Building Intel’s Foundry Ecosystem for the AI Era

A person in protective gear inspects a large wafer in a cleanroom environment. The wafer reflects the light and has a copper-toned surface. The setting is a semiconductor manufacturing facility.

A photo shows an Intel wafer featuring Intel’s embedded multi-die interconnect bridge (EMIB) advanced packaging technology at Intel's Assembly and Test Technology Development factories in Chandler, Arizona, in July 2023. Intel’s advanced packaging technologies come to life at the company's Assembly and Test Technology Development factories. (Credit: Intel Corporation)

Intel Foundry ecosystem partners add reference flows for Intel’s EMIB advanced packaging technology

What’s New: Today marks a new milestone in the growth of Intel Foundry’s design ecosystem as key partners Ansys, Cadence, Siemens, and Synopsys have announced the availability of reference flows for Intel’s embedded multi-die interconnect bridge (EMIB) advanced packaging technology. This comes on the heels of recent announcements where those same partners declared readiness for Intel 18A designs.

“Today’s news shows how Intel Foundry continues to combine the best of Intel with the best of our ecosystem to help our customers realize their AI systems ambitions.”

–Suk Lee, vice president for Ecosystem Development, Intel Foundry

Why It Matters: The success of Intel Foundry is rooted in collaboration with a vibrant design ecosystem. This ensures customers can access our leading process and packaging technologies.Now, in collaboration with our ecosystem partners, we are making it as easy and as fast as possible for companies to optimize, fabricate and assemble their system-on-chip designs through our foundries, while enabling their designers with validated EDA tools, design flows and IP portfolios for silicon-through-package design. This systems foundry approach allows our customers to innovate at every layer of the stack so they can meet the complex computing demands of the AI era, where chip architectures increasingly rely on multiple CPUs, GPUs and NPUs in a package to achieve performance requirements.

How It Works: As companies look for new ways to innovate and extend Moore’s Law, we’re now seeing a majority of chips designed with heterogeneous architectures. Intel Foundry developed a groundbreaking approach called EMIB that makes it possible to cost-effectively scale to a larger silicon area by connecting multiple die in a single package. EMIB is a cost-effective approach that simplifies the design process and offers design flexibility. Our EMIB technology has already been proven in Intel’s own cutting-edge microprocessor products such as Intel® GPU Max Series (code-named Ponte Vecchio), 4th Gen Intel® Xeon® and Xeon 6 processors, and Intel Stratix® 10 FPGAs. We’re seeing growing interest from foundry customers as well.Enabling customers to leverage this groundbreaking technology has been a priority. Intel Foundry has been working with all the key EDA and IP partners to ensure that their heterogenous design tools, flows and methodologies and reusable IP blocks are fully enabled and qualified to support customers who want to use our differentiated EMIB packaging technology for their projects. Announcements from our ecosystem partners this week include:

 

  • Ansys is collaborating with Intel Foundry to deliver signoff verification of thermal and power integrity and mechanical reliability of Intel’s EMIB technology spanning advanced silicon process nodes to various heterogenous packaging platforms.
  • Cadence announced the availability of a complete EMIB 2.5D packaging flow, digital and custom/analog flows for Intel 18A, and design IP for Intel 18A.
  • Siemens also announced the availability of an EMIB reference flow for Intel Foundry’s customers. This is in addition to their announcement of Solido™ Simulation Suite certification for custom IC verification on Intel 16, Intel 3, and Intel 18A nodes.
  • Synopsys announced the availability of its AI-driven multi-die reference flow for Intel Foundry’s EMIB advanced packaging technology, accelerating the development of multi-die designs.

 

Combined with ecosystem offerings for silicon design on all Intel Foundry nodes, EMIB-based package design enablement through the ecosystem helps set a solid foundation for our success as a systems foundry.

More Context: Intel’s role within the broader ecosystem has never been more critical in re-establishing stability and resiliency around the world. This week’s announcements demonstrate Intel Foundry’s commitment to building a robust ecosystem that already includes the foundational IP, system technology optimization, and EDA tools foundry customers rely on to customize and accelerate their next-generation silicon products.

A robust IP and EDA ecosystem is vital to any foundry business. And Intel Foundry – through the collaboration with companies like Synopsys, Siemens, Cadence and Ansys – is ensuring access to its leading-edge technologies, via the broadest possible ecosystem of design tools, flows, and reusable IPs for fabless customers to choose from.