Multiple, independent clocks are ubiquitous in system-on-chip (SoC) design. Most SoC devices have multiple interfaces, some following standards that use very different clock frequencies. Many modern ...

Today's leading-edge system-on-chip (SoC) designs typically have multiple clock domains and, in many cases, multiple internally generated clocks. In test mode, those clocks may be combined into one, ...

If you need to generate multiple clock outputs, you might want to consider the low-jitter AD9540 from Analog Devices. To view the application note, click on the URL below. Circuit selected for ...

One of the most important steps in the design process is to identify how many different clocks to use and how to route them. This article tells you how to use routing resources efficiently.

In an era when power has become a fundamental design constraint, questions persist about whether asynchronous logic has a role to play. It is a design style said to have significant benefits and yet ...

Multisource CTS represents a new clock-distribution technology that fills the methodology gap between conventional CTS and pure clock mesh. Whereas pure clock mesh delivers the best possible clock ...

Complex system-on-chip (SoC) devices make every stage of the development flow harder, and the challenges continue even after the silicon is fabricated. Automatic test equipment (ATE) screening for ...