Principles of Superconducting Quantum Computers By Daniel D. Stancil & Gregory T. Byrd

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Superconducting Quantum Computers Release Date
Table of Content :
Conclusion: Superconducting Quantum Computers Download
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Principles of Superconducting Quantum Computers By Daniel D. Stancil & Gregory T. Byrd. With this study on quantum computer engineering, learn about the intersection of computer science, physics, and electrical and computer engineering.

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Principles of Superconducting Quantum Computers is a comprehensive and incisive study of the construction of quantum computing hardware and systems by a pair of eminent researchers. The book focuses on the technical themes of devices, circuits, control, and error correction, bridging the gaps between computer science, physics, and electrical and computer engineering.

The authors demonstrate key quantum computing concepts using data from real quantum computers. The text includes discussions of key ideas ranging from the physics of gates to quantum error correction techniques and questions and exercises at the end of each chapter to aid learning and memory.

The authors present fast implementations of traditional computations, and the book includes a solutions manual as well as demonstrations of many of the subjects covered.

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North Carolina State University’s Alcoa Distinguished Professor and Head of Electrical and Computer Engineering is Daniel D. Stancil, PhD. His scientific interests include spin waves, microwave and optical technologies and systems, in addition to quantum computers.

Professor and Associate Head of Electrical and Computer Engineering at North Carolina State University, Gregory T. Byrd, PhD His study focuses on the design and systems of conventional and quantum computers.

Superconducting Quantum Computers Release Date

Book Name:     Principles of Superconducting Quantum Computers By Daniel D. Stancil & Gregory T. Byrd
Publisher:Wiley; 1st edition 
Publishing Date(5 April 2022)
Language :English
ISBN :1119750725
Page384

Table of Content :

  • Bits and Qubits
  • Circuits in Space vs Circuits in Time
  • Superposition
  • No Cloning
  • Reversibility
  • Entanglement
  • Single-Qubit States
  • Measurement and the Born Rule
  • Unitary Operations and Single-Qubit Gates
  • Two-Qubit Gates
  • Two-Qubit States
  • Matrix Representation of Two-Qubit Gates
  • Controlled-NOT
  • Bell State
  • No Cloning, Revisited
  • Example: Deutsch’s Problem
  • Key Characteristics of Quantum Computing
  • Quantum Computing Systems

2 Physics of Single Qubit Gates

  • Requirements for a
  • Quantum Computer
  • Single Qubit Gates
  • Rotations
  • Two State Systems
  • Creating Rotations: Rabi Oscillations
  • Quantum State Tomography
  • Expectation Values and the Pauli Operators
  • Density Matrix 2.6 Exercises

3 Physics of Two Qubit Gates

  • VISWAP Gate
  • Coupled Tunable Qubits
  • Cross Resonance Scheme
  • Other Controlled Gates
  • The two-Qubit States and the Density Matrix
  • Many More Topics…

Conclusion: Superconducting Quantum Computers Download

Principles of Superconducting Quantum Computers is a comprehensive and incisive study of the construction of quantum computing hardware and systems by a pair of eminent researchers. The book focuses on the technical themes of devices, circuits, control, and error correction, bridging the gaps between computer science, physics, and electrical and computer engineering

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