Introduction of Engineering and Management

ELECTRONICS & COMMUNICATION ENGINEERING

Department of Electronics & Communication Engineering keep pace with the current technological trends. The department offers the most contemporary undergraduate and postgraduate engineering degree course. It has setup of different labs with all modern equipments of Electronics, Analog & Digital, and Semiconductor Devices & VLSI Technology. The department is well equipped with modern laboratory facilities and most advance infrastructure. All faculty members are highly qualified and well experienced.  OurMission is to Educate and Train Students of Electronics and Communication Engg. Department  to enable them to face the Global competition and to instill high patterns of Discipline & Ethics with the help of State of the art Infrastructure, Committed & Involved Management and Dedicated Faculty Members.

INFORMATION TECHNOLOGY

In IT, India has built up valuable brand equity over the years. In IT enabled services (ITES), India is emerging as one of the most preferred destinations for business process outsourcing (BPO). The importance of IT industry in the Indian economy can be gauged from the fact that its contribution to the national gross domestic product (GDP) has increased by seven fold in a span of just one decade from 0.6% in 1994-95 to 4.3% in 2004-05. Although industry figures are not directly comparable with GDP as they are based on revenues rather than value added, they provide an indicator of growing importance of the IT sector in the country. Assuming that the Indian economy and IT sector will replicate the past six years performance during the next six years and value added in IT sector is two third of its sales revenue, the contribution of IT sector to national GDP will be around 8.5% during the coming years, quite similar to that in the United States (US) today. 

According to a report in The Times of India industry-body Nasscom estimates that India's IT-Information Technology Enabled Services (IT-ITeS) exports rose to $75.8 billion in 2012-13 fiscal from $68.7 billion in 2011-12 fiscal, he added.

As per government data, IT-ITeS exports are estimated to have risen by 23.4 percent at about Rs 4.11 lakh crore in the current fiscal from Rs 3.32 lakh crore in the 2011-12 fiscal.

The government in the National Policy on Information Technology (NPIT) 2012 envisages to increase IT industry revenues, through exports as well as the domestic market, from $100 billion to $300 billion by 2020.  


ELECTRICAL & ELECTRONICS ENGINEERING

Electrical engineering is a multi dimensional branch in which knowledge gained during studies is amazingly broad and versatile. It is a professional engineering discipline that deals with the study and applications of electricity, electronics and electro-magnetism. The first i.e. electricity is an identifiable occupation with the commercialization of electrical power supply. The field covers a range of sub-disciplines including those that deals with power, optoelectronics, digital electronics, analog electronics, Artificial Intelligence, control system, signal processing.

Growth of this field shows no signs of slowing. Despite of economic downturn, electrical engineers are as much in demand as ever. In future not only will it be harder to distinguish electrical engineering from its counterparts, it will be harder to limit electrical engineering major careers in industry. 

The Department currently runs two programs, a Bachelors program in Electrical and Electronics Engineering with a total intake of One Hundred Twenty students per academic year and a Post Graduate program in Power Electronics to cater to the ever challenging needs of technical excellence.

The under graduate program provides strong background in the four broad areas of Electrical Engineering, namely, communication, control system, Analog and Digital electronics and power & energy. A strong revelation to state-of-the-art technologies is further provided through elective courses that are carefully premeditated for the interested students.

Faculty members of the department are active in several research areas, such as; Renewable Energy, power system, High Voltage Power Equipment, electric drives, Energy, Power Electronics. The Department undertakes a continuous process of setting up experimental and computational facilities for taking up research & development and consultancy activities in various fields as also to produce state-of-the-art research output.

Department is producing excellent students who are academic toppers as well. The performance of the students is continuously growing with most of them getting selected in PSUs, GATE, CAT and many other exams. Many of the students get selected in MNCs through the campus drive organized by SGI.

CIVIL ENGINEERING

Sagar Institute of Research & Technology (SIRT) has a tradition of excellence in engineering education, emphasizing a blend of theory, practice, creativity, and hard work. The civil engineering program is one of the programme with a commitment to provide an intellectual environment and educational experience through which students and faculties could make significant contributions to society and the civil engineering profession through teaching, research, and practice.

The Department of Civil Engineering was established in 2009 with affiliation to Rajiv Gandhi Proudyogiki Vishwavidyalaya.. The Department has intake of 120 students per year. The department is well equipped with all facilities of Civil engineering core-labs as well as having highly qualified & experienced faculties. Teaching and industry oriented research is key attractions in civil engineering.


COMPUTER SCIENCE & ENGINEERING

Computer Science and Engineering is a discipline, which is constantly aligning itself with the future, presenting intellectual challenges and developing new knowledge on a day-to-day basis. This has been one of the most lucrative and competitive course to study since its inception in Indian Engineering Institutions and Universities. 

This is why, for the last few years, this branch of Engineering has been a favourite with an increasing number of students who have been coming to join the course in different Engineering Institutions.

What is to be learn during the Course
Computer science and engineering students will learn about basic engineering techniques, as  other engineering students, during first year course. These techniques include Engineering Mathematics, Physics and Chemistry, and Engineering drawing. From second year they are exposed to core computer science subjects like programming, data structures, Digital logic, Theoretical computer science, Algorithms, Computer networks, Operating systems, Web technologies, Databases and Computer Architecture are few to mention.

Why Choose Computer Science and Engineering
If you enjoy math, science and puzzles then this subject is perfect for you. Computer scientists and computer engineers change the world by designing, building and deploying innovative solutions to real-world problems. They design and build hardware and software systems; develop effective ways to solve problems (such as extracting knowledge from massive amounts of data, deploying robots in the real world, or devising new approaches to security and privacy); and invent new and better ways to use computers to address challenges such as decoding the human genome, making transportation more efficient, revolutionizing health care, empowering people in the developing world, transforming education, and building videogames. 

It's relevant. Computers are a part of everything we do. The computer field drives innovation in many other fields, including medicine, education, business, communication, and 

It's creative and challenging. The variety of applications of computer science and engineering makes for highly-creative and challenging projects. Working in the computer field might mean building web-based applications, providing security for sensitive information, developing systems to process scientific data, writing software for new mobile devices, and 

It's lucrative. Jobs in the field are among the highest paid, in part because qualified computer scientists and engineers are in demand. 

The future is full of possibilities. There is no question computers are infiltrating every aspect of our society. With changing technology, we cannot know what exciting turns your  career might take. What we can say is you will be in a position to contribute in whatever way you choose.

 What career options are there for a Computer Science Degree?
Bright Computer Science & Engineering majors typically secure highly collaborative, creative, diverse, challenging, well compensated positions that provide a flexible, fun lifestyle and appeal to a diverse population.

A Computer Science or Computer Engineering Degree is terrific preparation for almost any imaginable future. This is really an excellent field to have opportunities both in software companies and higher studies. As computing is extensively applied to almost every walk of life it created massive jobs for Computer Engineering students. On the same time more demand and application kept it research funding alive attracting many students to opt for higher studies.

Core companies offering jobs to Computer science Engineers: 
Government organizations like DRDL, ISRO, ECIL and BEL offer jobs to computer science students. There are thousands of multinational and national software companies offer jobs to computer engineers. To name few famous, Microsoft, Google, Yahoo, Amazon, IBM, Facebook, Oracle, Cisco, Infosys, TCS, and Wipro.

TOTAL QUALITY MANAGEMENT OF MANAGEMENT STUDIES
• Revise the existing syllabus.
• Standardize the course content.
• Rationalize the teaching methodology.
• Regularize the academic schedule.
• Optimize the use of teaching aids.
• Revitalize teaching knowledge & skills.
• Galvanize the examination machinery.
• Harmonies the work atmosphere.
• Modernize the management information system.
• Systemize the industry institute interface.
• Decentralize management control.
• Emphasis upon empirical research.
• Give preference to quality upon quantity. 
Prof. V.P. Singh
Advisor MBA Program, SGI
Age of Multiprocessors in Mobile Phones
I am a user of mobile phones since 2000 and seen wide variety of mobile processors. As a technology man now I face a question from technology audience that quite frequently they hear multiprocessors in mobile phones. They think that mobile phone is a device used for calling purpose only then how the need is arising for having multiprocessors in mobile phone, which they heard only for desktop or laptop like computers. So, here are my observations which will justify state of the art development.
Mobile devices perform a wide variety of tasks such as Web browsing, video playback, mobile gaming, SMS text messaging, and location-based services. Due to the growth in the availability of high speed mobile and Wi-Fi networks, mobile devices will also be used for various performance-intensive tasks that were previously handled by traditional PCs. The next generation of smart phones (called “Super phones”) and tablets will be used for a wide variety of tasks such as playback of high definition 1080p videos, Adobe® Flash®-based online gaming, Flash-based streaming high definition videos, visually rich gaming, video editing, simultaneous HD video downloads, encode and uploads, and real-time HD video conferencing. Therefore, more focus is going to be on videos functioning which require very high calculations work by a processor.
The generation of mobile processors which were not designed to deal with this high performance use cases have the quality of experience on devices based on single core CPUs rapidly degrades when users run several applications concurrently, or run performance intensive applications such as games, video conferencing, video editing, and more. In order to improve CPU performance, engineers employ several techniques and the best out of many is to have multiprocessors or multicore processors as increasing size of a single processor as it gives only a certain rise in performance & in exchange leads too high heat generation which further causes quick battery consumption and require advance cooling system.
To satisfy the rapidly growing demand for performance and form factor sleekness in mobile devices, the industry has begun to adopt newer technologies such as Symmetrical Multiprocessing and Heterogeneous Multicore computing. NVIDIA Tegra is the world’s most advanced mobile processor built from the ground up as a heterogeneous multi-core SoC (System-On-a-Chip) architecture with two ARM Cortex A9 CPU cores and several other purpose-built cores to handle specialized tasks such as audio, video, and graphics.

Dr. Rajiv Srivastava

Director, Sagar Institute of Research and Technology, Excellence(SGI Bhopal-Best Engineering Institute)