Short description:

There is a lot of excitement around quantum computers that use superconducting qubits, which operate at extremely low temperatures since they are ultra-sensitive to noise. These quantum computers need a memory and control processor that can operate under cryogenic conditions. Among the cryogenic memory technologies, superconducting memories are the most efficient and compatible for these purposes. They can help advance quantum computing, facilitate high-performance computing, and explore space more effectively. However, cryogenic memory technologies currently face various challenges.

This book discusses the latest advancements in superconducting memory technologies. It covers four main types of superconducting memories: Josephson junction-based, magnetic Josephson junction-based, superconducting memristor-based, and ferroelectric superconducting quantum interference device-based memories. The book explores the background, working principles, and challenges of each of these technologies, providing a comprehensive overview of the field.

In summary, this book:

Explores available superconducting memory technologies, ensuring readers gain an understanding of this cutting-edge field

Focuses on four superconducting memory technologies, describing their historical background and technical features

Describes how these technologies help to advance quantum computing, superconducting electronics, and space exploration

Long description:

There is a lot of excitement around quantum computers that use superconducting qubits, which operate at extremely low temperatures since they are ultra-sensitive to noise. These quantum computers need a memory and control processor that can operate under cryogenic conditions. Among the cryogenic memory technologies, superconducting memories are the most efficient and compatible for these purposes. They can help advance quantum computing, facilitate high-performance computing, and explore space more effectively. However, cryogenic memory technologies currently face various challenges.

This book discusses the latest advancements in superconducting memory technologies. It covers four main types of superconducting memories: Josephson junction-based, magnetic Josephson junction-based, superconducting memristor-based, and ferroelectric superconducting quantum interference device-based memories. The book explores the background, working principles, and challenges of each of these technologies, providing a comprehensive overview of the field.

Table of Contents:

Chapter 1. Introduction.- Chapter 2. Josephson Junction-based Superconducting Memories.- Chapter 3. Superconducting Memories.- Chapter 4. Magnetic Josephson Junction-based Superconducting Memories.- Chapter 5. Superconducting Memristor-based Superconducting Memory.- Chapter 6. Ferroelectric SQUID-based Superconducting Memory.- Chapter 7. Conclusion.