Jitter Essentials for Today’s Applications as AI Transforms Business and Society

Much of today’s AI compute capacity sits idle, waiting for data from the network. This creates an enormous demand for increasing network bandwidth and data rates. As data rates double, jitter must be cut in half to keep the same timing margin. It’s therefore important to understand jitter, the different types of jitter, what causes it, and how to measure it.
 
This technical presentation dives into the concept of jitter, explains where it comes from, and defines the 3 most common types of jitter. We cover which jitter is most important for what application and, more importantly, why.

Learning Objectives
  • Differentiate between jitter and skew
  • Identify the most likely sources of jitter in your design
  • Convert voltage noise into jitter using simple math
  • Define the 3 most common types of jitter
  • Determine which type of jitter is important for what applications and why
  • Select the relevant type of jitter for common interfaces

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