In today’s semiconductor landscape, scale is becoming a bigger battleground—not only for chipmakers, but increasingly for hyperscalers, cloud giants, and other systems companies, too. They're all ...

At first blush, it may seem intuitive to first develop the hardware platform and then write the software that runs on it. This approach makes it easier for software engineers to debug the code, ...

The core concepts in hardware-software co-design are getting another look, nearly two decades after this approach was first introduced and failed to catch on. What’s different this time around is the ...

As compute workloads grow more complex and specialized, the traditional separation between hardware and software development is leading to inefficiencies, especially at scale. To address this, ...

Development managers and architects for today's system-on-a-chip (SoC) designs can choose from a wide range of development tools and methodologies in order to deliver results in the hardware/software ...

What are the five core principles of hardware/software co-design? How do these principles help build a geographically diverse engineering organization that can successfully develop complex solutions ...

Engineering teams must coordinate across hardware and software domains as system-on-chip (SoC) designs scale in complexity. Designers must verify that register definitions remain accurate and ...

Hardware/software co-design has been a goal for several decades, but success has been limited. More recently, progress has been made in optimizing a processor as well as the addition of accelerators ...