Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...

With increased clock domains in modern ASICs, clock-domain crossing (CDC) has become ubiquitous, indispensable, and essential. Of course, timing is always an issue. High clock speeds and delays in ...

Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...

Synchronous interfaces involve a single clock domain and are relatively easy to design. However, at times, it is advantageous and necessary to have an asynchronous interface between peripherals for ...

In the previous blog (Synchronization techniques for multi-clock domain SoCs& FPGAs), we studied different types of synchronization techniques to synchronize signals from one clock domain to another.

The Global Positioning System (GPS), the Internet and many defense-critical applications for example—demand exceptionally precise time and frequency standards. Today’s systems, however, rely on 1950s ...

Time-sensitive networks (TSN) in Ethernet are improving computer-based measurements from sub-microsecond to sub-nanosecond precision. By using message-based protocols that synchronize clocks, it is ...

The IEEE 1588 Precision Time Protocol enables precise time synchronization over the packet-based Ethernet network so that the time on a slave clock at one end of the network agrees with a master clock ...

Fixing out of sync VM clocks may be a bit annoying, but it's 100 percent doable. Here's how. One of the nice things about Hyper-V is that you usually don't have to worry about setting virtual machine ...