VIIT Pune Management Quota Fee, Direct Admission Process

Direct Admission in VIIT Pune through Management Quota

If cracking entrance exams for B.Tech admission seems daunting, but your passion for engineering remains strong, consider securing direct admission in VIIT Pune through the management quota. Here's a detailed guide to help you navigate the process:

Vishwakarma Institute of Information Technology Pune Admission Process:

VIIT offers B.Tech programs in various fields such as computer science and engineering, electronics and communication engineering, electrical and electronics engineering, mechanical engineering, and civil engineering. Admission is facilitated through the Common Entrance Test (CET) or JEE. Students passing the CET or JEE are admitted to their desired programs.

Modes of Admission in VIIT:

1. Central Level Entrance Exam (JEE): Admission can be secured through the JEE Entrance Exam, covering Physics, Chemistry, and Mathematics.

2. State Level Entrance Exam (MH-CET): The MHT-Common Entrance Test (CET) is administered by IIT Bombay. This exam is conducted twice a year and covers Physics, Mathematics, and Chemistry.

3. Management Quota: Direct admission through management quota is available for students who have completed their 12th grade. Seats remaining after counseling rounds can be filled through management quota by paying management fees directly to the college.

Eligibility Criteria for Engineering Admission:

1. B.Tech Admission Eligibility:

   - Indian citizenship is required.

   - Completion of HSC or its equivalent with Physics, Mathematics, and Chemistry as compulsory subjects.

   - Minimum 50% marks (45% for backward classes and persons with disabilities in Maharashtra).

   - Non-zero score in CET administered by the Competent Authority.

2. M.Tech Admission Eligibility:

   - Indian origin.

   - Bachelor’s degree in Engineering & Technology from a recognized institution.

   - Non-zero positive result in the Graduate Aptitude Test in Engineering (GATE) conducted by IIT.

Course Seat Intake at VIIT, Pune:

1. Undergraduate Courses:

   - Various courses with an intake capacity totaling 1080 seats.

2. Postgraduate Courses:

   - Several M.Tech programs with a total intake capacity of 42 seats.

VIIT Pune Management Quota Fee:

1. Undergraduate B.Tech Courses Fees:

   - Detailed fee structure based on different categories.

2. Postgraduate M.Tech Course Fees:

   - Fee details for M.Tech programs.

Placements at VIIT, Pune:

- Students receive comprehensive training in various areas including resume writing, interview skills, and soft skill development.

- Companies like Avaya, UBS, Tata Elxsi Ltd., Infosys Technologies Ltd., Wipro Technologies Ltd., and many others regularly recruit from VIIT Pune.

- Major recruiters include Persistent Systems Ltd., Mediaocean, Cognizant Technology Solutions, Accenture Ltd., and more.

In Conclusion:

Direct admission in VIIT Pune through the management quota provides an alternative path for students passionate about engineering. By understanding the admission process, eligibility criteria, and fee structure, you can make an informed decision to embark on your engineering journey at VIIT Pune.

Propelling atomically layered magnets toward green computers

New Post has been published on https://sunalei.org/news/propelling-atomically-layered-magnets-toward-green-computers/

Propelling atomically layered magnets toward green computers

Globally, computation is booming at an unprecedented rate, fueled by the boons of artificial intelligence. With this, the staggering energy demand of the world’s computing infrastructure has become a major concern, and the development of computing devices that are far more energy-efficient is a leading challenge for the scientific community. 

Use of magnetic materials to build computing devices like memories and processors has emerged as a promising avenue for creating “beyond-CMOS” computers, which would use far less energy compared to traditional computers. Magnetization switching in magnets can be used in computation the same way that a transistor switches from open or closed to represent the 0s and 1s of binary code. 

While much of the research along this direction has focused on using bulk magnetic materials, a new class of magnetic materials — called two-dimensional van der Waals magnets — provides superior properties that can improve the scalability and energy efficiency of magnetic devices to make them commercially viable. 

Although the benefits of shifting to 2D magnetic materials are evident, their practical induction into computers has been hindered by some fundamental challenges. Until recently, 2D magnetic materials could operate only at very low temperatures, much like superconductors. So bringing their operating temperatures above room temperature has remained a primary goal. Additionally, for use in computers, it is important that they can be controlled electrically, without the need for magnetic fields. Bridging this fundamental gap, where 2D magnetic materials can be electrically switched above room temperature without any magnetic fields, could potentially catapult the translation of 2D magnets into the next generation of “green” computers.

A team of MIT researchers has now achieved this critical milestone by designing a “van der Waals atomically layered heterostructure” device where a 2D van der Waals magnet, iron gallium telluride, is interfaced with another 2D material, tungsten ditelluride. In an open-access paper published March 15 in Science Advances, the team shows that the magnet can be toggled between the 0 and 1 states simply by applying pulses of electrical current across their two-layer device. 

Play video

The Future of Spintronics: Manipulating Spins in Atomic Layers without External Magnetic Fields Video: Deblina Sarkar

“Our device enables robust magnetization switching without the need for an external magnetic field, opening up unprecedented opportunities for ultra-low power and environmentally sustainable computing technology for big data and AI,” says lead author Deblina Sarkar, the AT&T Career Development Assistant Professor at the MIT Media Lab and Center for Neurobiological Engineering, and head of the Nano-Cybernetic Biotrek research group. “Moreover, the atomically layered structure of our device provides unique capabilities including improved interface and possibilities of gate voltage tunability, as well as flexible and transparent spintronic technologies.”

Sarkar is joined on the paper by first author Shivam Kajale, a graduate student in Sarkar’s research group at the Media Lab; Thanh Nguyen, a graduate student in the Department of Nuclear Science and Engineering (NSE); Nguyen Tuan Hung, an MIT visiting scholar in NSE and an assistant professor at Tohoku University in Japan; and Mingda Li, associate professor of NSE.

Breaking the mirror symmetries 

When electric current flows through heavy metals like platinum or tantalum, the electrons get segregated in the materials based on their spin component, a phenomenon called the spin Hall effect, says Kajale. The way this segregation happens depends on the material, and particularly its symmetries.

“The conversion of electric current to spin currents in heavy metals lies at the heart of controlling magnets electrically,” Kajale notes. “The microscopic structure of conventionally used materials, like platinum, have a kind of mirror symmetry, which restricts the spin currents only to in-plane spin polarization.”

Kajale explains that two mirror symmetries must be broken to produce an “out-of-plane” spin component that can be transferred to a magnetic layer to induce field-free switching. “Electrical current can ‘break’ the mirror symmetry along one plane in platinum, but its crystal structure prevents the mirror symmetry from being broken in a second plane.”

In their earlier experiments, the researchers used a small magnetic field to break the second mirror plane. To get rid of the need for a magnetic nudge, Kajale and Sarkar and colleagues looked instead for a material with a structure that could break the second mirror plane without outside help. This led them to another 2D material, tungsten ditelluride. The tungsten ditelluride that the researchers used has an orthorhombic crystal structure. The material itself has one broken mirror plane. Thus, by applying current along its low-symmetry axis (parallel to the broken mirror plane), the resulting spin current has an out-of-plane spin component that can directly induce switching in the ultra-thin magnet interfaced with the tungsten ditelluride. 

“Because it’s also a 2D van der Waals material, it can also ensure that when we stack the two materials together, we get pristine interfaces and a good flow of electron spins between the materials,” says Kajale. 

Becoming more energy-efficient 

Computer memory and processors built from magnetic materials use less energy than traditional silicon-based devices. And the van der Waals magnets can offer higher energy efficiency and better scalability compared to bulk magnetic material, the researchers note. 

The electrical current density used for switching the magnet translates to how much energy is dissipated during switching. A lower density means a much more energy-efficient material. “The new design has one of the lowest current densities in van der Waals magnetic materials,” Kajale says. “This new design has an order of magnitude lower in terms of the switching current required in bulk materials. This translates to something like two orders of magnitude improvement in energy efficiency.”

The research team is now looking at similar low-symmetry van der Waals materials to see if they can reduce current density even further. They are also hoping to collaborate with other researchers to find ways to manufacture the 2D magnetic switch devices at commercial scale. 

This work was carried out, in part, using the facilities at MIT.nano. It was funded by the Media Lab, the U.S. National Science Foundation, and the U.S. Department of Energy.

Propelling atomically layered magnets toward green computers

New Post has been published on https://thedigitalinsider.com/propelling-atomically-layered-magnets-toward-green-computers/

Propelling atomically layered magnets toward green computers

Globally, computation is booming at an unprecedented rate, fueled by the boons of artificial intelligence. With this, the staggering energy demand of the world’s computing infrastructure has become a major concern, and the development of computing devices that are far more energy-efficient is a leading challenge for the scientific community. 

Use of magnetic materials to build computing devices like memories and processors has emerged as a promising avenue for creating “beyond-CMOS” computers, which would use far less energy compared to traditional computers. Magnetization switching in magnets can be used in computation the same way that a transistor switches from open or closed to represent the 0s and 1s of binary code. 

While much of the research along this direction has focused on using bulk magnetic materials, a new class of magnetic materials — called two-dimensional van der Waals magnets — provides superior properties that can improve the scalability and energy efficiency of magnetic devices to make them commercially viable. 

Although the benefits of shifting to 2D magnetic materials are evident, their practical induction into computers has been hindered by some fundamental challenges. Until recently, 2D magnetic materials could operate only at very low temperatures, much like superconductors. So bringing their operating temperatures above room temperature has remained a primary goal. Additionally, for use in computers, it is important that they can be controlled electrically, without the need for magnetic fields. Bridging this fundamental gap, where 2D magnetic materials can be electrically switched above room temperature without any magnetic fields, could potentially catapult the translation of 2D magnets into the next generation of “green” computers.

A team of MIT researchers has now achieved this critical milestone by designing a “van der Waals atomically layered heterostructure” device where a 2D van der Waals magnet, iron gallium telluride, is interfaced with another 2D material, tungsten ditelluride. In an open-access paper published March 15 in Science Advances, the team shows that the magnet can be toggled between the 0 and 1 states simply by applying pulses of electrical current across their two-layer device. 

Play video

The Future of Spintronics: Manipulating Spins in Atomic Layers without External Magnetic Fields Video: Deblina Sarkar

“Our device enables robust magnetization switching without the need for an external magnetic field, opening up unprecedented opportunities for ultra-low power and environmentally sustainable computing technology for big data and AI,” says lead author Deblina Sarkar, the AT&T Career Development Assistant Professor at the MIT Media Lab and Center for Neurobiological Engineering, and head of the Nano-Cybernetic Biotrek research group. “Moreover, the atomically layered structure of our device provides unique capabilities including improved interface and possibilities of gate voltage tunability, as well as flexible and transparent spintronic technologies.”

Sarkar is joined on the paper by first author Shivam Kajale, a graduate student in Sarkar’s research group at the Media Lab; Thanh Nguyen, a graduate student in the Department of Nuclear Science and Engineering (NSE); Nguyen Tuan Hung, an MIT visiting scholar in NSE and an assistant professor at Tohoku University in Japan; and Mingda Li, associate professor of NSE.

Breaking the mirror symmetries 

When electric current flows through heavy metals like platinum or tantalum, the electrons get segregated in the materials based on their spin component, a phenomenon called the spin Hall effect, says Kajale. The way this segregation happens depends on the material, and particularly its symmetries.

“The conversion of electric current to spin currents in heavy metals lies at the heart of controlling magnets electrically,” Kajale notes. “The microscopic structure of conventionally used materials, like platinum, have a kind of mirror symmetry, which restricts the spin currents only to in-plane spin polarization.”

Kajale explains that two mirror symmetries must be broken to produce an “out-of-plane” spin component that can be transferred to a magnetic layer to induce field-free switching. “Electrical current can ‘break’ the mirror symmetry along one plane in platinum, but its crystal structure prevents the mirror symmetry from being broken in a second plane.”

In their earlier experiments, the researchers used a small magnetic field to break the second mirror plane. To get rid of the need for a magnetic nudge, Kajale and Sarkar and colleagues looked instead for a material with a structure that could break the second mirror plane without outside help. This led them to another 2D material, tungsten ditelluride. The tungsten ditelluride that the researchers used has an orthorhombic crystal structure. The material itself has one broken mirror plane. Thus, by applying current along its low-symmetry axis (parallel to the broken mirror plane), the resulting spin current has an out-of-plane spin component that can directly induce switching in the ultra-thin magnet interfaced with the tungsten ditelluride. 

“Because it’s also a 2D van der Waals material, it can also ensure that when we stack the two materials together, we get pristine interfaces and a good flow of electron spins between the materials,” says Kajale. 

Becoming more energy-efficient 

Computer memory and processors built from magnetic materials use less energy than traditional silicon-based devices. And the van der Waals magnets can offer higher energy efficiency and better scalability compared to bulk magnetic material, the researchers note. 

The electrical current density used for switching the magnet translates to how much energy is dissipated during switching. A lower density means a much more energy-efficient material. “The new design has one of the lowest current densities in van der Waals magnetic materials,” Kajale says. “This new design has an order of magnitude lower in terms of the switching current required in bulk materials. This translates to something like two orders of magnitude improvement in energy efficiency.”

The research team is now looking at similar low-symmetry van der Waals materials to see if they can reduce current density even further. They are also hoping to collaborate with other researchers to find ways to manufacture the 2D magnetic switch devices at commercial scale. 

This work was carried out, in part, using the facilities at MIT.nano. It was funded by the Media Lab, the U.S. National Science Foundation, and the U.S. Department of Energy.

Apply online for NTRO Scientist 'B' (74 openings); need first-class Bachelor's, GATE score by January 19, 2024.

New Post has been published on https://www.jobsarkari.in/apply-online-for-ntro-scientist-b-74-openings-need-first-class-bachelors-gate-score-by-january-19-2024/

Apply online for NTRO Scientist 'B' (74 openings); need first-class Bachelor's, GATE score by January 19, 2024.

The National Technical Research Organisation (NTRO) is inviting online applications for the position of Scientist ‘B’. The application process begins on 21st December 2023 and closes on 19th January 2024. The essential qualifications for the position include a first-class Bachelor’s degree in Engineering or Technology in the relevant discipline, along with knowledge of computer applications. Valid GATE score cards are also required. The pay scale for the position is Level-10 of the Pay Matrix, with various allowances and benefits.

The Scientist ‘B’ position is classified as Group ‘A’ (Gazetted, Non-Ministerial) under the General Central Civil Service. On initial appointment, the pay and allowances include basic pay, dearness allowance, special security allowance, house rent allowance, transport allowance, and government contribution towards NPS. Additional facilities and allowances such as annual increment, medical facilities, LTC facilities, children education allowance, and government accommodation are also provided.

Scientific Cadre Officers in NTRO have career prospects based on the ‘Modified Flexible Complementing Scheme’, with promotions based on performance and assessment. The selected candidates will be liable to serve throughout India, including field service and service on sea platforms. They will be on probation for a period of 2 years.

There are a total of 74 vacancies for the Scientist ‘B’ position. The vacancies are divided among different disciplines, including Electronics & Communications, Computer Science, and Geo-Informatics and Remote Sensing. The number of vacancies is provisional and subject to change.

The eligibility conditions for the position include age limit, educational qualifications, and other criteria. The crucial date for determining eligibility is the closing date of online application, which is 19th January 2024. Candidates must possess the required educational qualifications as mentioned in the advertisement. They should also have valid GATE score cards in the corresponding GATE paper.

Candidates belonging to reserved categories must provide relevant certificates in the prescribed format to claim reservation/relaxation benefits. The OBC candidates must produce OBC (Non-Creamy Layer) certificate based on the income for the financial year 2022-23. The candidates claiming reservation for Economically Weaker Sections (EWS) must meet the criteria issued by the Central Government and possess the requisite Income & Asset Certificate. The candidates are required to upload scanned copies of the certificates in the specified formats during the online application process.

The application fee for the position is Rs. 250/- for candidates except SC/ST/Female candidates. The fee should be paid through online payment mode via the applications software. Other modes of payment are not acceptable. The fee once paid is non-refundable.

Candidates can apply for the position online through the official website. They must carefully read the complete advertisement and ensure their eligibility before filling up the application form. Candidates can choose only one subject/field among Electronics & Communications, Computer Science, and Geo-Informatics and Remote Sensing. The application will be treated as complete only if all mandatory steps are completed successfully.

The selection process for the Scientist ‘B’ position includes shortlisting based on valid GATE score, a written examination, and an interview. The shortlisted candidates will be required to appear in the written examination, which will consist of objective/multiple-choice questions. The minimum qualifying marks for the written examination are 50% for unreserved category and 40% for reserved categories. The candidates who qualify in the written examination will be called for the interview. The final selection will be based on GATE score, marks obtained in the written examination, and performance in the interview.

The examination centers for the written examination are Guwahati, New Delhi, Bangalore, Mumbai, Lucknow, and Kolkata. The exact date of the written examination will be notified to the candidates through their registered email ID. The schedule of the interview for the shortlisted candidates will also be notified through email.

Interested candidates are advised to visit the official website for the

The National Technical Research Organisation (NTRO) is inviting online applications for the position of Scientist ‘B’.

The application process begins on 21st December 2023 and closes on 19th January 2024.

The essential qualifications for the position include a first-class Bachelor’s degree in Engineering or Technology in the relevant discipline, along with knowledge of computer applications.

Valid GATE score cards are also required.

The pay scale for the position is Level-10 of the Pay Matrix, with various allowances and benefits.

Introduction

NTRO is inviting online applications for the position of Scientist ‘B’

Application process: December 21, 2023 – January 19, 2024

First-class Bachelor’s degree in Engineering or Technology required

Knowledge of computer applications is essential

Valid GATE score cards also required

Pay Scale and Benefits

Pay scale: Level-10 of the Pay Matrix

Various allowances and benefits included

Group ‘A’ Classification

Scientist ‘B’ position is classified as Group ‘A’ (Gazetted, Non-Ministerial)

General Central Civil Service

Basic pay, dearness allowance, special security allowance, house rent allowance, transport allowance, and government contribution towards NPS

Career Prospects

Career prospects based on the ‘Modified Flexible Complementing Scheme’

Promotions based on performance and assessment

Liable to serve throughout India, including field service and service on sea platforms

Probation period of 2 years

Vacancies and Disciplines

Total of 74 vacancies for the Scientist ‘B’ position

Vacancies divided among different disciplines:

1. Electronics & Communications

2. Computer Science

3. Geo-Informatics and Remote Sensing

Eligibility Conditions

Age limit, educational qualifications, and other criteria must be met

Closing date of online application: January 19, 2024

Required educational qualifications as mentioned in the advertisement

Valid GATE score cards in the corresponding GATE paper

Reserved Categories

Relevant certificates required for claiming reservation/relaxation benefits

OBC candidates must produce OBC (Non-Creamy Layer) certificate based on income

EWS candidates must meet criteria issued by the Central Government and possess Income & Asset Certificate

Application Fee and Process

Application fee: Rs. 250/- (except for SC/ST/Female candidates)

Fee to be paid through online payment mode via the applications software

Other modes of payment not acceptable

Selection Process

Shortlisting based on valid GATE score, written examination, and interview

Written examination consists of objective/multiple-choice questions

Minimum qualifying marks: 50% for unreserved category, 40% for reserved categories

Examination Centers and Schedule

Examination centers: Guwahati, New Delhi, Bangalore, Mumbai, Lucknow, and Kolkata

Exact date of the written examination will be notified through registered email ID

Schedule of the interview for shortlisted candidates will also be notified through email

Don’t Miss Out on this Opportunity!

Exciting opportunity to join NTRO as a Scientist ‘B’

Apply online before January 19, 2024

Reminder of main message: First-class Bachelor’s degree and valid GATE score card required

IBM Launches Quantum System Two And Quantum Heron Processor

IBM Quantum Heron Processor

The first of a new series of utility-scale quantum processors, IBM Quantum Heron, was unveiled right now at the annual IBM Quantum Summit in New York. Its architecture has been developed over the last four years to deliver IBM’s highest performance metrics and lowest error rates of any IBM Quantum processor to date.

Additionally, IBM debuted IBM Quantum System Two, the first modular quantum computer made by the firm and the main component of their quantum-centric supercomputing architecture. With three IBM Heron processor and accompanying control electronics, the first IBM Quantum System Two, situated in Yorktown Heights, New York, has started up operations.

Now that this crucial framework is in place, the company is extending its IBM Quantum Development Roadmap until 2033 with new goals to greatly improve the quality of gate operations, in addition to other advances in quantum hardware, theory, and software. By doing this, it would be possible to run quantum circuits of greater size and contribute to the full realization of quantum computing’s promise at scale.

IBM Quantum systems can now be used as a scientific tool to examine utility-scale classes of issues in chemistry, physics, and materials beyond brute force classical simulation of quantum mechanics, as proven by IBM earlier this year on a 127-qubit ‘IBM Quantum Eagle’ processor.

Since then, utility-scale quantum computing has been demonstrated more often by eminent scientists, engineers, and researchers from a variety of institutions, including IBM, the U.S. Department of Energy’s Argonne National Laboratory, the University of Tokyo, the University of Washington, the University of Cologne, Harvard University, Qedma, Algorithmiq, UC Berkeley, Q-CTRL, Fundacion Ikerbasque, Donostia International Physics Center, and the University of the Basque Country.

This includes trials currently underway on the brand-new IBM Quantum Heron 133-qubit processor, which the company is currently offering to consumers through the cloud. The first of IBM’s new generation of high-performance processors, IBM Heron offers a five-fold gain over the previous best records set by IBM Eagle, thanks to dramatically improved error rates. Over the course of the next year, more IBM Heron processors will be added to IBM’s fleet of systems, which leads the industry in terms of utility and performance.

The Extended IBM Quantum Development Roadmap and IBM Quantum System Two

The architecture of IBM’s next-generation quantum computing system is built on IBM Quantum System Two. It integrates modular qubit control circuits with traditional runtime servers and scalable cryogenic infrastructure. The new system serves as a foundational element for IBM’s quantum-centric supercomputing concept. This architecture uses a middleware layer to properly integrate quantum and classical workflows. It integrates quantum communication and processing with the help of classical computer resources.

This system is intended to contain IBM’s next generation of quantum processors as well, according to IBM’s recently enlarged ten-year IBM Quantum Development Roadmap. Furthermore, as part of this roadmap, these upcoming processors are meant to progressively enhance the caliber of operations they can perform, hence greatly increasing the complexity and volume of workloads they can manage.

Enhance the Simplicity of Quantum Software Programming with Qiskit and Generative AI

IBM is also presenting plans today for a new generation of its software stack, of which Qiskit 1.0 will be a turning point characterized by speed and stability. IBM is also introducing Qiskit Patterns, which aims to democratize the development of quantum computers.

Quantum developers will be able to write code more quickly and simply with the help of Qiskit Patterns. Its foundation is a set of tools for mapping classical issues to quantum circuits, optimizing those circuits with Qiskit, running those circuits with Qiskit Runtime, and postprocessing the output. Users will be able to create, implement, and run workflows mixing classical and quantum processing in various contexts, such as cloud or on-premise situations, by combining Qiskit Patterns with Quantum Serverless. With the help of these tools, users will be able to construct and execute quantum algorithms more quickly.

Furthermore, IBM is in the forefront of applying generative AI to quantum code programming via its enterprise AI platform, Watsonx. IBM plans to include Watsonx’s generative AI technology to facilitate the automation of Qiskit’s quantum code development. The IBM Granite model series will be adjusted in order to accomplish this.

“Generative AI and quantum computing are both reaching an inflection point, presenting us with the opportunity to use the trusted foundation model framework of watsonx to simplify how quantum algorithms can be built for utility-scale exploration,” stated Jay Gambetta, Vice President and Fellow at the company. “This is a significant step towards broadening how quantum computing can be accessed and put in the hands of users as an instrument for scientific exploration.”

Users and computational scientists can now reliably derive results from quantum systems as they map larger and more complex problems to quantum circuits thanks to the sophisticated hardware found in IBM’s global fleet of more than 100 qubit systems and the user-friendly software that IBM is introducing with Qiskit.

Read more on Govindhtech.com

Key points about the GATE exam

Disciplines Covered: GATE is conducted in multiple disciplines of engineering and science. It includes subjects like Mechanical Engineering, Computer Science and Information Technology, Electrical Engineering, Civil Engineering, Electronics and Communication Engineering, and many more.

Eligibility: Candidates who have completed or are in the final year of their Bachelor's degree in engineering or science are eligible to appear for GATE.

Exam Pattern: The GATE exam typically consists of a single paper with a duration of 3 hours. The paper includes both multiple-choice questions (MCQs) and numerical answer type questions.

Score Validity: GATE scores are valid for three years. They are used by various institutions in India for admission to postgraduate programs and by several public and private sector organizations for recruitment.

Syllabus: The syllabus for GATE varies based on the discipline chosen by the candidate. The detailed syllabus for each discipline is available on the official GATE website.

Application Process: The application process for GATE usually starts in September, and the exam is conducted in February.

Results: GATE results are typically announced in March.

Scorecard: GATE scorecards provide a percentile rank, which indicates the percentage of candidates who have scored equal to or below the particular candidate.

Online Resources: Use online resources like video lectures, online courses, and GATE preparation websites to your advantage. Many platforms offer free and paid content to help you understand difficult concepts. MSigma Gokulam Provide Online Gate Exam classes. check website https://www.msigmagokulam.com/

Top private engineering colleges in Rajasthan

With the emergence of innovative technology and technology-driven devices, Indian colleges and universities are imparting world-class engineering degrees that can be pursued with affordable fee structure, and also provide scholarships to deserving students. Engineering is a 4 years 8 semesters degree program. The degree is divided into various branches and departments. Colleges and universities that provide cutting-edge engineering curriculum get unique rankings and recognitions. These rankings are generally based on certain unique criteria such as placements, infrastructure, faculty, academic achievements, research activities, etc. If you are planning to study an engineering degree, then let us take a look at the top Engineering colleges in Rajasthan University of Engineering and Management (UEM), Jaipur University of Engineering and Management (UEM) is one of the best engineering colleges in Jaipur that imparts industry-oriented engineering programs to meet global technology trends. UEM, Jaipur is a government-approved, AICTE approved, and UGC recognized university. The University offers various engineering degrees to students such as Computer Science and Engineering, Electronic and Communication Engineering, Electrical Engineering, Civil Engineering, and Mechanical Engineering. UEM has received various prestigious awards, recognitions, and titles since its inception for providing outstanding and industry-oriented curriculum. UEM Jaipur has obtained the International ‘Best Engineering Institute Award’ under the ‘Education Leadership Program’ of ‘Golden gives Tigers Award’, 2017. The renowned university has the strongest placement cell in India. Pre-placements deliberations are organized in order to provide inputs in chosen area, the job profiles, the interview process, and their expectations from the potential candidate. In addition, Soft Skills Development Programme (SSDP) and Higher Career Training Programme (HCTP) are imparted to the students to help them crack entrance examinations including GATE. UEM, Jaipur has highly experienced and knowledgeable faculty members who are devoted towards providing a holistic, practical and comprehensive curriculum to the students. To read more about various engineering programs visit the website: https://uem.edu.in/uem-jaipur/ JECRC University, Jaipur JECRC University provides an innovation-led research oriented engineering curriculum to the students. JECRC University has quality infrastructure such as tranquil and attractive campus, well-equipped labs, a well-stocked library, fully air-conditioned hostel cubicles, mess offering good foods, sports facilities and, clubs and societies to ensure productive learning environment. The faculty members and mentors at the university come from premium institutions and industries including IITs and NITs, and reputed Central and State Universities. Vivekananda Global University, Jaipur Vivekananda Global University’s educational curriculums are comprehended by persistently evolving teaching and learning reforms, with much innovation in respective fields. The campus is furnished with state-of-the-art facilities including a wide-ranging library that is a model in its kind. Apart from these, each department is supported by lecture halls, research and training laboratories, workshops and other several active clubs. Vivekananda Global University provides a wide array of co-curricular activities, hobbies and interactive clubs and societies to choose from. NIMS University, Jaipur NIMS University has been a pioneer in quality teaching and action-oriented research in all disciplines. Being a model landmark in the area of higher education, its lush green campus, state-of-art infrastructure, and modern laboratory furnished with latest technology, interactive pedagogy, and academia with proven proficiency, NIMS University has been the glory for thousands of on-campus and off-campus students. LNM Institute of Information Technology (LNMIIT), Jaipur LNM Institute of Information Technology provides a cutting-edge platform or foundation of knowledge through quality research, and its distribution through technologically-enabled teaching-learning methodology in the field of science, technology, engineering, arts, and management. The institute offers innovative curriculum in various branches of engineering. Read the full article

Fieldnotes, Nashville, 05/31/23

Paying a visit to Amazon's recently built Nashville offices, part of the city's future Nashville Yards (still under construction). This city development calls itself "A place of commerce [...] evok[ing] a next-generation sense of place with Class A+ office, retail, entertainment, hospitality, and residential towers in one authentic, irreplaceable community" (Nashville Yards 2023). Lots of retail bingo language here. Gotcha. Right now, it's a HUGE construction site, asphalt burning under the heat of a June summer day.

Surprisingly, it's not easy to find the building in the maze of cranes, rails, and not-very-pedestrian-friendly streets and allies (which is kind of ironic, since Nashville Yards (2023) praises its future "pedestrian pathways, open green spaces, and plazas" - not to be seen, yet). Ultimately, I stumble over the entrance of this tall skyscraper office, even without it having a huge and emblematic smiling arrow at its entrance. For a Wednesday morning at 10 it seems pretty quiet, especially considering that there was a walk-out planned by the Seattle based "Amazon Employees for Climate Justice". Their protest addresses the company's decision making processes not prioritizing, but breaking their climate pledge and general working conditions [for a critical analysis of Amazon's climate pledge, read Emily West's "Decoding Amazon’s Climate Pledge: Public Relations and the Platformization of Governance" in: Smith et al. (2023) "Amazon: at the intersection of culture and capital").

It's too early here in Nashville and I haven't heard of any actions planned. The Nashville employees are noticeably marked by an Amazon employee batch around their neck. There is one employee walking a dog (apparently, pets are allowed in the office?), one in an Amazon logo-ed shirt being dropped off. The Starbucks Pick Up next door seems closed, but the famous banana stand up front offers fruit to the community. Entrance is only granted with a batch and the front desk is armed with cameras that look like the biometric ones from the airport. Also: electronic gates. No way in, it seems. Everything is tightly gatekept (up to the valet guarding the entrance to the parking garage). An NDA built in glass.

Amazon (2023) announces to "ultimately create 5,000 jobs in Nashville. These new jobs include a mix of technical roles such as Software Development Engineers and non-technical roles for candidates at all skill and education levels. In addition to jobs at Amazon, we expect our $230 million investment to create thousands more jobs in other industries such as construction, building services, hospitality and retail." Moreover, as the inititaive Stand Up Nashville notes in their 2022 Amazon Housing Equity Fund Analysis Report, Amazon has - to the surpise of the local community - announced to bring their Housing Equity Fund to the city. "Amazon and our Mayor had agreed to have the corporation fund a new public position tasked with shaping how our city addresses our affordable housing crisis and development boom." (Standupnashville.org, 2022, p. 2).

This seems to be critical on various levels, as the inititive points out (and rightly so): 1. There seems to be a lack of public information about Amazon's use of the fund and the conditions of the cooperation with city officials. 2. While "recent analysis shows that Nashville is in far greater need of homes at the lowest levels of affordability" (Standupnashville.org, 2022, p. 3), Amazon will most likely build units that requires an income higher than that of, e.g., an Amazon fullfillment worker. Additionally, Amazon's office will provide work for mostly white (collar), higher-paying employees, thus leading to the displacement of low-income households and gentrification processes in the neighborhood. As Stand Up Nashville describes (2022, p. 4), "the failure to create deeply affordable housing in our city risks driving communities of color out and worsening racial and economic inequality."

Giving a private cooperation that much power over how a city is developed, built, and - ultimately - socially structured is incredibly dangerous, keeping in mind what a company is eventually after: private profit (and more power). When cities hand over the housing question, and often crisis, to private funders, who gets to decide upon the future of our cities, and the vitally important, should-be-uncoditional right to housing? Are cities build on demand? Stand Up Nashville (2022, p. 7) rightfully warns and concludes: "Amazon’s housing fund could set the standard for how corporations make smart investments in cities like Nashville—or they could lead us towards becoming the next Seattle or San Francisco."

That's where I am headed to next: San Francisco, here I come!

Resources:

Amazon (2023): Nashville, TN. amazon.jobs. https://www.amazon.jobs/en/locations/nashville-area-tn [last accessed 06.12.2023].

Nashville Yards (2023): Nashville Yards. https://www.nashvilleyards.com/ [last accessed 06.12.2023].

Standupnashville.org (2022): SUN-Amazon-Housing-Report.pdf. https://standupnashville.org/wp-content/uploads/2021/12/SUN-Amazon-Housing-Report.pdf [last accessed 05.03.2023].

West, Emily (2023): Decoding Amazon’s Climate Pledge: Public Relations and the Platformization of Governance. In: Smith, Paul / Monea, Alexander / Santiago, Maillim (eds.): Amazon: at the intersection of culture and capital. Lanham: Rowman & Littlefield. Pp. 269-286).

NIT Silchar Recruitment 2023: Junior Research Fellow (JRF) Vacancy

NIT Silchar Recruitment 2023: National Institute of Technology (NIT) Silchar has released an employment notification for the recruitment of 02 Junior Research Fellow (JRF) vacancies in the Department of ECE, NIT Silchar. The last date for submission of the application is June 21, 2023. Junior Research Fellow (JRF)  - No. of posts: 02 (Two) - Department: ECE, NIT Silchar. - Title of the project: Development of a Reinforcement Learning Based Tracking Algorithm for a Mobile Tracker to Strategically track Intelligently Guided Mobile Tracker. - Qualification: B.E/B. Tech/M.E./M. Tech/M. Sc/MCA or, equivalent qualification holder with first class in aggregate, in electrical science streams like Electrical Engineering/Electronics Engineering/Electronics & Communication Engineering/Computer Science and Engineering/Electronics & Instrumentation Engineering/Bioelectronics Engineering/Telecommunication Engineering/Mechatronics Engineering /Robotics Engineering etc. - Experience: 0 to 3 years of post-PG experience. GATE/ NET Qualification. - Salary: INR. 31,000/- per month+ H.R.A. (without D.A./T.A.). - Age Limit: 32 years (as of the closing date of application, 21/06/2023). How to Apply for NIT Silchar Recruitment 2023? Applicants are requested to send the soft copy of the duly filled application form (given below) along with C.V. & soft copy of all supporting documents to the PI through the email ([email protected]), with the subject line: “Application for the post of JRF under the project ARDB/01/1082038/M/I”. Those who wish to apply are advised to go through the below official notification in detail before submitting applications. Download Application Form Click Here Download Official Notification Click Here Job Updates on Telegram Click Here Read the full article

Best Online Coaching classes for GATE exam Preparation

GATE Exam

The Graduate Aptitude Test in Engineering, also known as GATE Exam, is an examination conducted in India that primarily tests the comprehensive understanding of various core subjects of engineering for admission into the Masters Program and Job in Public Sector Companies. 

Every Year GATE Exam is conducted in the month of February in various cities. The exact date for GATE Exam is fixed as per the branch. The results are announced in 2nd or 3rd week of March every year.  

Gate Online Coaching

GATE exam tests the basic understanding of each and every technical subject of respective branch. To score good marks in GATE Exam, student needs to have conceptual clarity along with deep knowledge of basics of the subjects.

Nowadays, students can start preparing for GATE Exam in their college days too where they get a lot of leisure time and good resources nearby with the help of Online Learning. Proper GATE Coaching plays a very important role in clearing the exam with good score.

GATE Online coaching helps student in studying in his/her own pace. Also, students can view the lectures multiple times if facing a difficulty in first time. This helps those students whose learning speed is relatively low.

Gate 2024 online coaching

Students have started preparation for GATE 2024 already. One of the most commonly opted methods is preparing Online. Among all the online Coaching's available in India for GATE 2024, one of the finest is Nimbus Learning online platform powered by Engineers Academy which has proven effective in helping students throughout their preparation and consistently producing top rankers in recent years.

Nimbus Learning has the most organized course curriculum which helps students in completing the syllabus in a given time frame.   

Nimbus provides the LIVE as well as recorded classes for GATE 2024 syllabus for civil, Mechanical, Electrical, Computer Science Engineering, IT Engineering, Electronics & Communication Engineering.

Nimbus learning platform powered by Engineers Academy uses smart teaching methodology explaining each and every topic using animations and graphics which helps students to understand every concept very smoothly. It also helps students in overcoming the fear of ‘difficult concepts’.

Students attending the LIVE Classes can interact with the faculties which help in easy understanding of the concepts. Also, multiple doubt solving platforms are also available after the LIVE classes which help students stay connected with the faculties. LIVE Class students also get the PDF of LIVE Classes which can be used for revision and making short notes.

Students enrolled in LIVE Classes of GATE 2024 batch, will also get FREE Test Series and quizzes which helps students in revising as well as assessing their knowledge and identifying their weak points.

Students learning from the LIVE Online Classes for GATE 2024 from Nimbus Learning platform will get access to online lectures as well as Test Series till 28 February 2024. If students want the extension of the course, then it can also be done with very low nominal fees.

Gate Online Courses

Nimbus learning platform not only provides a very detailed GATE Online Course, it also helps students to clear their doubts during their whole journey of online preparation for GATE 2024. One of the specialties of Nimbus Learning Platform is that the students can visit the any of the offline centres of Engineers Academy to clear their doubts with the subject faculties. Through this, students can learn concepts online, practice questions at home and if facing difficulty, they can clear their doubts offline by visiting the Offline Centres. With this, no stone is left unturned for dedicated students to help them achieve their dream of good score in GATE 2024 Exam.

Best Gate Preparation Online

Among all the coaching options present for GATE 2024, the best GATE preparation can be done online with Nimbus Learning platform as it not only helps students in clearing the basics with their highly dedicated faculty, it also helps with practicing lots of questions having high probability of coming in exams. With the Online Course for GATE 2024, students also get online practice batch where hundreds of questions are practiced which helps in getting an in-depth understanding of the concepts studied in theory LIVE Classes. With so much features and highly affordable process, Nimbus Learning online platform surely offers the best online Coaching for GATE 2024 Exam.

GATE - IES PSU COACHING CLASS SCHEDULE FOR January 16th, 2023

GATE – IES PSU COACHING CLASS SCHEDULE FOR January 16th, 2023

GATE & PSU Chemcal Engineering (New Crash Course Batch) Off GATE & PSU Chemical Engineering (All Regular Batch)  Off GATE & PSU Chemical Engineering (All Weekend Batch)  Off GATE – PSU – IES Mechanical Engineering Batch (New Batch)  Off GATE – PSU – IES Electronics and Communication Engineering Batch Completed GATE -PSU – IES Electrical Engineering Batch Off GATE – PSU- IES…

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Minimalistic Designed Projects with Flats in Bengaluru

Natura Daintree Shriram Liberty Square Jai Gardenia

Bangalore is a cosmopolitan capital city of Karnataka. It is widely regarded as the ‘Silicon Valley of India’ for its largest contribution to its IT exports in India. The balanced amalgamation of nature and cutting-edge engineering of concrete establishments with a dash of minimalism has crowned the city for its well-planned development. Its pleasant climatic conditions evoke a sense of being in a Garden, which is also why it is known as the ‘Garden City of India’. If you’ve dreamt to see yourself in a beautiful house, surrounded by nature’s beauty and doorstep convenience, check out the below projects in Bangalore, which are inspired by the minimalistic aesthetics of the city.

Residential Projects

Located at Burudhukunte Road in Volagerekallahalli, Natura Daintree is a residential project by BSR Project. This residential project offers a luxurious lifestyle backed by the timeless classic and pro-sustainable architecture of spacious villas, flanked by 10+ modern amenities. It is situated in one of the prime suburbs of Bangalore paired with the propinquity of daily amenities and means of accessibility. Natura Daintree has 3 BHK homes in Bangalore.

Located at Glass Factory Layout in Electronic City, Shriram Liberty Square is a residential project by Shriram Properties. This residential project offers a beautifully laid out gated community embodied with smart-sized homes and 5+ modern amenities. It is located in one of the most prestigious areas of Bangalore strategically coupled with residential and commercial zones. Shriram Liberty Square comprises a configuration of a 2 BHK flat in Bangalore.

Located at Kodigehalli in Krishnarajapura, Jai Gardenia is a residential project by Jai Constructions. This residential project offers gracefully designed spacious adobes with the best-in-class delineation of 12+ modern amenities. It is positioned in one of the finest residential locations in Bangalore set with an advantageous infrastructure of connectivity and external amenities. Jai Gardenia with a 2 and a 3 BHK property in Bangalore starting from Rs. 61.97 Lacs.

Top Private Engineering Colleges in Delhi – Admissions and Ranking

According to a survey, the majority of young people in India have engineering on their bucket list. Many top engineering colleges in Delhi NCR have erupted in the last couple of decades to give students the technical education they need to realize their aspirations of becoming engineers. Being the capital city of India surrounded by metropolitan commercial regions like Noida and Gurgaon, engineering colleges in Delhi is the perfect destination for engineering aspirants from all around India and world.

“Which private engineering colleges in Delhi are the best” is a very commonly asked question among engineers that this article will try to address. Various attributes pertaining to the B. Tech colleges in Delhi and admission process will also be covered.

Specializations and Eligibility for Private Engineering Colleges in Delhi

Engineering refers to the process of applying the principles of science, math, and technology to manage and innovate the production process, machinery, structures, and tools. It is the most well-known graduation program among Indian youth because of the numerous career prospects and employment security it offers in a variety of technological sectors.

Students can enroll in engineering colleges in Delhi immediately upon the completion of their 12th grade schooling from science stream or if students possess polytechnic diploma in the similar field of study. However, many top engineering colleges in Delhi also requires students to clear engineering entrance exams for admission. The most popular entrance exam for engineering in India in JEE Main and JEE Advance.

B.Tech engineering is the most popular option. Engineering can be studied in a number of specializations that are created to meet the technical requirements of different sectors.

Following is a list of the top B. Tech specializations:

Mechanical Engineering

Civil Engineering

Computer Science & Engineering

Electrical Engineering

Electronics and Communication Engineering

Tech in Artificial Intelligence and Machine Learning

Tech in Artificial Intelligence and Data Science

Tech in Internet of Things

Chemical Engineering

List of Government Engineering Colleges in Delhi

In order to give students the best shot of pursuing a career in engineering, there are 49 Government owned engineering colleges in Delhi and 32 private engineering colleges in Delhi. The candidates can choose from a variety of full-time, part-time, online, and distance learning engineering courses offered by these universities and colleges. The majority of these colleges and Universities are affiliated by Central authorities like UGC, NAAC, AICTE, etc. Most of them require students to go through JEE Main, GATE, IPU CET entrance exams for admission. Apart from this, there are many other colleges in DELHI NCR that offer world-class education in engineering without any need for entrance exams such as KCC Institute of Technology and Management.

These universities and colleges include

Indian Institute of Technology Delhi

Jamia Milia Islamia

Delhi Technological University

Guru Gobind Singh Indraprastha University GGSIPU

Netaji Subhas University of Technology

Indraprastha Institute of Information Technology

Indira Gandhi Delhi Technical Institute for Women

AIACTR Delhi – Ambedkar Institute of Advanced Communication Technologies and Research

NIT Delhi – National Institute of Technology

IGDTUW Delhi – Indira Gandhi Delhi Technical University for Women

GB Pant Government Engineering College, Delhi

Jamia Hamdard, New Delhi

MSIT Delhi – Maharaja Surajmal Institute of Technology

Bharati Vidyapeeth’s College of Engineering, Delhi

Bhagwan Parshuram Institute of Technology, Delhi

Criteria for Admission to Private Engineering Colleges in Delhi

Engineering programs are available at the UG, PG, Diploma, and PhD levels. Depending on the course and branch the candidate chooses, there are different eligibility requirements.

Here, we’ve outlined the fundamental requirements for admission to several engineering colleges in Delhi for undergraduate, graduate, and diploma programs. So let’s look at this:

Tech admission: Candidates for the B. Tech degree must have completed their Class 12 education in Physics, Chemistry, and Mathematics from an accredited board. A minimum aggregate score of 60 percent was also required.

Tech Lateral Entry: Candidates for the B. Tech Lateral Entry program must have earned a three-year Diploma from a state government’s Board of Technical Examinations with a minimum cumulative grade point average of 45 percent or equivalent.

Tech: Candidates who have earned a valid GATE score and a BE/B. Tech degree are eligible for the ME/M. Tech degree program.

Diploma: Candidates must have obtained at least a 35 percent grade in science and math on their Class 10 or equivalent exam.

D. Candidates must have earned a B. Tech/M. Tech or similar degree with a minimum cumulative GPA of 55 percent and a minimum CPI of 5.5 in the relevant streams.

Top ranked private engineering colleges in Delhi also consider the scores of national and state level entrance exams, including JEE Main, KCET, TS EAMCET, TNEA, MHT CET, JEE Advanced, WBJEE, etc.

Many top private engineering colleges in Delhi conduct their own entrance exams to admit students in various engineering specializations after proper counseling.

Top Engineering Colleges in Delhi for Placements  

One of the most crucial considerations for candidates pursuing higher education is placement, especially for those attempting to get into B.Tech colleges in Delhi. For both undergraduate and graduate programs, placement data for top engineering colleges in Delhi is shown in the table below.

NIRF Ranking of Engineering colleges in Delhi

Top Engineering Colleges in Delhi (Fees-wise)

For the purpose of calculating the finances of their education, candidates should be aware of the program’s cost structure. The fee schedule is listed here, and applicants who intend to enroll in one of the top engineering colleges in Delhi may discover it and submit their applications accordingly.

Entrance Exams

Entrance exams are mandatory to determine admission in top engineering colleges in Delhi. In addition to university-level admission exams, there are national level entrance exams. Candidates can find the examinations used to determine admission top engineering colleges here.

JEE Main: For admission to prestigious institutions like IIIT, NITs, and GFTIs, the National Testing Agency administers the Joint Entrance Examination (JEE) Main. For admission to B. Tech programs, several additional institutions accept JEE Main marks.

JEE Advance: One of the Indian Institutes of Technology (IITs) administers the JEE Advanced exam to candidates seeking admission to IITs. Those who score higher in JEE Main are eligible to take the JEE Advanced exam.

IPU CET: For the purpose of admitting students to various UG and PG programs, GGS Indraprastha University administers the IPU Common Entrance Test (CET). Along with M. Tech programs, admission to B. Tech biotechnology courses is handled by IPU CET.

GATE: For admission to various PG programs at IITs and other prestigious institutions, the Graduate Aptitude Test of Engineering, or GATE, is administered by one of the Indian Institutes of Technology.

Conclusion

I have listed the top private engineering colleges in Delhi that have been in operation for many years and provide candidates with the highest caliber education. Each of the aforementioned colleges is authorized by the UGC and AICTE to offer technical courses. I hope this blog will help you find the answers to all of your questions related to B. Tech courses and engineering colleges in Delhi.

FAQs

Q1. WHICH DELHI COLLEGE OFFERS THE BEST ENGINEERING PROGRAMS?

The Indian Institute of Technology, Delhi is the best engineering college in Delhi and holds the top-two spot in the NIRF rankings.

Q2. WHAT IS THE TOTAL NUMBER OF ENGINEERING COLLEGES IN DELHI?

There are 81 engineering colleges in Delhi offering a range of degrees from the diploma to PhD levels, according to the list of engineering colleges in Delhi.

Q3. WHICH DELHI ENGINEERING INSTITUTION IS THE MOST AFFORDABLE?

According to a list of engineering colleges in Delhi, Jamia Millia Islamia is the city’s most cheap institution.

Q4. HOW MUCH DOES IIT DELHI COST?

The fee structure for engineering colleges in Delhi reveals that B. Tech at IIT Delhi costs around Rs 8.39 lakh, however, M. Tech fee is Rs 2.6 lakh.

Fulfill Your Career Dreams With High Quality Technical Education: RCET, Top Engineering Colleges In Kanyakumari District

Rohini College of Engineering and Technology (RCET), Best Engineering College in Kanyakumari district, is located at Palkulam near Anjugramam junction in Kanyakumari, the southernmost town in India. RCET is about 5 kms from the Kanyakumari railway station and 14 kms from Nagercoil junction. RCET is approved by All India Council for Technical Education (AICTE), New Delhi & affiliated to ANNA University, Chennai since 2012. RCET takes efforts to bridge the gap between candidate skills and industry need, by producing competent resources equipped with personality development and campus recruitment to help students thrive in their career.

Contact Details:

Rohini College of Engineering and Technology Near Anjugramam JN, Kanyakumari Main Road, Palkulam, K.K.Dist,Tamil Nadu, PinCode - 629401. Mobile: +91-9894298888 Email: [email protected] Website: www.rcet.org.in

Rohini College of Engineering & Technology, top 10 engineering colleges in Kanyakumari district, offers engineering and management courses at UG, PG and doctoral levels. The courses offered are MBA, BE, B. Tech, ME and PhD. A number of specializations are offered in BE, namely, civil, computer science, electrical & electronics, electronics & communication, mechanical, biomedical whereas B. Tech is offered in Agriculture. Specializations offered under M. Tech is Communication system, computer science, construction engineering and management, thermal engineering, etc. MBA is offered in operations, marketing, financial, systems, human resources, logistics & supply, infrastructure and real estate management.

The main feature of the college comprises world class infrastructure with experienced and talented faculties, excellent pass percentage, good placement records and society-oriented products/projects developed by the students. RCET's training and placement programmes are carried out according to a rigorous schedule prepared by the highly qualified staff. The placement cell has been working tirelessly for the benefit of students in order to make a difference in the corporate sector. It also provides services such as counselling and training for those pursuing higher education and research careers. RCET, Top Engineering College in Kanyakumari district, not assists students to get placement offers but also guides them to prepare for competitive exams such as GATE/UPSC/TNPSC/ Banking exams/GRE & TOEFL/BEC//IELTS. Some of the leading recruiters are Hexaware, TCS, Infosys, Tech Mahindra, Siemens, TVS, ZOHO, Justdial, etc.