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Quantum Computer Systems Design II: Principles of Quantum Architecture

edX, Online
Length
4 weeks
Price
200 USD
Next course start
Inquire for more information See details
Delivery
Virtual Classroom
Length
4 weeks
Price
200 USD
Next course start
Inquire for more information See details
Delivery
Virtual Classroom
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Course description

Quantum Computer Systems Design II: Principles of Quantum Architecture

This quantum computing course explores the basic design principles of today's quantum computer systems. In this course, students will learn to work with the IBM Qiskit software tools to write simple programs in Python and execute them on cloud-accessible quantum hardware. Topics covered in this course include:

  • Introduction to systems research in quantum computing
  • Fundamental rules in quantum computing, Bloch Sphere, Feynman Path Sum
  • Sequential and parallel execution of quantum gates, EPR pair, no-cloning theorem, quantum teleportation
  • Medium-size algorithms for NISQ (near-term intermediate scale quantum) computers
  • Quantum processor microarchitecture: classical and quantum control
  • Quantum program compilation and qubit memory management

Keywords: quantum computing, computer science, linear algebra, compiler, circuit optimization, python, qiskit, quantum algorithms, quantum technology, superposition, entanglement, qubit technology, superconducting qubit, transmon qubit, ion-trap qubit, photonic qubit, real quantum computers

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  • Virtual Classroom
  • Online
  • English

Who should attend?

Prerequisites

  • Introduction to Quantum Computing for Everyone (Part 1 and Part 2)
  • Module I (Intro to Quantum Computation and Programming)

Training content

Intro to Quantum Computation and Programming

  • Lec 00 - Quantum Computing Systems – Current State-of-Play
  • Lec 01 - From bits to qubits
  • Lec 02 - QASM and logic gate decomposition
  • Lec 03 - Basic quantum programs

Principles of Quantum Architecture

  • Lec 04 - Program compilation and synthesis
  • Lec 05 - Program compilation and synthesis II
  • Lec 06 - Gate scheduling and parallelism
  • Lec 07 - Qubit mapping and memory management

Working with Noisy Systems

  • Lec 08 - NISQ algorithms
  • Lec 19 - Noisy quantum systems
  • Lec 10 - Noise-aware quantum compiling

Course delivery details

This course is offered through University of Chicago, a partner institute of EdX.

8-12 hours per week

Costs

  • Verified Track -$200
  • Audit Track - Free

Certification / Credits

What you'll learn

  • Understand design principles of full-stack quantum software design
  • Understand several examples of quantum system inefficiencies
  • Learn how to apply several classical software techniques to improve quantum hardware reliability and performance
  • Learn examples of how classical software techniques can be applied to make quantum systems more reliable and efficient
  • Learn how to think about the overall design of a quantum system and how the software and hardware work together
  • Develop unique skills to be more competitive in seeking a position in quantum software development

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