SoCs are becoming more complex these days. A lot of functionality is being added to chips and data is frequently transferred from one clock domain to another. Hence, clock domain crossing verification ...

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.

As chips grow ever larger and more complex, gate count and amount of embedded memory grow dramatically. The number of clock domains is also increasing steadily. Several dozen different clocks are ...

Multiple clocks are inevitable in today's designs. Systems-on-chip (SoCs) have grown significantly in complexity, as well as in the variety of intellectual-property (IP) blocks that can be integrated.