About 25 years ago, Carver Mead, one of the pioneers of VLSI design, told a technical audience then grappling with the complexities of quarter-micron design that he could see an evolutionary path to ...

Today, more than ever, design engineers are empowered to take greater control over their work, especially as they strive to meet heightened customer expectations and a relentless drive for innovation.

The problem with today's existing methodologies is that verification issubservient to design. This principle requires a shift in paradigm,especially in designing complex electronic systems. Why?

“Digital convergence” is creating demand for functionally complex ICs in six-nine month design cycles at mass-market costs. On the one hand, increased capital investments in the late 1990s have seen ...

As design complexity grows, so does the need for every piece in the design flow—hardware, software, IP, as well as the ecosystem — to be tied together more closely. At one level, design flow capacity ...

As semiconductor technology pushes the boundaries of scale and complexity, traditional VLSI physical design methodologies are struggling to keep pace. The rise of Artificial Intelligence (AI), ...

The concept of applying a higher level of design abstraction to creative and engineering processes is so closely familiar that we probably take it for granted. From NC machines to SQL database systems ...