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With the advent of the cloud era, today's campus networks face unprecedented challenges. Highlighting the strengths of its overall architecture, components, high-value features, key technologies, and use cases, download this eBook to see how Huawei's CloudCampus 3.0 Solution effectively addresses the new challenges every enterprise must now face.
This book begins by describing the challenges faced by traditional campus networks and the typical high-value features of Huawei's Low-Carbon Intelligent Campus Network Solution. Following this, the book details its background, architecture, benefits, key technologies, and typical applications across industries such as education, hotel, and enterprise office. After reading this book, you will quickly have a clear picture of the next-generation low-carbon intelligent campus network solution.
Emerging Wi-Fi 6 technologies achieve better performance, higher bandwidth, and higher concurrency while reducing latency and energy consumption. Discover the technologies that make such breakthroughs possible, typical applications for next generation Wi-Fi, Frequently Asked Questions (FAQs), and more.
This book starts by describing the service challenges faced by Wi-Fi networks in production and manufacturing scenarios, and then highlights how Huawei's Wi-Fi 6 Advanced technical framework can help address these challenges by means of its innovative technologies, such as CoSR, Fluent-MIMO, air interface slicing, and dual fed and selective receiving. In this book, you will also find the typical use cases of Wi-Fi 6 Advanced.
Explore the background and benefits of Smart Antennas, including how the technology addresses service issues in typical Wireless Local Area Network (WLAN) scenarios. Given that software and hardware implementations vary significantly between vendors, this eBook serves as an effective introduction to Huawei's Smart Antennas and their implementation.
What are the challenges faced by traditional Wide Area Networks (WANs)? Download this eBook to find out then explore the standards, advantages, benefits, solution architecture, and key technologies of a Software-Defined WAN (SD-WAN). And discover the typical networking, device model selection, and typical applications of Huawei's SD-WAN Solution — across industries.
Uncover the background of the all-Ethernet evolution of data centers in this eBook, which outlines the typical features and advantages of hyper-converged Data Center Network (DCN) architecture. What does the future hold for architecture such as this, based on practices and industry applications?
See the background, benefits, and key technologies of Huawei's lossless, Ethernet-based, Non-Volatile Memory express (NVMe) over Fabric Plus (NOF+) Storage Network Solution. A part of the CloudFabric 3.0 Hyper-Converged DCN Solution, it unleashes the full performance potential of all-flash storage.
See the open northbound capabilities of iMaster NCE-Fabric, Huawei's Software-Defined Networking (SDN) controller. This eBook provides guidance on flexibly deploying and scheduling network resources using the controller's open northbound Application Programming Interfaces (APIs).
As industry digital transformation is accelerating, Wide Area Networks (WANs) are entering the IPv6 Enhanced intelligent era in which they become application-centric and guarantee differentiated experience. This book describes the challenges facing traditional WANs in the cloud era, the advantages, overall architecture, and key technologies of the CloudWAN solution, and the successful application of this solution in the government, financial, transportation, electric power, and Internet Service Provider (ISP) sectors. Then to wrap up, this book discusses the prospect of the CloudWAN solution.
This book focuses on the background of Application-aware IPv6 Networking (APN6), explores the technical advantages and value scenarios of APN6, and showcases the technical applications and development of APN6. To help you better understand the unique values of APN6, this book also elaborates on the technical architecture and principles of APN6 in chapters 4 and 5.