Navigating Network Complexity

Network professionals have often been told that today's modern control planes would simplify their networks. The opposite has happened: Technologies like SDN and NFV, although immensely valuable, are exacerbating complexity instead of solving it. Navigating Network Complexity is the first comprehensive guide to managing this complexity in both deployment and day-to-day operations.

Russ White and Jeff Tantsura introduce modern complexity theory from the standpoint of the working network engineer, helping you apply it to the practical problems you face every day. Avoiding complex mathematical models, they show how to characterise network complexity, so you can understand it and control it.

The authors examine specific techniques and technologies associated with network control planes, including SDNs, fast reroute, segment routing, service chaining, and cloud computing. They reveal how each of these affects network design and complexity and help you anticipate causes of failure in highly complex systems.

Next, they turn to modern control planes, examining the fundamental operating principles of SDNs, such as OpenFlow and I2RS, network and other service function virtualisation, content distribution networks, Layer 2 fabrics, and service chaining solutions. You'll learn how each of these might both resolve and increase complexity in network design and operations and what you can do about it.

Coverage includes:

Defining complexity, understanding its components, and measuring it
Mastering a straightforward "state, speed, and surface" model for analysing complexity
Controlling complexity in design, deployment, operations, protocols, and programmable networks
Understanding how complex network systems begin to fail and how to prevent failure
Recognising complexity tradeoffs in service virtualisation and service chaining
Managing new challenges of complexity in virtualised and cloud environments
Learning why constructs such as hierarchical design, aggregation, and protocol layering work and when they work best
Choosing the right models to contain complexity as your network changes