The world of the hardware design engineer has changed dramatically in recent years. Designers no longer sit and code RTL in isolation to meet a paper specification, and then wait for a hardware ...

Modern system-on-chip (SoC) performance is no longer compute-bound. It is increasingly data-movement–bound and wire-limited. For decades, SoC performance gains came from faster transistors and denser ...

Today’s high-end system-on-chips (SoCs) rely heavily on sophisticated network-on-chip (NoC) technology to achieve performance and scalability. As the demands of artificial intelligence (AI), ...

In today’s complex system-on-chip (SoC) design flows, intellectual property (IP) blocks are everywhere—licensed from third parties, leveraged from internal libraries, or hand-crafted by expert teams.

Most advanced node system-on-chip (SoC) designs are very large, and very complex. They typically contain many blocks and intellectual property (IP) that perform specialized functions, such as ...