M.Tech in Electronics and Communication Engineering

M.Tech in Electronics and Communication Engineering allow the scholars to learn, implement in the advanced fields of communications, VLSI and Signal Processings. The core curriculum include courses like advanced digital signal processing, adavanced communication, low power VLSI design etc. They may be involved in designing, manufacturing, and testing systems to make sure that they function properly. These professionals can work for scientific, industrial organizations or defence organizations.’

Eligibility
The basic eligibility criteria for pursuing an M.Tech (Electronics and Communication Engineering) degree is qualifying B.E./B.Tech. in ECE or equivalent examination. Generally, the admission is through Graduate Aptitude Test in Engineering (GATE) Score Merit List or Adamas University Admission Test (AUAT).

Admission Procedure
Admission to the course will take place in terms of the Admission Notification issued by the University every year before the commencement of the academic session.

Summer School / Winter School / Projects
The scholars are encouraged to attend summer internship programs in different central government research laboratories or organization, core electronics and communication industries etc.

Eligibility:

60% in B.Tech / GATE qualified.

1. Introduction to the course

The objective of M. Tech. course in VLSI Design is to educate students to face cutting edge technology. In this VLSI Design world learning never stops. Our Electronics and Communication Engineering department provides a better understanding of VLSI Technology through concepts building and interlink with industrial applications of VLSI systems in developing new technologies. The educational objectives of M. Tech. in VLSI Design program is that the students will work in research careers by applying their background and knowledge towards the advancement of technology and the betterment of society by contributing to educational and social institutions.

2. What are the learning outcomes?

Our fundamental aim is to gradual learning, technological discovery, innovation, entrepreneurial spirit and social impact in an extraordinary group of post-graduates who, because of their experiences in our program will —

• Characterize and estimate the performance of VLSI system and design low power CMOS VLSI circuits. Understand the concepts of simulation and synthesis in VLSI Design Automation.
• Demonstrate leadership in their respective careers in VLSI or interrelated areas of industry, government, academia, and clinical practice, and
• Engage in life-long learning by continuing their education in research or professional school or through opportunities for advanced career or professional training.

1. Lab Infrastructure (if applicable):

The program includes Laboratory like

• Advances in VLSI Design Lab that includes VHDL Programming Laboratory and Electronic Design Automation Tools
• VLSI for Digital Signal Processing Laboratory consists of several computers with essential software tools, IBM PCs for Intel and licence software like Mentor Graphics and CC Studio and TI 6713 DSP kit.
• ASIC – CAD Laboratory with Xilinx Plan ahead software and hardware. 

2. Internships/Project work 

The program provides ample scope to carry out research and development in the domain of not on in VLSI System design but also in IoT and Embedded Systems. 

3. Placement & Career Opportunities / Research Opportunities

The historical growth of low power IC has rapidly changed the way we create process, communicate, and store information. This technical growth has the ability to reduce the dimensions of transistor every few years. This trend, known as Moore’s law in VLSI Design, has continued for last few decades. In one or two decades, transistor dimensions will reach a point where it will become uneconomical to shrink them any further, which will eventually result in the end of the CMOS scaling.

To design bitcoins or autonomous vehicles we require some customized ASIC or FPGA which are being developed to provide higher performance for segmented VLSI markets. This growth is much faster than average. Clearly the demand for VLSI Design will continue to grow, which increases the value of M. Tech in VLSI Design degree from ADAMAS UNIVERSITY. 

4. Eligibility

60% in B.Tech / GATE qualified.

1. Introduction to the course

The explosive growth of the “Internet of Things” and application of “Embedded System” is changing our world. After finishing this program student will have the option do to research or apply for a core job available in the area of IoT and Embedded System. Some of them are follows: a) Embedded Software Engineer, b) System software Engineer, c) Application software Engineer, d) Embedded Hardware Engineer. IOT professionals also have diverse job opportunities available in front of them like a) Data Analytics, b) Network and Structure, c) Internet security, d) device and hardware. The demand for embedded system and IOT Engineers will continue to grow, which increases the value of a M. Tech in IoT and Embedded System degree from ADAMAS UNIVERSITY.

2. What are the learning outcomes?

Our fundamental aim is gradual learning, technological discovery, innovation, entrepreneurial spirit and social impact in an extraordinary group of post-graduates who, because of their experiences in our program will–

• Apply knowledge of computing, engineering, and applied sciences to design, develop and maintain system components or processes that meet the specified needs and demands of the professional engineering practice.
• Continue to work effectively in multidisciplinary teams, provide leadership and technical expertise, and practice engineering with ethical approaches and concern for society and environment.
• Engage in life-long learning by continuing their education in graduate or professional school or through opportunities for advanced career or professional training.

3. Lab Infrastructure: 

• The program includes core courses like System Design using Embedded Processors, Internet of Things, Infrastructure Communication & Security and associated laboratories like System Design using Embedded Processors–Laboratory, Internet of Things Lab, and Embedded OS & RTOS Laboratory.
• The program provides ample scope to carry out research and development in the domain of IoT and Embedded Systems.

4. Project work 

Project Works offers the students a platform to apply into action a mix of engineering knowledge and bags of imagination, innovation and creativity An unique end-to-end integration of design, computation, engineering and business disciplines is the primary objective of the this work.

5. Placement & Career Opportunities / Research Opportunities

The program aims to enable the learners to choose to gain expertise in some of the fastest growing domains like IoT, Cloud Computing, Telecommunications, and Defence. The objective is to build a strong base and develop the required skill set in students associated with the IoT, Electronic Product Design and Embedded Systems. The right skill set acquired through our program paves the path for a lucrative career in core industries/research organizations along with better scopes for switching-over career roles. The programme nicely blends with the coding skills which brands the Electronics and Communication Engineering post-graduates as equally sought after in software engineering role in product and service-based companies/ research organizations.

6.Eligibility

60% in B.Tech / GATE qualified.