Introduction to Quantum Computing for Everyone at University of Chicago

With 80+ bit computers now in operation, quantum computing is getting closer to becoming a reality. The implications, underlying phenomena, and programming concepts that underpin quantum computing are intuitively introduced in this course.

The first part of the course explores several categories of computational issues that conventional computers struggle to handle. The fundamewmns air 1 mid jordan max aura 4 cheap nba jerseys nike ispa 270 custom triathlon jersey cruz azul jersey 2023 custom paintball jerseys nike air jordan 1 nike air max 90 futura nike air max 270 sale adidas yeezy boost 350 v2 dazzling blue air jordan 4 retro military black adidas yeezy boost 350 v2 mono ice castelli tutto nano jersey belletress calientental QIS principles that form the foundation of quantum computing are then introduced in an intelligible manner. Specific quantum processes are then introduced, but with a symbolic and mathematical illustration. To enable students to compute operation outcomes, a limited set of linear algebra procedures will be taught. Finally, we combine these separate processes to produce the first algorithm that exemplifies the performance benefit of these special operations.

A quick glimpse

Institution: University of Chicago

Subject: Computer Science

Level: Introductory

Prerequisites: Algebra I

Language: English

Video Transcript: English

What you’ll learn with this course

  • The many applications that quantum computing may be useful for
  • Fundamentals of quantum physics and how they relate to quantum computing
  • Solitary quantum processes, mathematical procedures to compute quantum operations
  • Depiction of multi-operation sequences, mathematical description of the quantum state

About the instructors

1. Diana Franklin

At the University of Chicago, Professor Franklin teaches computer science as a joint professor. In 1997 and 2002, accordingly, she earned her B.S. and Ph.D. in computer science from UC Davis.

2. Kate Smith

Kate is an IBM Postdoctoral Fellow at the Chicago Quantum Exchange at the University of Chicago. In 2014 and 2019, accordingly, she earned her B.S. and Ph.D. in Electrical Engineering from Southern Methodist University.

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