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Applications serve their organisation’s business needs, and a network serves applications’ connectivity needs. Therefore, as a network designer or operator, it is essential to first comprehend the modern data center’s requirements and the data center-specific network topology.
Application requirements are vastly different from those of traditional client–server applications, and deployment speeds are in seconds rather than days in today’s data centers.This alters the design and implementation of networks.
Border Gateway Protocol (BGP) is the most widely used routing protocol in data centers. For decades, BGP has been known for assisting internet-connected systems worldwide in locating one another.
Nevertheless, it is also useful within a single data center. BGP is norms based and upheld by many free and open source programming bundles.
The Global data center networking market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
With the introduction of a brand-new, cutting-edge Network Operating System (NOS) and a declarative, intent-based automation and operations toolkit, Nokia has redefined data center fabrics.
This will permit cloud and server farm manufacturers to scale and adjust activities even with year-over-year dramatic traffic development and steady change welcomed on from innovation shifts like 5G and Industry 4.0.
The new Nokia Service Router Linux (SR Linux) NOS and Nokia Fabric Service Platform (FSP) were developed in collaboration with world-renowned webscale businesses, including Apple, which is utilizing the technology in its data centers.
Today’s large and expanding community of cloud builders requires an unprecedented level of customization and flexibility from networking components in order to operate and monitor sprawling data centers in the face of massive growth in demand for cloud-based applications and the use of new technologies like AI, machine learning, and augmented reality and virtual reality.
Because it is the first fully modern microservices-based NOS, Nokia SR Linux represents a significant architectural advancement. Additionally, the SR Linux NDK (NetOps development kit) provides access to a comprehensive and extensive set of programming capabilities.
Modern tools like gRPC (remote procedure call) and protobuf make it simple to integrate applications without requiring recompilation, language restrictions, or dependencies.
The service router operating system (SROS), which is the trademark of the large number of Nokia carrier-grade routers that are currently in use, also gives SR Linux access to Nokia’s tried-and-true Internet protocols.
In effect, SR Linux is the first open and flexible network application development environment in the industry.
