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 ...

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), ...

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 ...

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.

Value in design prototyping using FPGAs. Validating the design with firmware. How the process works. Identifying companies with the right experience and expertise in FPGA and design prototyping ...

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 ...