Highly Popular Learning Site 'Quantum Native Dojo!' Run by QunaSys Becomes a Long-Awaited Book!
QunaSys released the book version of their popular web learning material 'Quantum Native Dojo!' on April 13, 2026. Updated with the latest algorithms and executable Google Colab codes, it aims to develop 'quantum native' talent.
📋 Article Processing Timeline
- 📰 Published: April 13, 2026 at 17:30
- 🔍 Collected: April 13, 2026 at 16:35
- 🤖 AI Analyzed: April 19, 2026 at 19:46 (147h 11m after Collected)
QunaSys Inc. (Headquarters: Bunkyo-ku, Tokyo; Representative Director and CEO: Tianren Yang), which promotes the industrial application of quantum computers, announced that the book "Quantum Native Dojo! Learning Quantum Information Science and Quantum Computers through Implementation" (Published by Kodansha), a significantly revised and expanded version of its web content "Quantum Native Dojo!" which has been widely popular as a learning material for quantum computational science and quantum computers, was released on April 13, 2026.
"Quantum Native Dojo" is an open-source learning material published on the web by QunaSys with the goal of "developing human resources who can master quantum computers (quantum natives)." Since its release, its overwhelming clarity and practical content have garnered much support among domestic engineers, students, and researchers, recording a cumulative total of over 180,000 accesses. It has contributed to the development of Japan's quantum community.
In this book publication, to reflect the rapidly evolving latest trends in quantum computation, exhaustive revisions and additions were made throughout the entire volume based on the web-published version. The content comprehensively covers everything from the basics of quantum information science to applied algorithms and quantum error correction, and the programs that can actually be tried out on Google Colab are also made public. This book is a highly practical specialized book aimed not just at "understanding as knowledge" but at "acquiring by actually running it."
■ Book Features
1. A structure for systematic learning through implementation
It systematically explains everything from the basics of quantum information science to quantum algorithms, quantum chemical calculations, and quantum error correction. Almost all content is accompanied by implementation code, allowing you to deepen your understanding while actually running the code.
2. An execution environment ready to try immediately
All program codes in the book are published in Jupyter Notebook format that runs on Google Colab. You can start learning immediately on your browser without any special environment setup.
3. Rich content updated based on the latest trends
Reflecting the rapid daily progress in the quantum computer industry, the content has been significantly updated from the web version published in April 2019.
Addition of the latest algorithms: Added explanations of important recent algorithms, such as the QSCI algorithm (developed by QunaSys) and qubitization, which have been gaining attention in recent years. Furthermore, explanations and implementations of prime factorization (Shor's algorithm), which were not covered in the web version, have also been added.
Careful explanation of quantum error correction with implementation: Added careful explanation with code implementation regarding quantum error correction, which is the foundation of the fault-tolerant quantum computers that are nearing realization.
Book-exclusive content: Added Chapter 0 "Basics of Quantum Computers," which explains the history and overview of quantum computers without difficult formulas. It can be read by a wide range of readers.
In addition, explanations have been strengthened throughout the entire volume to further enhance clarity. It covers themes directly related to industrial applications, such as quantum chemical calculations and solving large-scale systems of linear equations, making it useful not only for researchers but also for engineers considering utilization in companies.
4. Authors including global researchers
Written by researchers and practitioners, including Yuya Nakagawa (Principal Researcher, QunaSys Inc.) and Professor Keisuke Fujii of Kyoto University (Chief Technology Advisor of QunaSys), who were selected for "Quantum 100 (100 global quantum experts)," an initiative in the UNESCO "International Year of Quantum Science & Technology" established by the UN General Assembly. Many members from QunaSys also participated, incorporating a practical perspective.
■ Contribution to Quantum Human Resource Development
Quantum computers are expected to be utilized in various fields in the future, such as material development, drug discovery, and optimization problems. To realize this, it is essential to develop human resources who understand both theory and implementation.
Through the publication of this book, QunaSys will contribute to the development of "quantum native" human resources who can master quantum technology.
■ Table of Contents (Excerpt)
Chapter 0: Basic Knowledge of Quantum Computers
Chapter 1: Basics of Quantum Information Science
Chapter 2: Introduction to Quantum Algorithms
Chapter 3: Execution Environment for Quantum Algorithms: Programming using QURI Parts
Chapter 4: Quantum Dynamics Simulation
"Quantum Native Dojo" is an open-source learning material published on the web by QunaSys with the goal of "developing human resources who can master quantum computers (quantum natives)." Since its release, its overwhelming clarity and practical content have garnered much support among domestic engineers, students, and researchers, recording a cumulative total of over 180,000 accesses. It has contributed to the development of Japan's quantum community.
In this book publication, to reflect the rapidly evolving latest trends in quantum computation, exhaustive revisions and additions were made throughout the entire volume based on the web-published version. The content comprehensively covers everything from the basics of quantum information science to applied algorithms and quantum error correction, and the programs that can actually be tried out on Google Colab are also made public. This book is a highly practical specialized book aimed not just at "understanding as knowledge" but at "acquiring by actually running it."
■ Book Features
1. A structure for systematic learning through implementation
It systematically explains everything from the basics of quantum information science to quantum algorithms, quantum chemical calculations, and quantum error correction. Almost all content is accompanied by implementation code, allowing you to deepen your understanding while actually running the code.
2. An execution environment ready to try immediately
All program codes in the book are published in Jupyter Notebook format that runs on Google Colab. You can start learning immediately on your browser without any special environment setup.
3. Rich content updated based on the latest trends
Reflecting the rapid daily progress in the quantum computer industry, the content has been significantly updated from the web version published in April 2019.
Addition of the latest algorithms: Added explanations of important recent algorithms, such as the QSCI algorithm (developed by QunaSys) and qubitization, which have been gaining attention in recent years. Furthermore, explanations and implementations of prime factorization (Shor's algorithm), which were not covered in the web version, have also been added.
Careful explanation of quantum error correction with implementation: Added careful explanation with code implementation regarding quantum error correction, which is the foundation of the fault-tolerant quantum computers that are nearing realization.
Book-exclusive content: Added Chapter 0 "Basics of Quantum Computers," which explains the history and overview of quantum computers without difficult formulas. It can be read by a wide range of readers.
In addition, explanations have been strengthened throughout the entire volume to further enhance clarity. It covers themes directly related to industrial applications, such as quantum chemical calculations and solving large-scale systems of linear equations, making it useful not only for researchers but also for engineers considering utilization in companies.
4. Authors including global researchers
Written by researchers and practitioners, including Yuya Nakagawa (Principal Researcher, QunaSys Inc.) and Professor Keisuke Fujii of Kyoto University (Chief Technology Advisor of QunaSys), who were selected for "Quantum 100 (100 global quantum experts)," an initiative in the UNESCO "International Year of Quantum Science & Technology" established by the UN General Assembly. Many members from QunaSys also participated, incorporating a practical perspective.
■ Contribution to Quantum Human Resource Development
Quantum computers are expected to be utilized in various fields in the future, such as material development, drug discovery, and optimization problems. To realize this, it is essential to develop human resources who understand both theory and implementation.
Through the publication of this book, QunaSys will contribute to the development of "quantum native" human resources who can master quantum technology.
■ Table of Contents (Excerpt)
Chapter 0: Basic Knowledge of Quantum Computers
Chapter 1: Basics of Quantum Information Science
Chapter 2: Introduction to Quantum Algorithms
Chapter 3: Execution Environment for Quantum Algorithms: Programming using QURI Parts
Chapter 4: Quantum Dynamics Simulation