ITM University, School of Engineering and Technology

Introduction

Just look around you. You may be reading this on a computer screen or in a book. You may be on an aeroplane or sitting at a desk surrounded by modern communications equipment. Alternatively, you may be in your lounge at home having eaten a meal cooked in a microwave oven, listening to a CD, surrounded by modern textiles, heated or cooled by central heating or air conditioning. Wherever you are and whatever your circumstances, you are surrounded by the evidence of the impact of engineering on your daily life.

Engineers come in different shapes and sizes. At one extreme there are atomic and molecular engineers maneuvering elements to create new materials or semiconductor devices. At another, they may be engaged in projects that require the management and understanding of large – scale structures such as jet engines or highways.

Engineering is very much about applying knowledge. The development of a new water treatment plant to aid a starving population, or the introduction of engineering concepts into the design of artificial hearts normally inspire students to realize that the application of engineering can alleviate human suffering as well as aiding the general evolution of society. Phrases such as ‘sustainable development’ and ‘responsible manufacturing are now commonly heard in the faculty, reflecting the fact that engineers are responsible citizens fully aware of the impart of what they do.

Engineering at ITM UNIVERSITY

Engineering is the application of physical principles to the solution of problems and requires the skills of numeracy, creativity, ingenuity and practicality. Engineering is a wide – ranging profession in which your will use your design and mathematical skills to benefit society and the environment. Engineering at ITM University offers the opportunity to study in an informal and friendly atmosphere with access to excellent laboratory and computing facilities.

A research programme that includes collaborative projects with industry helps to keep the undergraduate programmes up to date. Every student takes on the challenge of an innovative final – year project. This often involves using equipment being developed as part of research work carried out within the University.

Demand for engineering graduates has never been higher. ITM University, with its good reputation for graduate employment, is the best starting point for a career in both business and various engineering disciplines.

About our Departments

  • Computer Sciences Engineering & Information Technology
  • Mechanical Engineering.
  • Electrical, Electronics & Communication Engineering.
  • Civil Engineering.

All the degrees offered at ITM University are recognized and approved by The University Grant Commission (UGC) Ministry of Human Resource Development, Government of India, The Directorate of Higher Education, Government of Haryana.

Computer Science & Engineering. Information Technology

Well – educated information technology (IT) professionals are in great demand both in India and overseas. A diverse range of careers is available to graduates from ITM University’s courses in Computer Sciences and Information Technology. Many pursue careers as system analysts, IT Managers, software Engineers or consultants, while others use their degree as a springboard into a wide range of jobs in commerce, industry and government.

This course aims to meet the increasing need for engineers who can contribute to both the hardware and software design and electronic system. ITM University graduates now work in areas including computer networks, embedded system, digital control systems for cars, telecommunications and cable TV systems, video games hardware, microprocessor chip design and multimedia.

ITM University has particularly strong links with professionals in the IT industry and the courses offered have a strong professional orientation. Through “Education Plus” the courses are updated and/or supplemented to ensure that they meet current needs and anticipate the future requirements of industry and commerce.

Electrical, Electronics & Communication Engineering

Electronic Engineering continues to be a buoyant industry, as indicated by the current demand for graduates. These courses are designed to qualify student for careers in a wide range of industries, as well as in government and commercial organizations. These typically embrace power electronics, information technology, electronic hardware and software, automation, robotics and control, communications, radio and television, computer engineering, solid – state devices, microelectronics and VLSI.

The courses aid to prepare students for careers as professional engineers through an education in fundamental principles presented in the context of real application and design experience. The course develops the fundamental principles of computing and electronic engineering resulting in a degree in Electronics & Communications or Electronics & Instrumentation.

Liaison with industry, major research establishments, and learned societies ensures that courses continue to meet the changing needs of the profession. Project work throughout the course underpins the necessity for a combination of practical and theoretical skills and abilities.

Mechanical Engineering

In the modern world, Mechanical Engineering is central to many activities leading to industrial and business growth. Mechanical Engineering is concerned with all types of machinery in industries and all aspects of their mechanism and functioning - the design, development, construction, production, installation, operation and maintenance. A mechanical engineering course provides the core knowledge for the range of careers in these areas. They are the driving force behind many of our technologies and industrial processes. Mechanical engineers are involved in creating the future.

Mechanical Engineering is also the basis on which other branches of engineering are evolved. Mechanical Engineers are expected to apply basic concepts from physics, chemistry, chemical engineering, electrical engineering, electronics and civil engineering. The benefit of this fundamental role is that the wide coverage of the subjects in Mechanical Engineering provides a wide choice of career employment in industries as diverse as heavy engineering, power plants, steel plants, oil and petroleum, chemical, food, pharmaceutical, environmental protection and energy conservation.

Civil Engineering

To offer world class undergraduate and postgraduate education, research guidance, professional consultancy, outreach and manpower training as well as leadership in Civil Engineering.

Undergraduate education in civil Engineering provide students with a solid foundation in the scientific and engineering fundamentals along with exposure to humanities and social sciences. The objective of Civil Engineering program is to prepare graduates to become leaders in solving societal problems in the areas of public safety, resource protection, natural hazard mitigation and the efficient functioning of urban natural systems within India and internationally .

The objective of the Department is to provide high-end professional education for developing human resources with highly specialized knowledge and skills in the field of Civil Engineering.

The department has a highly qualified and experienced faculty with excellent academic record from renowned universities in India and abroad. There is a proportionate mix of academic excellence and industrial experience amongst the faculty, which is instrumental in imparting the right blend of theoretical and practical knowledge to the students.

Activities like seminars, projects, quizzes and such competitions are conducted on regular basis to induce the professional skills in the students, which ultimately help them in getting placed in top grade organizations. This in turn gives them an edge over other candidates in the tough competition, and provides an impetus to their career profile.

This school offers programs in:
  • English

View MSc » View master programmes »

Programmes

This school also offers:

Master

M.Tech Embedded Systems

Campus Full time Part time 2 - 3  July 2017 India Gurgaon + 1 more

A course directed towards making the students employable for the Embedded Systems industry as soon as they complete it. [+]

M.Tech. in Embedded Systems HIGHLIGHTS OF THE COURSE The complete M. Tech. – Embedded System Program is industry oriented and is designed in accordance with the embedded industry needs. The unique feature of this course is that it has practical sessions in all subjects, so that students can have good hands on various embedded system platforms and domains which will help them to reach closer to the industry requirements. This program will generate highly employable candidates which can meet the industry requirements in embedded system domain. Concept of industry based projects has been included in this program which will enable students to have live experience on the industrial projects. The industry oriented practical sessions and project work will also create possibility of initial placement offers through collaborative efforts. Courses such as and Research Seminar and Advance Embedded Systems will help students to build a strong foundation for a career in research. As a part of the regular curriculum, the Value Added Courses on Embedded Linux, Device Drivers and Soft Skills supports and improves the overall learning skills and professional image of a student. [-]

MTech in Civil Engineering

Campus Full time Part time 2 - 3  July 2017 India Gurgaon + 1 more

Master of Technology (M.Tech.) in Civil Engineering programme is designed to have specialization options in Structural Engineering, Water Resources Engineering, Environmental Engineering, Geotechnical Engineering and Construction Technology and Management. [+]

MTech in Civil Engineering Master of Technology (M.Tech.) in Civil Engineering programme is designed to have specialization options in Structural Engineering, Water Resources Engineering, Environmental Engineering, Geotechnical Engineering and Construction Technology and Management. The M.Tech. in Civil Engineering programme will impart advanced knowledge in the field of specialization and will prepare the students for a bright career in industries, research and academic organizations within India and abroad. The total credits for the Master of Technology in Civil Engineering programme has been fixed as 60. For programme core courses 70 % of total credits and for programme and open electives 30% of the total credits are allotted. Some of the courses are as following: Groundwater Flow and Pollution Modeling Subsurface processes and concepts for groundwater resources evaluation, Unsaturated zone properties: Soil moisture levels, Retention curves, Flow through unsaturated porous media, infiltration and Wetting front, Groundwater contamination, Sources and causes of groundwater pollution, Pollution dynamics, Hydrodynamics dispersion, Biodegradation, Radioactive decay, Reactive processes, Multiphase contamination, NAPLs, VOCs, Site specific groundwater quality problems in Indian context, Numerical models, Finite difference methods, Numerical modeling of steady and transient flows in saturated and unsaturated domain, Contaminant transport modeling, Application of FEM and BIEM in groundwater modeling, Regional aquifer simulation, Contaminated groundwater systems and their rehabilitation, Development and optimization based management of aquifer systems, Stochastic models, Random field concepts in groundwater models; Application emerging techniques to groundwater management. Construction and Contract Management Project cost estimation, rate analysis, overhead charges, bidding models and bidding strategies. Qualification of bidders. Tendering and contractual procedures, Indian Contract Act1872, Definition of Contract and its applicability, Types of contracts, International contracts, Conditions and specifications of contract. Contract administration, Claims, compensation and disputes, Dispute resolution techniques, Arbitration and Conciliation Act 1996, Arbitration case studies, Professional ethics, Duties and responsibilities of parties. Management Information systems, Risk analysis, Value engineering [-]

MTech in Electronics & Communication Engineering

Campus Full time Part time 2 - 3  July 2017 India Gurgaon + 1 more

ITM University course Master of Technology (M. Tech.) in Electronics & Communication is a very comprehensive and in-line with the latest trends in the industry and academia. [+]

MTech in Electronics & Communication Engineering ITM University course Master of Technology (M. Tech.) in Electronics & Communication is a very comprehensive and in-line with the latest trends in the industry and academia. Some of the salient features of our M.Tech (ECE) Program: Curriculum abreast with latest engineering and technology developments All detailed Syllabi are designed in line with the best available schemes and compared with IITs, NITs, UGC/AICTE norms and other leading Universities. Syllabus revised/updated regularly considering feedbacks from MNCs, industrial experts, academicians from IITs, other reputed institutions High practical content with State-of-art labs in every subject Conducive environment and best infrastructure for learning MOUs and alliances with top end companies and universities and arrangements for supplementary Guest Lectures Value added Specialized and flexible courses for students to develop their communication and soft skills as well as gain command in the industry preferred areas of technology s, conducted by outside expert agencies. Industrial oriented program with projects, dissertations and training in industry Laboratory teaching training to give exposure to teaching Therefore, our M.Tech (ECE) program helps an overall development of the student in various aspects desired for a successful career in engineering industries/institutions/research while being aware of his societal responsibilities and limitations. [-]

MTech in Mechanical Engineering

Campus Full time Part time 2 - 3  July 2017 India Gurgaon + 1 more

It is 2 year full time and 3 year part time regular program leading to the master's degree in mechanical engineering, with an option of getting specialization in the following fields as per choice of the student [+]

MTech in Mechanical Engineering Overview It is 2 year full time and 3 year part time regular program leading to the master's degree in mechanical engineering, with an option of getting specialization in the following fields as per choice of the student: Thermal Engineering Mechanical Engineering Design Industrial and Production Engineering Automobile Engineering Some of salient features of the program The student enrolled for this program after completion of the program will get M.Tech in Mechanical Engineering. The student enrolled for this program will have an option to get M.Tech in Mechanical Engineering along with a certificate of specialization in any one area mentioned above as per his/her choice To get M.Tech with specialization in any one of the stream mentioned above the student will have to take all the electives in third semester of the program from any one of the stream as per his/her choice, and he/she will have to do Major Project in the same area. If the student wants to pursue M.Tech in Mechanical Engineering (without specialization) then he/she is free to take electives from any offered stream mentioned above, and there will not be any constraint regarding area of Major Project. Eligibility and Selection procedure The applicant must be an Indian national The applicant must have obtained minimum 60% marks or must have 6.75 CGPA on 10 point scale or equivalent in the following qualifying degree: B.E/B.Tech or equivalent degree in Mechanical Engineering, Automobile Engineering, Aero space/Aeronautical Engineering, Production/Manufacturing Engineering, Mechatronics, Mechanical and Automation Engineering, Industrial Engineering, Material Science and Engineering, Production and Industrial Engineering. [-]

MTech in VSLI Design

Campus Full time Part time 2 - 3  July 2017 India Gurgaon + 1 more

The $300 billion global semi‐conductor industry comprises of four different fields i.e., design, fabrication, assembly, and testing. India is trying to take a stand in the global semiconductor market by creating high value work in VLSI design, board design, and embedded systems. [+]

MTech in VSLI Design The $300 billion global semi‐conductor industry comprises of four different fields i.e., design, fabrication, assembly, and testing. India is trying to take a stand in the global semiconductor market by creating high value work in VLSI design, board design, and embedded systems. Companies with domain expertise are driving Indian businesses. India has become the world’s destination for semiconductor design and embedded systems, and is increasingly becoming the source as well. India has proven experience in verification, cutting‐edge digital, analog and mixed signal design. The country’s rapidly developing VLSI and embedded systems industry allows numerous companies to engage themselves into the area of hardware and software co‐development and verification. However, with the advent of technological advancements, the knowledge of device modeling, circuit design, verification, fabrication, and manufacturing is extremely important. It involves workforce as well as, well educated learners in the field. It is very essential for the country to make a mark in creation of skilled VLSI professionals to meet the challenges in the global Semiconductor market. Therefore it is a high time for Indian universities and research centers to develop engineering and science programs in the field of semiconductor ranging from device modeling, circuit design, system level verification, design synthesis, physical design, fabrication, MEMS, Solar Cells, LEDs, OLEDs, and displays. The ITMU’s post graduate program in VLSI Design (a two year course) will help in providing the well trained and skilled manpower to VLSI industry (e.g., Intel, Freescale, STMicroelectronics, Cadence, Synopsys, Texas Instruments, AMD, etc.) and R&D (CEERI, NPL, TIFR, DRDO, C‐DAC, etc.) in India and abroad. ITM University’ course Master of Technology (M.Tech.) in VLSI Design is a very comprehensive and in‐line with the latest trends in the industry and academia. The courses like Semiconductor Device Modeling, Analog & Digital VLSI Design at the device level modeling and circuit level design and analysis laid the foundation to understand and develop expertise in the state of the course like Low‐Power VLSI Design. Similarly, the courses like Hardware Description & Hardware Verification Languages, the VerilogHDL & SystemVerilog will support the future ASICs and SoC level VLSI Design professionals. The objective will certainly remain unfulfilled without an understanding and addressing of the interdisciplinary areas, so the courses like Optimization Techniques, Computer Architecture, Algorithm Analysis, Blue Tooth, Neural Networks and Cryptology have made a part of the curriculum. The best part is it provides a unified hardware & software learning environment to upcoming professionals and imparts a high‐level view of the VLSI ecosystem. It help them greatly in the understanding of the importance and an in‐depth learning of the micro‐level ideas in the electrical, electronics, and computer engineering domain. Features/Highlights ITM University learning environment is two ways‐Teachers to Student and Student to Teacher. This helps the student to imbibe the ideas in more productivity way for longer time. This program is designed to support and meet the need of the VLSI design industry in India/abroad and create future researchers. The program is more practical and hands‐on learning centric. It is designed in reference with the curriculum and course contents of IITs, NITs, C‐DAC, etc., to be in‐line with the best available curriculum in the country and to ensure the best learning platform in the university at the post‐graduate level. The focus on subjective presentation and projects from student is more to create an in‐depth understanding on the subject practices. The courses are extremely detailed and provide ample of time to student to do some research and project work in the area of SC Design. Mini‐Projects, Research Seminar, and Dissertation are specially designed to provide hands‐on skills and research foundation for career in industry and research. As a part of the regular curriculum, the Modular Courses on Linux & Scripting, Project Management, and Personality Development Program (PDP) supports and improves the overall learning skills and professional image of a student. In our pursuit of learning, we forget our health and personality. ITMU as a workplace is extremely competitive and demands the best out of an individual. [-]

MSc

MTech in Computer Science & Engineering

Campus Full time Part time 2 - 3  July 2017 India Gurgaon + 1 more

At the post-graduate level the department offers 2-year degree course in Master of Technology (M.Tech.) in Computer Science & Engineering with an intake of 20 students [+]

MTech in Computer Science & Engineering

At the post-graduate level the department offers 2-year degree course in Master of Technology (M.Tech.) in Computer Science & Engineering with an intake of 20 students. The objective of the programme is to provide the students with an opportunity to satiate their hunger for higher learning. The programme provides intensive training to the students at advanced level to enable them to take up research & development activities. Personal attention is paid to each student with intensive practical training. The course curriculum is so designed as to cater to the needs of the industry as well as the research & development organizations. The programme help the students to specialize in an area of their choice, thus leading to their rise in the academic & professional societies and enabling them to carve a niche for themselves. Some of the obligatory courses are as following: Advance Computer Networks Prerequisites: Computer Networks Introduction to basic models, TCP/IP model and its protocols in detail ,IP,TCP, Addressing and subnetting. Flow and Congestion Control; Window and Rate Based Schemes, Decbit, TCP. ATM, ABR, hop-by-hop schemes, Quality of Service: in ATM, IETF integrated services model, Differentiated Services Model. Flow identification, Packet Classifiers and Filters. Scheduling. Network Management: ASN, SNMP, CMIP. Issues in the management of large networks. Multicast: IGMP, PIM, DVMRP, Mobility: Mobile IP. And TCP. Architecture of High Performance Computer Systems Prerequisites: Operating System Concepts. Contents: Classification of parallel computing structures; Instruction level parallelism - static and dynamic pipelining, improving branch performance, superscalar and VLIW processors; High performance memory system; Shared memory multiprocessors and cache coherence; Multiprocessor interconnection networks; Performance modeling; Issues in programming multiprocessors; Data parallel architectures. Modeling & Simulation Pre-requisites: None Contents. Introduction of modeling, Basics and Classification of simulation models; The simulation process; System investigation, model formulation, validation and translation; Time flow mechanisms; Design of computer simulation experiments; Simulation of complex discrete-event systems with applications in industrial and service organizations. Tactical planning and management aspects, Random variable generation and analysis.... [-]