Indo Global Studies
Rochester Institute Of Technology
1 Lomb Memorial Dr, Rochester, NY 14623, United States

The Rochester Institute of Technology is a private research university in Rochester, New York. It was founded in 1829. It is one of only two institutes of technology in New York state, the other being the New York Institute of Technology.

Bachelor of Science in Microelectronic Engineering

  • Microelectronic engineering is an RIT New Economy Major. This collection of degree programs is forward-thinking and future-forming, and helps prepare you to excel in the multidisciplinary nature of our modern, dynamic economy.
  • Exceptional employment outcomes (100%) due to semiconductor industry growth and the prevalence of integrated circuits embedded in everything from gaming systems, computing, automobiles, aviation, data science, and encryption to autonomous technologies, advanced computing technologies, and artificial intelligence.
  • Semiconductor industry leaders are top employers of microelectronic engineering grads, including Onsemi, Intel, Micron, Global Foundries, Texas Instruments, Northrop Grumman, and Cree.
  • Hands-on learning in an exclusive, state-of-the-art micro- and nano-fabrication facility with equipment rarely found in a university setting.
  • A world leader in the education of semiconductor process engineers and the only accredited BS degree of its kind in the U.S.
  • Advanced professional electives are offered in high-demand, high-impact areas such as micro-electro-mechanical systems and sensors, photovoltaics, advanced semiconductor devices, and photonics.
  • Personalized, high-touch mentoring by dedicated faculty members who know their students and offer individual course, career, and professional advising.

Semiconductor and photonic devices impact virtually every aspect of human life, from communication, entertainment, and transportation, to health, solid-state lighting, and solar cells. There is an ever increasing need for talented engineers that not only understand the design of these amazing devices but can direct and optimize their fabrication. Microelectronic engineering is at the cutting edge of science education. Integrated nanoelectronic and microelectronic circuits and sensors drive our global economy, increase our productivity, and help improve our quality of life. RIT’s microelectronic engineering degree is the only accredited bachelor of science degree of its kind in the U.S. and is considered a world leader in the education of semiconductor process engineers.

RIT's Microelectronic Engineering Degree

The worldwide semiconductor industry growing at an astounding pace. RIT’s microelectronic engineering degree offers you an unparalleled opportunity to prepare for professional challenges and success in a leading, high-growth area of engineering.

Your curriculum begins with introductory courses in microelectronic engineering and nanolithography (nanopatterning) for integrated circuits. In the first year, you’ll build a solid foundation in mathematics, physics, and chemistry, and courses will cover important issues such as technology development, ethics, societal impact, and global perspectives. The fundamentals of statistics and their application in the design of experiments, semiconductor device physics and operation, and integrated circuit technology are covered in the second year.

The third year comprises the electrical engineering course work necessary for understanding semiconductor devices and integrated circuits. The fourth and fifth years are dedicated to optics, nanolithography systems and materials, semiconductor processing, professional electives, and a two-course capstone senior project.

Modern, Hands-On Labs: You will gain hands-on experience in the design, fabrication, and testing of the integrated circuits (microchips), the vital component in almost every advanced electronic product manufactured today. RIT's undergraduate microelectronics engineering laboratories, which include modern integrated circuit fabrication (clean room) and test facilities, are among the best in the nation. At present, the major is supported by a 150mm complementary metal oxide semiconductor line equipped with diffusion; ion implantation, plasma, and chemical vapor deposition (CVD) processes; chemical mechanical planarization; and device design, modeling, and test laboratories. The microlithography facilities include a ASML i-line and GCA g-line wafer steppers, and both optical and electron beam mask writers.

Professional Electives: A choice of professional electives and the senior project offer you an opportunity to build a concentration in areas such as advanced CMOS, VLSI chip design, analog circuit design, electronic materials science, microelectromechanical systems (MEMS), or nanotechnology. Free elective courses allow you to develop an expertise in a related discipline.

Senior Capstone Project: In the capstone course, you’ll propose and conduct individual research/design projects and present your work at the Annual Microelectronic Engineering Conference, which is organized by the department of electrical and microelectronic engineering and is well-attended by industrial representatives.

World-Class Faculty: Faculty committed to quality engineering educations, state-of-the-art laboratories, strong industrial support, co-op opportunities with national companies, and smaller class sizes make this one of the most value-added programs in the nation.

Learn more about the Student Learning Outcomes and Program Educational Objectives for the microelectronic engineering BS degree.

Semiconductor Jobs

One of the great challenges in integrated circuit manufacturing is the need to draw on scientific principles and engineering developments from such an extraordinarily wide range of disciplines. The design of microelectronic circuits requires a sound knowledge of electronics and circuit analysis. Optical lithography tools, which print microscopic patterns on wafers, represent one of the most advanced applications of the principles of Fourier optics. Plasma etching involves some of the most complex chemistry used in manufacturing today. Ion implantation draws upon understanding from research in high-energy physics. Thin films on semiconductor surfaces exhibit complex mechanical and electrical behavior that stretches our understanding of basic materials properties.

Scientists and engineers who work in the semiconductor field need a broad understanding of and the ability to seek out, integrate, and use ideas from many disciplines. The major provides the broad interdisciplinary background in electrical and computer engineering, solid-state electronics, physics, chemistry, materials science, optics, and applied math and statistics necessary for success in the semiconductor industry.

Engineering vs. Engineering Technology

Two dynamic areas of study, both with outstanding outcomes rates. Which do you choose?

What’s the difference between engineering and engineering technology? It’s a question we’re asked all the time. While there are subtle differences in the course work between the two, choosing a major in engineering vs. engineering technology is more about identifying what you like to do and how you like to do it.

https://www.rit.edu/study/microelectronic-engineering-bs 

Students whose native language is not English must submit results from the Test of English as a Foreign Language (TOEFL), PTE Academic or International English Language Testing System (IELTS). Students may self-report their scores in the following ways:

  • On their application for admission
  • Via email at [email protected]
  • From your school/college counselor via mail or email

Admitted students will be required to submit their official scores once they choose to enroll at RIT.

All admitted students scoring in a conditional admission range will be tested by RIT's English Language Center upon arrival at RIT. The results of this testing will determine if English instruction for non-native speakers will be required before a student may begin academic courses. RIT also offers conditional admission where students can integrate English Language studies with their academic program.

If your scores fall below the conditional admission range, you may apply for English Language Center admission directly.

TOEFL - 79; PET - 58; IELTS - 6.5

If you have completed your most recent studies outside of the US and have demonstrated adequate resources to cover the entire cost of attending RIT, an I-20 will be sent with your acceptance letter.

Students who are awarded merit or need-based scholarships may use scholarships awarded as part of the documentation of support. The total support, which may include the merit or need-based scholarships if applicable, must total at least $70,000 USD in order for RIT to issue the I-20 or DS-2019 forms necessary to apply for a student visa.

If you will begin your studies at RIT within 5 months of attending a US secondary school, college or university, you will be asked to complete a SEVIS Transfer form with the assistance of your International Counselor.

Once we receive the SEVIS Transfer form, an acceptable Declaration of Financial Support and bank documentation, and you have sent RIT a non-refundable $500 enrollment deposit, your SEVIS record will be transferred from your previous school to RIT and an I-20 will be sent to you.

You may submit your fall application starting on August 1. Spring Semester or Summer Term applications are reviewed on a rolling basis.

If RIT is your first choice university, there are many benefits to applying with one of our Friendly Early Decision plans. Learn more about Friendly Early Decision Benefits

Timeline                                                                                                                            Early Decision I     Early Decision II      Regular Decision
Application Deadline                                                                                    November 1st          January 1st          January 15th
Early Decision Financial Aid Application Recommended Deadline           November 1st          January 1st          Not Applicable
Recommended FAFSA Submission Recommended Deadline                   March 1st                 March 1st            January 15th
Decision Notification                                                                                   Mid-December         Mid-January       Mid-March
$500 Deposit Deadline - Pay Deposit                                                       January 15th             February 15th      May 1st
Applications received after the deadline will be reviewed on a space-available basis.

Deadlines may vary for each program check the below link to check the deadlines:

https://www.rit.edu/admissions/first-year-application 

Please send student details, documents and online application login credentials to [email protected] without submitting the application.

IGS team will submit the application through channel partner.

 

 

 

 

 

 

 

 

 

 

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