Intel Foundry introduces Reference Workflows with Ansys, Cadence, Siemens, and Synopsys


June 25, 2024 by our News Team

Intel Foundry partners with Ansys, Cadence, Siemens, and Synopsys to provide reference flows and support for their embedded multi-die interconnect bridge (EMIB) technology, showcasing their commitment to collaboration and innovation in the AI systems market.

  • Collaboration with key partners Ansys, Cadence, Siemens, and Synopsys
  • Availability of reference flows for Intel's embedded multi-die interconnect bridge (EMIB) advanced packaging technology
  • Commitment to building a robust ecosystem for customers to achieve their AI systems goals


In a major development for Intel Foundry’s design ecosystem, 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 is a significant step forward for Intel Foundry, as it showcases the collaboration between Intel and its ecosystem partners to help customers achieve their AI systems ambitions.

Suk Lee, Vice President for Ecosystem Development at Intel Foundry, emphasized the importance of this news: “Today’s announcement demonstrates how Intel Foundry combines the best of Intel with the best of our ecosystem to support our customers in realizing their AI systems goals.”

The success of Intel Foundry lies in its collaboration with a vibrant design ecosystem. This collaboration ensures that customers have access to leading process and packaging technologies. By working closely with ecosystem partners, Intel Foundry aims to make the optimization, fabrication, and assembly of system-on-chip designs as easy and fast as possible through their foundries. They also provide designers with validated electronic design automation (EDA) tools, design flows, and intellectual property (IP) portfolios for silicon-through-package design.

This systems foundry approach enables customers to innovate at every layer of the stack to meet the complex computing demands of the AI era. With chip architectures increasingly relying on multiple CPUs, GPUs, and NPUs in a package to achieve performance requirements, it is crucial for companies to find new ways to innovate and extend Moore’s Law. The majority of chips are now designed with heterogeneous architectures, which is where Intel Foundry’s EMIB technology comes into play.

EMIB allows for cost-effective scaling to a larger silicon area by connecting multiple die in a single package. It simplifies the design process and offers flexibility. Intel Foundry has already successfully implemented EMIB in their own microprocessor products, such as the Intel GPU Max Series (code-named Ponte Vecchio), 4th Gen Intel Xeon and Xeon 6 processors, and Intel Stratix 10 FPGAs. The interest from foundry customers in this technology is growing rapidly.

Enabling customers to leverage this technology has been a top priority for Intel Foundry. They have been working closely with all the key EDA and IP partners to ensure that their heterogenous design tools, flows, methodologies, and reusable IP blocks fully support the use of EMIB packaging technology. This week, ecosystem partners made exciting announcements:

– Ansys is collaborating with Intel Foundry to deliver signoff verification of thermal and power integrity, as well as mechanical reliability of Intel’s EMIB technology across various heterogenous packaging platforms and advanced silicon process nodes.
– 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. Additionally, they certified Solido Simulation Suite 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, which accelerates the development of multi-die designs.

With these ecosystem products for silicon design on all Intel Foundry nodes, the EMIB-based package design enablement sets a solid foundation for their success as a systems foundry.

Intel’s role within the broader ecosystem has never been more critical in establishing stability and resiliency worldwide. The recent announcements highlight Intel Foundry’s commitment to building a robust ecosystem that includes foundational IP, system technology optimization, and EDA tools that fabless customers rely on to customize and accelerate their next-generation silicon products.

A strong IP and EDA ecosystem is essential for any foundry business. Intel Foundry recognizes this and ensures access to its leading-edge technologies through a wide range of design tools, flows, and reusable IPs for fabless customers to choose from. This collaborative approach is what sets Intel Foundry apart and positions them as a key player in the industry.

Intel Foundry introduces Reference Workflows with Ansys, Cadence, Siemens, and Synopsys

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Background Information


About Intel:

Intel Corporation, a global technology leader, is for its semiconductor innovations that power computing and communication devices worldwide. As a pioneer in microprocessor technology, Intel has left an indelible mark on the evolution of computing with its processors that drive everything from PCs to data centers and beyond. With a history of advancements, Intel's relentless pursuit of innovation continues to shape the digital landscape, offering solutions that empower businesses and individuals to achieve new levels of productivity and connectivity.

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About Synopsys:

Synopsys is a important American software company that specializes in electronic design automation (EDA) and semiconductor intellectual property. Founded in 1986, Synopsys provides tools and solutions for designing and testing complex integrated circuits and electronic systems. Their software aids in the development of semiconductors, electronic products, and software applications, playing a crucial role in advancing technological innovation across various industries. For more detailed information about their products and contributions, you can visit their official website at

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Technology Explained


EDA: EDA stands for Electronic Design Automation, and it refers to a category of software tools and solutions used in the design and development of electronic systems and integrated circuits. EDA tools assist engineers and designers in creating complex electronic designs, from individual components to entire systems, by automating various aspects of the design process. These tools encompass a wide range of functionalities, including schematic capture, simulation, layout design, verification, and testing.

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Foundry: A foundry is a dedicated manufacturing facility focused on producing semiconductor components like integrated circuits (ICs) for external clients. These foundries are pivotal in the semiconductor industry, providing diverse manufacturing processes and technologies to create chips based on designs from fabless semiconductor firms or other customers. This setup empowers companies to concentrate on innovative design without needing substantial investments in manufacturing infrastructure. Some well-known foundries include TSMC (Taiwan Semiconductor Manufacturing Company), Samsung Foundry, GlobalFoundries, and UMC (United Microelectronics Corporation).

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GPU: GPU stands for Graphics Processing Unit and is a specialized type of processor designed to handle graphics-intensive tasks. It is used in the computer industry to render images, videos, and 3D graphics. GPUs are used in gaming consoles, PCs, and mobile devices to provide a smooth and immersive gaming experience. They are also used in the medical field to create 3D models of organs and tissues, and in the automotive industry to create virtual prototypes of cars. GPUs are also used in the field of artificial intelligence to process large amounts of data and create complex models. GPUs are becoming increasingly important in the computer industry as they are able to process large amounts of data quickly and efficiently.

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Xeon: The Intel Xeon processor is a powerful and reliable processor used in many computer systems. It is a multi-core processor that is designed to handle multiple tasks simultaneously. It is used in servers, workstations, and high-end desktop computers. It is also used in many embedded systems, such as routers and switches. The Xeon processor is known for its high performance and scalability, making it a popular choice for many computer applications. It is also used in many cloud computing applications, as it is capable of handling large amounts of data and providing high levels of performance. The Xeon processor is also used in many scientific and engineering applications, as it is capable of handling complex calculations and simulations.

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