Explore tools for integrating resources and applications with Azure Active Directory for authentication and authorization. This book starts with an introduction to Azure Active Directory (AAD) where you will learn the core concepts necessary to understand AAD and authentication in general. You will then move on to learn OpenID Connect and OAuth along with its flows, followed by a deep dive into the integration of web applications for user-based authentication. Next, you go through user authentication and how to enable the integration of various native applications with AAD. This is followed by an overview of authenticating applications along with a detailed discussion on collaboration with external users and other AD tenants. Moving forward, Developing Applications with Azure Active Directory covers using schemas of AD objects, such as users, to add custom attributes on top of ADD’s predefined attributes. You will see how multi-tenancy can be supported in Azure AD as well as how to design authorization with Azure AD. After reading this book, you will be able to integrate, design, and develop authentication and authorization techniques in Azure Active Directory. What You Will LearnIntegrate applications with Azure AD for authenticationExplore various Azure AD authentication scenariosMaster core Azure AD conceptsIntegrate external users and tenants Who is this book for: The book will be useful for architects and developers, planning to use Azure AD for authentication.
DESCRIPTION Chaos Engineering with Go is your essential guide to building resilient systems. In today's complex distributed environments, ensuring system reliability is paramount. By introducing controlled chaos into your systems, you can identify weaknesses and fortify them before they become critical failures. This book explores chaos engineering, offering a complete guide to building resilient systems. Starting with basic concepts and Go programming, it moves to chaos engineering topics like fault tolerance, fault injection, and chaos testing. Readers will learn to design and run chaos experiments using various tools and techniques. The book highlights the importance of monitoring and observability to understand system behavior. It includes practical case studies and best practices, ending with an in-depth look at security chaos engineering and emerging technologies. This book also emphasizes implementing observability practices within chaos engineering workflows, enhancing your ability to reduce downtime and improve system reliability. With a keen focus on best practices and lessons learned, this book equips readers with the knowledge and tools needed to embrace chaos, ensuring robust and reliable systems in an ever-evolving digital landscape. KEY FEATURES ● Master the core concepts and unique principles of chaos engineering. ● Resilience patterns for unstoppable microservices. ● Hands-on chaos experiments for real-world resilience. WHAT YOU WILL LEARN ● Grasp fundamental concepts and principles of chaos engineering. ● Implement fault tolerance and resilience patterns using Go. ● Design and execute effective chaos experiments to test system resilience. ● Utilize cutting-edge tools for chaos testing and fault injection. ● Integrate observability practices into chaos engineering workflows. ● Apply security chaos engineering and learn from real-world case studies. WHO THIS BOOK IS FOR The book caters to both beginners and experienced professionals interested in enhancing system integrity and reducing downtime. Ideal for site reliability engineers (SREs), DevOps engineers, enterprise architects, tech professionals, and college students. TABLE OF CONTENTS 1. Exploring the Essence of Chaos Engineering 2. Chaos Engineering Concepts 3. Revision with Go 4. Fault Tolerance and Resilience Patterns 5. Chaos Fault Injection Techniques 6. Chaos Testing Tools 7. Chaos Experiment Design 8. Chaos with Emerging Tech Stack 9. Essence of Observability in Distributed System 10. Observability in Chaos Engineering 11. Security Chaos Engineering Overview 12. Case Studies: Chaos Engineering in Action 13. Best Practices and Lessons Learned
With the advent of approximation algorithms for NP-hard combinatorial optimization problems, several techniques from exact optimization such as the primal-dual method have proven their staying power and versatility. This book describes a simple and powerful method that is iterative in essence and similarly useful in a variety of settings for exact and approximate optimization. The authors highlight the commonality and uses of this method to prove a variety of classical polyhedral results on matchings, trees, matroids and flows. The presentation style is elementary enough to be accessible to anyone with exposure to basic linear algebra and graph theory, making the book suitable for introductory courses in combinatorial optimization at the upper undergraduate and beginning graduate levels. Discussions of advanced applications illustrate their potential for future application in research in approximation algorithms.
Includes lecture in the form of an educational DVD on subject Immunology.Added lot of diagrams and flow charts to make learning interesting and easier. Several new and easy to grasp MNEMONICS have been given throughout the text.Some new topics like platelets and diabetes mellitus with expanding some of the old topics.New set of conceptual questions with detailed explanations added at the end of most of the chapters to enhance the reasoning skills and facilitate learning.Conceptual and useful information has been added in the form of shaded boxes throughout the chapter to emphasize the clinical importance of the topic being read.
Breast cancer is a major cause of illness for Australian women. Following tumour resection, breast reconstruction is undertaken for cosmetic and psychological reasons. Reconstruction using silicone-based implants leads to complications such as formation of a rigid fibrous tissue surrounding the implant giving a spherical and unnatural appearance to the breast. Reconstruction using autologous tissue is associated with donor site morbidity, tissue resorption and necrosis. Cell-based tissue engineering is an emerging approach to overcome these problems. Fully vascularised adipose tissue can be engineered in vivo with the help of patient-specific bioabsorbable implants fabricated by additive manufacturing. This chapter focuses on a review of such manufacturing techniques and the strategies being developed to engineer long-term fully vascularised and sustainable adipose tissue.
DESCRIPTION Chaos Engineering with Go is your essential guide to building resilient systems. In today's complex distributed environments, ensuring system reliability is paramount. By introducing controlled chaos into your systems, you can identify weaknesses and fortify them before they become critical failures. This book explores chaos engineering, offering a complete guide to building resilient systems. Starting with basic concepts and Go programming, it moves to chaos engineering topics like fault tolerance, fault injection, and chaos testing. Readers will learn to design and run chaos experiments using various tools and techniques. The book highlights the importance of monitoring and observability to understand system behavior. It includes practical case studies and best practices, ending with an in-depth look at security chaos engineering and emerging technologies. This book also emphasizes implementing observability practices within chaos engineering workflows, enhancing your ability to reduce downtime and improve system reliability. With a keen focus on best practices and lessons learned, this book equips readers with the knowledge and tools needed to embrace chaos, ensuring robust and reliable systems in an ever-evolving digital landscape. KEY FEATURES ● Master the core concepts and unique principles of chaos engineering. ● Resilience patterns for unstoppable microservices. ● Hands-on chaos experiments for real-world resilience. WHAT YOU WILL LEARN ● Grasp fundamental concepts and principles of chaos engineering. ● Implement fault tolerance and resilience patterns using Go. ● Design and execute effective chaos experiments to test system resilience. ● Utilize cutting-edge tools for chaos testing and fault injection. ● Integrate observability practices into chaos engineering workflows. ● Apply security chaos engineering and learn from real-world case studies. WHO THIS BOOK IS FOR The book caters to both beginners and experienced professionals interested in enhancing system integrity and reducing downtime. Ideal for site reliability engineers (SREs), DevOps engineers, enterprise architects, tech professionals, and college students. TABLE OF CONTENTS 1. Exploring the Essence of Chaos Engineering 2. Chaos Engineering Concepts 3. Revision with Go 4. Fault Tolerance and Resilience Patterns 5. Chaos Fault Injection Techniques 6. Chaos Testing Tools 7. Chaos Experiment Design 8. Chaos with Emerging Tech Stack 9. Essence of Observability in Distributed System 10. Observability in Chaos Engineering 11. Security Chaos Engineering Overview 12. Case Studies: Chaos Engineering in Action 13. Best Practices and Lessons Learned
Includes lecture in the form of an educational DVD on subject Immunology.Added lot of diagrams and flow charts to make learning interesting and easier. Several new and easy to grasp MNEMONICS have been given throughout the text.Some new topics like platelets and diabetes mellitus with expanding some of the old topics.New set of conceptual questions with detailed explanations added at the end of most of the chapters to enhance the reasoning skills and facilitate learning.Conceptual and useful information has been added in the form of shaded boxes throughout the chapter to emphasize the clinical importance of the topic being read.
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