Quantum Computing (QC) will soon have a substantial impact on industry -- from healthcare and pharmaceuticals to manufacturing and finance. It will not only allow companies to do things faster than traditional computing, but entirely different.
Pairing MIT’s leading experts in the field with IBM’s cutting-edge quantum computing tools, services, and hands-on materials for learners, this 4-course online certificate program focuses on the core principles, business implications, and implementation of quantum computing. Learners will get hands-on experience on potential applications of Quantum Computing and earn a Professional Certificate in Quantum Computing from MIT.
The four courses in the certificate program are:
- Introduction to Quantum Computing and Its Applications
- Quantum Computing Algorithms for Cybersecurity, Chemistry, and Optimization
- Practical Realities of Quantum Computation and Quantum Communication
- Requirements for Large-Scale Universal Quantum Computation
Learners may enroll in each of the four courses independently and receive a certificate of completion and CEUs. However, all 4 courses are required in order to get the Professional Certificate in Quantum Computing and purchasing the program saves over 40% off the cost of the four courses individually.
Join the Applications of Quantum Computing program team for a free webinar on March 28, 2018 at 12:00 ET. Dr. William D. Oliver will walk you through the details of the program and answer your questions live. Register today.
Get exclusive access to IBM Q
Experience the MIT mens et manus philosophy and turn quantum computing knowledge into action in the program’s four Lab Practicum components. The Applications of Quantum Computing program is designed to transform learners into quantum practitioners by offering a robust curriculum and experience using the most advanced quantum computing tools available through the cloud today. These courses will utilize the IBM Q Experience, a platform for experimenting with and advancing quantum computing, and QISKit, an open-source quantum software developer kit.
MIT’s quantum computing curriculum is created in collaboration with IBM Q, an industry-first initiative to build commercially available universal quantum computers for business and science, and the MIT-IBM Watson AI Lab. The MIT-IBM Watson AI Lab is focused on fundamental artificial intelligence (AI) research with the goal of propelling scientific breakthroughs that unlock the potential of AI. A key initiative of the lab is the intersection of quantum computing and machine learning. MIT is solely responsible for all course content decisions.
What You'll Learn
- Understand the fundamental principles of quantum computing and how it differs from classical computation
- Articulate business applications for quantum computing
- Understand key technology requirements for quantum computers to be able to run properly
- Familiarize yourself with engineering challenges faced by developers of quantum computers
- Gain knowledge of performance gains enabled by quantum algorithms for cybersecurity, chemistry, and optimization
- Learn and practice the engineering requirements for implementing quantum vs. classical algorithms
- Evaluate the practical tradeoffs between trapped ion and superconducting qubit implementations of quantum computers
- Assess the typical coherence times and quantum gate counts achievable with leading quantum computer implementations
- Analyze technology options for realizing quantum computers and quantum communication systems using atoms, photons, and superconductors
- Describe the conceptual role of fault-tolerance in realizing large-scale quantum and classical computation
- Learn the scientific basis for families of quantum error correction codes.
Want to purchase this course for a group?
You can purchase enrollment codes for this course to distribute to your teamPurchase for a Group
Isaac Chuang Professor of Physics, Professor of Electrical Engineering, Senior Associate Dean of Digital Learning at MIT
Isaac Chuang Professor of Physics, Professor of Electrical Engineering, Senior Associate Dean of Digital Learning at MIT at MIT
William Oliver Professor of the Practice, Physics, Laboratory Fellow, Lincoln Laboratory, Associate Director, Research Laboratory of Electronics at MIT
William Oliver Professor of the Practice, Physics, Laboratory Fellow, Lincoln Laboratory, Associate Director, Research Laboratory of Electronics at MIT at MIT
Aram Harrow Associate Professor of Physics at MIT
Aram Harrow Associate Professor of Physics at MIT at MIT
Peter Shor Morss Professor of Applied Mathematics, Applied Mathematics Committee Chair, Quantum Computation, Quantum Information at MIT
Peter Shor Morss Professor of Applied Mathematics, Applied Mathematics Committee Chair, Quantum Computation, Quantum Information at MIT at MIT
WHY MIT XPRO?
It’s professional development – the MIT way.
MIT xPRO provides professional development opportunities to a global audience via online courses and programs. Our goal is to help accelerate the pace of innovation through courses that solve industry problems. Taught by MIT faculty and leveraging the latest learning technologies, MIT xPRO courses and programs are available to individuals, teams, or as a component of corporate development initiatives.
MIT xPRO learners are not only scientists, engineers, technicians, managers, and consultants – they are change agents. They take the initiative, push boundaries, and define the future.
WHO SHOULD PARTICIPATE
This program is intended for quantum computing engineers, scientists, and researchers; leaders of quantum computing teams; government and business executives; and anyone who needs to get a thorough understanding of quantum computing real-world applications.
COURSES IN THE PROFESSIONAL CERTIFICATE
Learners may enroll in each of the four courses independently and receive a certificate of completion and CEUs per course. However, all 4 courses are required in order to get the Professional Certificate in Quantum Computing
Introduction to Quantum Computing and its Applications Begins April 9, 2018
Requirements for Large-Scale Universal Quantum Computation Begins September 10, 2018
What do I do if I have questions about this program?
If you have any questions about this program or the individual courses that comprise this program, please email: MITxPRO@mit.edu.
What do I need to do to register for this program?
Go to https://mitxpro.mit.edu/, click on the program “Applications of Quantum Computing.” Then click “Enroll.” You may be prompted to first register for a MIT xPRO account if you do not have one already. Complete this process, and then continue with the checkout process and pay for the program. After you complete registration, you will receive a purchase receipt and confirmation/instructions via email.
How do I register a group of participants?
Group registrations of 10 or more may qualify for an additional discount. Please send an email to MITxPRO@mit.edu for more information. There are two ways to register multiple individuals at once. Once the program is added to your cart, you can select the number of seats you would like to purchase. You can then pay using a valid credit card. For a group of 10 or more individuals, you can pay via invoice. To be invoiced, please email MITxPRO@mit.edu with the number of individuals in your group you want to register. Please note that our payment terms are net zero, and all invoices must be paid prior to the course start date. Failure to remit payment before the course begins may result in removal from the program. No extensions or exceptions will be granted.
What is the registration deadline?
Current Run: April 9, 2018 – October 10, 2018 (16 weeks of content across six months’ time). Program registrations must be completed by April 13, 2018. Course 1 (Introduction to Quantum Computing and Its Applications) registration deadline is April 13, 2018. Course 2 (Quantum Computing Algorithms for Cybersecurity, Chemistry, and Optimization) registration deadline is June 15, 2018. Course 3 (Practical Realities of Quantum Computation and Quantum Communication) registration deadline is July 20, 2018. Course 4 (Requirements for Large-Scale Universal Quantum Computation) registration deadline is September 14, 2018
For group sales, purchases can take place up until April 16, 2018. Please note that once registration has closed, no late registrations or cancellations will be granted.
Who cannot register for this program?
U.S. sanctions and export control regulations prevent us from offering this course to learners in or ordinarily residing in the Crimean region of Ukraine, Cuba, Iran, and North Korea.
How should I pay?
Individual participants must complete registration and pay online with a valid credit card at the time of registration. MIT xPRO accepts globally recognized major credit or debit cards that have a Visa, MasterCard, Discover, American Express or Diner’s Club logo. Invoices will not be generated for individuals, or for groups of less than 10 people. However, all participants will receive a payment receipt. Payment must be received in full; payment plans are not available.
When will I get access to the Program site?
Instructions for accessing the course site will be sent to all paid registrants via email prior to the program start date. If you have not received these instructions, visit your account dashboard to login and begin the course on the advertised start date.
I need to cancel my registration. Are there any fees?
Cancellation requests must be submitted to MITxPRO@mit.edu. The drop deadline for Program Refund: April 13, 2018. Cancellation requests received after drop deadline are not be eligible for a refund. To submit your request, please include your full name and order number in your email request. Refunds will be credited to the credit card used when you registered and may take up to two billing cycles to process.
Can I transfer/defer my registration for another session or course?
Admission and fees paid cannot be deferred to a subsequent session; however, you may cancel your registration and reapply at a later date.
Can someone else attend in my place?
We cannot accommodate any substitution requests at this time. Please review the time commitment section and course schedule.
How do I know if this program is right for me?
Carefully review the program description page, which includes a description of program content, objectives, and target audience, and any required prerequisites.
Are there any prerequisites to apply for this program?
Prior knowledge of quantum mechanics is helpful but not required.
How long is the program?
The program starts on April 9, 2018 and concludes on October 10, 2018 (16 weeks of content across six months’ time). Each course in the program runs for four weeks. Course 1 (Introduction to Quantum Computing and its Applications) runs April 9, 2018 - May 7, 2018. Course 2 (Quantum Computing Algorithms for Cybersecurity, Chemistry, and Optimization) runs June 11, 2018 - July 11, 2018. Course 3 (Practical Realities of Quantum Computation and Quantum Communication) runs July 16, 2018 - August 13, 2018. Course 4 (Requirements for Large-Scale Universal Quantum Computation) runs September 10, 2018 - October 10, 2018.
How many hours per week will I have class or homework?
The time commitment per week is between three and five hours of work, between viewing videos, reading content, completing practice activities, and working on application/project assignments. The course is self-paced in the sense that learners can go through the content on their own schedule. There are, however, assignments that are date-specific because they require coordination of student submissions. There is also a message board for our learners to use, and discussion is encouraged. The professors will not be directly responding to questions, but there is a team of TAs to moderate questions.
How long will the program material be available online?
Program materials for each course will be available to registered and paid participants for 90 days after the end of Course 4: January 9, 2019. The course materials are not downloadable, but you are welcome to take your own notes.
Will I receive an MIT certificate?
Participants who successfully complete the program and all required activities will receive a Professional Certificate from MIT. Additionally, a Certificate of Completion will be awarded for each course successfully completed. Letter grades are not awarded for this program. All four courses that comprise the program are pass/fail.
Will I receive MIT credits?
This course does not render MIT credit. MIT offers non-credit/non-degree professional programs for a global audience. Participants may not imply or state in any manner, written or oral, that MIT or MIT xPRO is granting academic credit for enrollment in this professional course. None of our digital courses or programs award academic credit or degrees. Letter grades are not awarded for this course.
Will I earn Continuing Education Units (CEUs)?
Course participants who successfully complete the four courses, and thus the program, are eligible to receive 8.5 Continuing Education Units (CEUs) from MIT xPRO. CEUs are a nationally recognized means of recording non-credit/non-degree study. They are accepted by many employers, licensing agencies, and professional associations as evidence of a participant’s serious commitment to the development of a professional competence. CEUs are based on hours of instruction. For example: One CEU = 10 hours of instruction. CEUs may not be applied toward any MIT undergraduate or graduate level course.
After I complete this course, will I be an MIT alum?
Learners who successfully complete a professional education course are considered MIT xPRO Alumni. Only those who complete an undergraduate or graduate degree are considered MIT alumni.
Are video captions available?
Each video for this course has been transcribed and the text can be found on the right side of the video when the captions function is turned on. Synchronized transcripts allow students to follow along with the video and navigate to a specific section of the video by clicking the transcript text. Students can use transcripts of media-based learning materials for study and review.
What are the technical requirements to participate in this course?
The ability to download and edit Microsoft PowerPoint files and read PDFs is also necessary. Access to our courses requires an Internet connection, as videos are only available via online streaming, and cannot be downloaded for offline viewing. Please take note of your company's restrictions for viewing content and/or firewall settings. Our courseware works best with current versions of Google Chrome, Firefox, or Safari, or with Internet Explorer version 11 and above. For the best possible experience, we recommend switching to an up-to-date version of Chrome or Firefox. We are unable to fully support access with mobile devices at this time. While many components of your courses will function on a mobile device, some may not be.
Photo courtesy of Connie Zhou for IBM.