless sensor networks and having a basic knowledge of the various protocols at various layers.
• It will demonstrate an understanding of statistics and machine learning concepts that are vital for data science.
• Understanding of the fundamental concepts of wireless sensor networks and having a basic knowledge of the various protocols at various layers.
• Understanding of the fundamental concepts of wireless sensor networks and having a basic knowledge of the various protocols at various layers. 

Candidates must have a Bachelor’s degree in Engineering or Technology (B.E./B.Tech) in Computer Science and Engineering, Information Technology, or a closely related field from a recognized university or institution. Candidates to have a minimum aggregate percentage in their undergraduate degree. This percentage requirement may vary, but it is typically around 55% or equivalent.