A simple but complete example how jitter works could be found at eval.jitter. It's strongly recommended to check out this repository and to have also a closer look on the examples provided there. If ...

Jitter measurements are becoming increasingly important in the characterization and qualification of high-speed computing and communication systems. This is especially true with the recent ...

Anyone involved in fiber optic communications continuously hears people talk about random jitter. Random jitter is one of those terms like broadband that has meaning to people who are skilled in the ...

This white paper is aimed at system architects and physical implementation leaders working on the design of SoCs. It can be confusing to understand the impact of different jitter sources and how to ...

# R (tested in version(s) 3.3.2 - 3.5.2 64 bit Windows) file.copy(paste(dirname.base, "HKE_control_file.ctl", sep="/"), paste(dirname.jitter, "HKE_control_file.ctl ...

Volumes have been written about jitter, an indication of the complexity associated with timing uncertainty. Actually, timing errors are easy to measure. It is in the assignment of blame that the ...

Jitter can seriously degrade system operation but, as Lee Morgan explains, characterising and troubleshooting jitter on embedded systems has become a lot easier. Clocks are the heartbeats of embedded ...

As we live in a more and more connected world, being able to conduct an internet speed test and subsequently interpret the results is one of the most important computer skills to have. This is ...

Figure 1 shows three waveforms represented by a generic equation. The equation includes a phase noise term “f(t)” and an amplitude noise term “?(t). ” For each of the three frequencies evaluated, f(t) ...