Today, multicore system-on-chip (SoC) designs can be composed of hundreds of IP blocks, typically containing up to ten million logic gates. One way for SoC developers to create devices of this ...

As system-on-chip (SoC) complexity grows, so does the necessity for products that seamlessly connect IP and streamline integration processes, minimize manual errors, and enhance productivity. The ...

Ultra-low power DesignWare Die-to-Die PHY IP delivers less than 1pJ/bit for optimal energy efficiency in hyperscale data centers Compact analog front-end enables reliable links up to 50 millimeters ...

The evolution of semiconductor design has driven modern systems-on-chip (SoCs) to unprecedented levels of complexity. Today’s leading-edge SoCs often integrate hundreds of intellectual-property (IP) ...

For most system-on-chip (SoC) designs, the most critical task is not RTL coding or even creating the chip architecture. Today, SoCs are designed primarily by assembling various silicon intellectual ...

Customers will be able to customize this TOE engine by adding differentiable features and integrate this synthesizable core in the design of SOCs/ASICs/FPGAs to develop enhanced differentiable ...

Verification is only as good as the specification that’s available, and if specs are incomplete then design and verification cycles will grow. The rapid growth in complexity and size of modern System ...

The Past-The SOC design of yesterday typically had a 70-80% Customer Differentiated Design elements, and 20%-30% of IP and Fabric that was reused. This model allowed third party IP vendors wearing the ...

Unlock the full InfoQ experience by logging in! Stay updated with your favorite authors and topics, engage with content, and download exclusive resources. In this episode, Thomas Betts chats with ...