The quantum computer may fundamentally alter how we think about information and have significant financial implications. Here we will guide you and discuss all the details of the offered by MIT xPRO quantum computing courses.
MIT xPRO quantum computing courses.
What is Quantum Computing?
In order to solve problems that are too complicated for conventional computers and even supercomputers, a quantum computer uses some of the special capabilities of quantum physics. The goal of quantum computing is to create technology that benefits from the properties of matter and energy at the subatomic scale.
The principles of physics that govern individual atoms, electrons, and fundamental particles are referred to as “quantum” laws. The principles of physics are different from those we encounter in our daily lives at this minuscule scale.
Importance of quantum computing
Quantum computers operate at breakneck speeds. They are capable of calculations that would take today’s supercomputers decades or perhaps millennia to complete.
Experts frequently refer to this reality as quantum superiority. This was only a theory for a very long time. But in 2019, Google’s quantum computer prototype was able to complete the calculation and demonstrate the effectiveness of the quantum theory.
Things you will learn in MIT xPRO quantum computing courses
With this two-course program from MIT, learn the business and technical implications of the new computing frontier and how you can apply them to your organization.
After the quantum computing online course, you will be able to:
- Describe the differences between quantum and classical computation.
- Assess the business applications of quantum computation.
- Learn the engineering specifications for implementing quantum versus traditional algorithms.
- Establish the technical specifications needed for quantum computers to run quantum algorithms that are really large.
- Understand the mathematical description of quantum states and basic quantum operations.
- Discern potential performance gains of quantum vs. classical algorithms.
- Understand engineering challenges currently faced by developers of quantum computers.
- Discern the scientific limits of quantum algorithms for chemistry and optimization.
- Evaluate key technology requirements for quantum computers to be able to function properly.
This course is made for?
- Business, government, and technological leaders need to comprehend the practical and theoretical consequences of quantum computing.
- Any interested person with a working knowledge of vector and matrix multiplication, since the fundamental building block of quantum algorithms, is linear algebra.
- In the upcoming MIT xPRO two-course curriculum Quantum Computing Realities, more technical professionals, academics, and researchers can delve further into the real-world uses of quantum.
How you will learn the Quantum Computing online course MIT
- All of our MIT xPRO courses are delivered online only. To provide maximum flexibility in learners’ schedules, the video content of the courses is pre-recorded. This means that you can view the content and work on assignments any time of day or day of the week—you do not have to log on at specific times to view the course content. Connect with an international community of professionals while working on projects based in real-world examples.
- Practice processes and methods through simulations, assessments, case studies and tools, including the IBM Q experience.
- Bring your new skills to your organization, through examples from technical work environments and ample prompts for reflection.
There are no prerequisites to earn an MIT xPRO Quantum Computing Fundamentals program certificate, but a little preparation could help you get the most out of your coursework.
Reviewing these 3 free resources will definitely help you.
Brush up on Linear Alegebra. This MIT OpenCourseWare course highlights key applications in MIT Professor Strang’s textbook Introduction to Linear Algebra. Emphasis is given to topics like vector spaces, determinants, eigenvalues, similarity, and positive definite matrices.
Get a refresher on quantum physics. This MIT OpenCourseWare course covers the experimental basis of quantum physics. It introduces wave mechanics, and Schrödinger’s equation in a single dimension and in three dimensions.
Play with Qiskit. MIT xPRO’s online Quantum Fundamentals program does not require a background in Qiskit, but the program courses do cover this open-source software as part of the IBM Q Experience Models of quantum noise and quantum channels.
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Here are the Courses you will learn
Courses in this program
- Introduction to Quantum Computing (Course 1 of 2 in the Quantum Computing Fundamentals online program.)
- Quantum Algorithms for Cybersecurity, Chemistry, and Optimization(Course 2 of 2 in the Quantum Computing Fundamentals online program)
Duration of the course
4 weeks per course
Cost of the Course: $2,249
When the course will start?
Currently, admission is open for 5 dates. You can choose any one date and start enrolling.
1st date: January 23, 2023
2nd date: April 10, 2023
3rd date: September 25, 2023
4th date: January 22, 2024
5th date: April 8, 2024
What are the criteria for admission?
In general, the courses and programs do not have any explicit, mandatory admittance requirements. There is no need for a degree or general education training. All students should be able to commit to working on the course for 4-6 hours per week.
Will I receive MIT credits?
No, students who finish xPRO courses or programs won’t obtain MIT credits. For a global audience, MIT xPRO offers non-credit/non-degree professional development courses and activities. MIT xPRO courses and programmes are intended for professional development and do not award academic credit.
Participants in the programme who successfully complete one or more courses are qualified to acquire CEUs (CEUs). The number of CEUs awarded varies depending on the course; for more information, please see the support page for that course or program.
MIT quantum computing certificate
To earn a Professional Certificate and CEUs, you must complete the two courses in the program. For those who do not want to commit to the full program, courses can be taken on an individual basis for a certificate of completion and CEUs.
The time is now to start learning about MIT xPRO quantum computing courses. We hope that by using these online learning tools, you can move past the quantum hype and start resolving issues and fostering innovation within your company.