A Practical Guide to Quantum Machine Learning and Quantum Optimization PDF Download

Author: Elias F. Combarro
Publisher: Packt Publishing Ltd
ISBN: 1804618306
Category : Computers
Languages : en
Pages : 680

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Book Description
Work with fully explained algorithms and ready-to-use examples that can be run on quantum simulators and actual quantum computers with this comprehensive guide Key FeaturesGet a solid grasp of the principles behind quantum algorithms and optimization with minimal mathematical prerequisitesLearn the process of implementing the algorithms on simulators and actual quantum computersSolve real-world problems using practical examples of methodsBook Description This book provides deep coverage of modern quantum algorithms that can be used to solve real-world problems. You'll be introduced to quantum computing using a hands-on approach with minimal prerequisites. You'll discover many algorithms, tools, and methods to model optimization problems with the QUBO and Ising formalisms, and you will find out how to solve optimization problems with quantum annealing, QAOA, Grover Adaptive Search (GAS), and VQE. This book also shows you how to train quantum machine learning models, such as quantum support vector machines, quantum neural networks, and quantum generative adversarial networks. The book takes a straightforward path to help you learn about quantum algorithms, illustrating them with code that's ready to be run on quantum simulators and actual quantum computers. You'll also learn how to utilize programming frameworks such as IBM's Qiskit, Xanadu's PennyLane, and D-Wave's Leap. Through reading this book, you will not only build a solid foundation of the fundamentals of quantum computing, but you will also become familiar with a wide variety of modern quantum algorithms. Moreover, this book will give you the programming skills that will enable you to start applying quantum methods to solve practical problems right away. What you will learnReview the basics of quantum computingGain a solid understanding of modern quantum algorithmsUnderstand how to formulate optimization problems with QUBOSolve optimization problems with quantum annealing, QAOA, GAS, and VQEFind out how to create quantum machine learning modelsExplore how quantum support vector machines and quantum neural networks work using Qiskit and PennyLaneDiscover how to implement hybrid architectures using Qiskit and PennyLane and its PyTorch interfaceWho this book is for This book is for professionals from a wide variety of backgrounds, including computer scientists and programmers, engineers, physicists, chemists, and mathematicians. Basic knowledge of linear algebra and some programming skills (for instance, in Python) are assumed, although all mathematical prerequisites will be covered in the appendices.

Author: Elias F. Combarro
Publisher: Packt Publishing
ISBN: 9781804613832
Category : Computers
Languages : en
Pages : 0

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Book Description
Work with fully explained algorithms and ready-to-use examples that can be run on quantum simulators and actual quantum computers with this comprehensive guide Key Features: Get a solid grasp of the principles behind quantum algorithms and optimization with minimal mathematical prerequisites Learn the process of implementing the algorithms on simulators and actual quantum computers Solve real-world problems using practical examples of methods Book Description: This book provides deep coverage of modern quantum algorithms that can be used to solve real-world problems. You'll be introduced to quantum computing using a hands-on approach with minimal prerequisites. You'll discover many algorithms, tools, and methods to model optimization problems with the QUBO and Ising formalisms, and you will find out how to solve optimization problems with quantum annealing, QAOA, Grover Adaptive Search (GAS), and VQE. This book also shows you how to train quantum machine learning models, such as quantum support vector machines, quantum neural networks, and quantum generative adversarial networks. The book takes a straightforward path to help you learn about quantum algorithms, illustrating them with code that's ready to be run on quantum simulators and actual quantum computers. You'll also learn how to utilize programming frameworks such as IBM's Qiskit, Xanadu's PennyLane, and D-Wave's Leap. Through reading this book, you will not only build a solid foundation of the fundamentals of quantum computing, but you will also become familiar with a wide variety of modern quantum algorithms. Moreover, this book will give you the programming skills that will enable you to start applying quantum methods to solve practical problems right away. What You Will Learn: Review the basics of quantum computing Gain a solid understanding of modern quantum algorithms Understand how to formulate optimization problems with QUBO Solve optimization problems with quantum annealing, QAOA, GAS, and VQE Find out how to create quantum machine learning models Explore how quantum support vector machines and quantum neural networks work using Qiskit and PennyLane Discover how to implement hybrid architectures using Qiskit and PennyLane and its PyTorch interface Who this book is for: This book is for professionals from a wide variety of backgrounds, including computer scientists and programmers, engineers, physicists, chemists, and mathematicians. Basic knowledge of linear algebra and some programming skills (for instance, in Python) are assumed, although all mathematical prerequisites will be covered in the appendices.

Author: Santanu Ganguly
Publisher: Apress
ISBN: 9781484270974
Category : Computers
Languages : en
Pages : 551

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Book Description
Know how to adapt quantum computing and machine learning algorithms. This book takes you on a journey into hands-on quantum machine learning (QML) through various options available in industry and research. The first three chapters offer insights into the combination of the science of quantum mechanics and the techniques of machine learning, where concepts of classical information technology meet the power of physics. Subsequent chapters follow a systematic deep dive into various quantum machine learning algorithms, quantum optimization, applications of advanced QML algorithms (quantum k-means, quantum k-medians, quantum neural networks, etc.), qubit state preparation for specific QML algorithms, inference, polynomial Hamiltonian simulation, and more, finishing with advanced and up-to-date research areas such as quantum walks, QML via Tensor Networks, and QBoost. Hands-on exercises from open source libraries regularly used today in industry and research are included, such as Qiskit, Rigetti's Forest, D-Wave's dOcean, Google's Cirq and brand new TensorFlow Quantum, and Xanadu's PennyLane, accompanied by guided implementation instructions. Wherever applicable, the book also shares various options of accessing quantum computing and machine learning ecosystems as may be relevant to specific algorithms. The book offers a hands-on approach to the field of QML using updated libraries and algorithms in this emerging field. You will benefit from the concrete examples and understanding of tools and concepts for building intelligent systems boosted by the quantum computing ecosystem. This work leverages the author’s active research in the field and is accompanied by a constantly updated website for the book which provides all of the code examples. What You will Learn Understand and explore quantum computing and quantum machine learning, and their application in science and industry Explore various data training models utilizing quantum machine learning algorithms and Python libraries Get hands-on and familiar with applied quantum computing, including freely available cloud-based access Be familiar with techniques for training and scaling quantum neural networks Gain insight into the application of practical code examples without needing to acquire excessive machine learning theory or take a quantum mechanics deep dive Who This Book Is For Data scientists, machine learning professionals, and researchers

Author: Maria Schuld
Publisher: Springer Nature
ISBN: 3030830985
Category : Science
Languages : en
Pages : 321

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Book Description
This book offers an introduction into quantum machine learning research, covering approaches that range from "near-term" to fault-tolerant quantum machine learning algorithms, and from theoretical to practical techniques that help us understand how quantum computers can learn from data. Among the topics discussed are parameterized quantum circuits, hybrid optimization, data encoding, quantum feature maps and kernel methods, quantum learning theory, as well as quantum neural networks. The book aims at an audience of computer scientists and physicists at the graduate level onwards. The second edition extends the material beyond supervised learning and puts a special focus on the developments in near-term quantum machine learning seen over the past few years.

Author: Davide Pastorello
Publisher: Springer Nature
ISBN: 9811968977
Category : Computers
Languages : en
Pages : 144

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Book Description
This book offers a brief but effective introduction to quantum machine learning (QML). QML is not merely a translation of classical machine learning techniques into the language of quantum computing, but rather a new approach to data representation and processing. Accordingly, the content is not divided into a “classical part” that describes standard machine learning schemes and a “quantum part” that addresses their quantum counterparts. Instead, to immerse the reader in the quantum realm from the outset, the book starts from fundamental notions of quantum mechanics and quantum computing. Avoiding unnecessary details, it presents the concepts and mathematical tools that are essential for the required quantum formalism. In turn, it reviews those quantum algorithms most relevant to machine learning. Later chapters highlight the latest advances in this field and discuss the most promising directions for future research. To gain the most from this book, a basic grasp of statistics and linear algebra is sufficient; no previous experience with quantum computing or machine learning is needed. The book is aimed at researchers and students with no background in quantum physics and is also suitable for physicists looking to enter the field of QML.

Author: Antoine Jacquier
Publisher: Packt Publishing Ltd
ISBN: 1801817871
Category : Mathematics
Languages : en
Pages : 443

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Book Description
Learn the principles of quantum machine learning and how to apply them While focus is on financial use cases, all the methods and techniques are transferable to other fields Purchase of Print or Kindle includes a free eBook in PDF Key Features Discover how to solve optimisation problems on quantum computers that can provide a speedup edge over classical methods Use methods of analogue and digital quantum computing to build powerful generative models Create the latest algorithms that work on Noisy Intermediate-Scale Quantum (NISQ) computers Book Description With recent advances in quantum computing technology, we finally reached the era of Noisy Intermediate-Scale Quantum (NISQ) computing. NISQ-era quantum computers are powerful enough to test quantum computing algorithms and solve hard real-world problems faster than classical hardware. Speedup is so important in financial applications, ranging from analysing huge amounts of customer data to high frequency trading. This is where quantum computing can give you the edge. Quantum Machine Learning and Optimisation in Finance shows you how to create hybrid quantum-classical machine learning and optimisation models that can harness the power of NISQ hardware. This book will take you through the real-world productive applications of quantum computing. The book explores the main quantum computing algorithms implementable on existing NISQ devices and highlights a range of financial applications that can benefit from this new quantum computing paradigm. This book will help you be one of the first in the finance industry to use quantum machine learning models to solve classically hard real-world problems. We may have moved past the point of quantum computing supremacy, but our quest for establishing quantum computing advantage has just begun! What you will learn Train parameterised quantum circuits as generative models that excel on NISQ hardware Solve hard optimisation problems Apply quantum boosting to financial applications Learn how the variational quantum eigensolver and the quantum approximate optimisation algorithms work Analyse the latest algorithms from quantum kernels to quantum semidefinite programming Apply quantum neural networks to credit approvals Who this book is for This book is for Quants and developers, data scientists, researchers, and students in quantitative finance. Although the focus is on financial use cases, all the methods and techniques are transferable to other areas.

Author: Rosey Press
Publisher: Independently Published
ISBN:
Category : Business & Economics
Languages : en
Pages : 0

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Book Description
Chapter 1: Introduction to Quantum Machine Learning Overview of Quantum Computing The field of quantum computing is a rapidly evolving area of study that has the potential to revolutionize the world of artificial intelligence (AI) and machine learning. Quantum computing harnesses the principles of quantum mechanics to perform computations that would be impossible for classical computers. By exploiting the unique properties of quantum bits, or qubits, quantum computers have the ability to solve complex problems at an exponentially faster rate than traditional computers. Quantum machine learning is a subset of quantum computing that seeks to leverage the power of quantum algorithms to enhance the capabilities of machine learning models. Quantum neural networks, quantum optimization, and quantum-enhanced feature spaces are just a few examples of how quantum computing can be used to improve the performance of AI systems. These quantum algorithms for AI are designed to tackle problems that are currently beyond the reach of classical machine learning techniques. One of the key advantages of quantum computing for AI is the ability to explore vast solution spaces in a fraction of the time it would take a classical computer. Quantum algorithms can efficiently search for optimal solutions to complex optimization problems, making them ideal for tasks such as drug discovery and materials science. By combining classical and quantum computing in hybrid systems, researchers can leverage the strengths of both approaches to create more powerful AI models. However, as with any emerging technology, there are ethical and societal implications to consider when it comes to quantum computing for AI. Issues such as data privacy, algorithmic bias, and the potential for misuse of quantum technology must be carefully monitored and addressed. It is important for researchers and practitioners in the field of quantum machine learning to actively engage with these ethical considerations to ensure that the benefits of quantum computing are realized in a responsible and sustainable manner. In conclusion, quantum computing holds great promise for the future of AI and machine learning. By unlocking the power of quantum algorithms and quantum-enhanced feature spaces, researchers can push the boundaries of what is possible in the field of artificial intelligence. With careful attention to ethical and societal implications, quantum machine learning has the potential to revolutionize industries such as drug discovery, materials science, and beyond.

Author: Jon Adams
Publisher: Green Mountain Computing
ISBN:
Category : Computers
Languages : en
Pages : 157

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Book Description
Dive into the cutting-edge intersection of quantum computing and machine learning with "AI Foundations of Quantum Machine Learning." This comprehensive guide invites readers into the exciting world where the realms of artificial intelligence (AI) and quantum mechanics merge, setting the stage for a revolution in AI technologies. With the burgeoning interest in quantum computing's vast potential, this book serves as a beacon, illuminating the intricate concepts and groundbreaking promises of quantum machine learning. Contents Quantum Computing: An Introduction - Begin your journey with a primer on quantum computing, understanding the fundamental quantum mechanics that power advanced data processing. Fundamentals of Machine Learning - Lay the groundwork with an overview of machine learning principles, setting the stage for their quantum leap. Quantum Algorithms for Machine Learning - Discover the transformative potential of quantum algorithms, capable of processing large datasets with unprecedented speed and efficiency. Data Encoding in Quantum Systems - Explore the innovative techniques for encoding data into quantum systems, a crucial step for quantum machine learning. Quantum Machine Learning Models - Delve into the heart of quantum machine learning, examining models that harness quantum mechanics to enhance machine learning capabilities. Training Quantum Neural Networks - Unpack the methodologies for training quantum neural networks, a pioneering approach to AI development. Applications of Quantum Machine Learning - Witness the practical implications of quantum machine learning across various fields, from healthcare to environmental science. Challenges and the Future Landscape - Reflect on the hurdles facing quantum machine learning and envision the future of AI shaped by quantum advancements. Introduction "AI Foundations of Quantum Machine Learning" offers a compelling narrative on the symbiosis of quantum computing and machine learning. Through accessible language and vivid examples, it demystifies complex concepts and showcases the transformative power of quantum technologies in AI. Readers are taken on an enlightening journey, from the basic principles of quantum computing to the forefront of quantum machine learning models and their applications. This book is not merely an academic text; it is a roadmap to the future, encouraging readers to envision a world where AI is redefined by quantum phenomena. Ideal for students, academics, and tech enthusiasts alike, this book bridges the gap between theoretical quantum mechanics and practical machine learning applications. Whether you're looking to understand the basics or explore the future of technology, "AI Foundations of Quantum Machine Learning" is an indispensable resource for anyone eager to grasp the next wave of technological innovation.

Author: Frank Zickert
Publisher: Independently Published
ISBN:
Category :
Languages : en
Pages : 440

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Book Description
You're interested in quantum computing and machine learning. But you don't know how to get started? Let me help! Whether you just get started with quantum computing and machine learning or you're already a senior machine learning engineer, Hands-On Quantum Machine Learning With Python is your comprehensive guide to get started with Quantum Machine Learning - the use of quantum computing for the computation of machine learning algorithms. Quantum computing promises to solve problems intractable with current computing technologies. But is it fundamentally different and asks us to change the way we think. Hands-On Quantum Machine Learning With Python strives to be the perfect balance between theory taught in a textbook and the actual hands-on knowledge you'll need to implement real-world solutions. Inside this book, you will learn the basics of quantum computing and machine learning in a practical and applied manner.

Author: Frank Zickert
Publisher: Independently Published
ISBN:
Category :
Languages : en
Pages : 0

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Book Description
Do you want to become a quantum machine learning practitioner? ... But you don't want to study theoretical physics first Then, "Hands-On Quantum Machine Learning With Python" is for you. This book has one goal - to help developers, practitioners, and students like yourself become quantum machine learning experts. It doesn't matter if it is the first time you have worked with machine learning and quantum computing. Hands-On Quantum Machine Learning With Python is engineered from the ground up to help you reach expert status. Inside this book, you'll find: Super practical walkthroughs present solutions to real-world combinatorial optimization problems and challenges. Hands-on tutorials (with lots of code) show you the Variational Quantum Eigensolver and its implementation and usage. An accessible teaching style guaranteed to get you through the underlying maths and physics and master machine quantum learning. In this volume, you will learn how to solve current optimization problems on real quantum computers. We will dive deep into the Variational Quantum Eigensolver (VQE) and use it to solve combinatorial optimization problems. Combinatorial optimization is of paramount importance in many industries. For example, the famous Traveling Salesman Problem (TSP) asks for the shortest route between different cities. It is crucial for parcel delivery, aviation, and almost all mobility-related fields. The ability to solve these problems will enable you to be well prepared to find or keep a job in any of these fields being disrupted by the advent of quantum computing. -- Is this book right for me? -- You don't need to be a mathematician. You don't need to be a physicist, either. This book is for students, developers, data scientists, and practitioners interested in applying quantum machine learning to actual problems - today. "I am new to quantum computing and machine learning altogether." - No problem! Hands-On Quantum Machine Learning With Python is precisely what you need. We start with the absolute basics. We assume no prior knowledge of machine learning or quantum computing. You will not be left behind. (Please claim a bundle including "Volume 1: Getting Started"). "I have a computer science or programming background. Will I understand quantum machine learning?" - Absolutely! This book explains quantum machine learning in an accessible way, even if you are not a mathematician or a physicist. You'll find many code examples and explanations in no other book! "I'm an experienced data scientist or machine learning engineer." - The problems we solve will be familiar to you, but how we solve them will be new. The quantum algorithms we use will become an entirely new tool in your toolbox that you may not have even known existed. And yet, it's the tool you need to master if you want to keep your job in the future. "I am an expert in my field. But I don't have a Ph.D. What are my chances of becoming an expert in quantum computing?" Employers are looking for a rare mix of skills. On the one hand, they look for candidates who are experts in their field. On the other hand, they are looking for candidates with a well-equipped toolbox for machine learning with quantum computing. You are in pole position! -- What's inside this book? -- Hands-On Quantum Machine Learning With Python will make you an expert in solving combinatorial optimization problems with a quantum computer. Inside the book, we will focus on the following: Combinatorial optimization The Variational Quantum Eigensolver (VQE) Problem formulation Various solution ansatzes Running algorithms on real quantum computers Quantum error mitigation The Quantum Approximate Optimization Algorithm