Our Graduate Certificate in Quantum Computing program aims to provide a comprehensive education in the fundamentals and practical applications of quantum computing. The blend of theoretical instruction and hands-on experience ensures a strong foundation, enabling graduates to tackle real-world problems and contribute to the development of quantum computing systems.

  • Program Purpose
  • Educational Objectives
  • Program Learning Outcomes
  • Admissions Requirement
  • Graduation Requirement
  • Curriculum Overview
  • Tuition & Fees
  • Career opportunities
  • Testimonials from alumni

Program Purpose

The Graduate Certificate in Quantum Computing is designed for professionals seeking to enhance their knowledge and skills in the growing field of quantum computing. The program provides a flexible and accessible path for continuing education, with a focus on foundational knowledge as well as practical applications of quantum computing in industry.

Upon completion of the program, students will have a solid understanding of the basic principles and applications of quantum computing, and be well-prepared for careers in a wide range of industries, as well as for further studies in advanced programs in quantum computing and related fields.

Educational Objectives

The Graduate Certificate in Quantum Computing program aims to help students to:

  1. Understand the mathematical principles of quantum mechanics, including linear algebra and computational complexity theory.
  2. Understand the principles of quantum algorithms and their implementation on quantum computing platforms.
  3. Work on practical applications of quantum computing and understand their advantages and limitations.
  4. Simulate quantum computers using languages such as Qiskit, Cirq, and Braket.

Program Learning Outcomes

After completing this program, students should:

  1. Understand the fundamental of mathematical principles of quantum computing, including linear algebra and computational complexity theory.
  2. Understand the fundamental principles of quantum algorithms and their implementation on quantum computing platforms.
  3. Work on practical applications of quantum computing and understand their advantages and limitations.
  4. Program and simulate quantum computers using languages such as Qiskit, Cirq, and Braket.

Admissions Requirement

  • Applicants are required to have completed undergraduate courses in related fields such as physics, mathematics, computer science, or engineering.
  • Applicants are required to have a minimum undergraduate GPA of 2.5 to be considered for admission.

Graduation Requirement

Candidates are required to pass all courses with a grade of B minus or higher to complete the certificate.