從微米到英里：英特爾互連技術的虛擬簡報

Table of Contents:

1. 👥 Introduction
2. 💡 Intel's Interconnect Story
3. 🔍 The Importance of Interconnects Today
4. 🌐 Intel's Portfolio of Interconnects
   1. 💻 Micron-Level Interconnects: EMIB and Foveros
   2. 💻 Client-Level Interconnects: USB, Thunderbolt, and PCI Express
   3. 🖥️ Data Center-Level Interconnects: Barefoot Networks, Ethernet, and Habana
   4. 📶 5G Interconnects: Edge Computing and Wireless Spectrum
   5. 📈 Intel's Comprehensive Interconnect Portfolio and Roadmap
5. 🌟 Conclusion
6. 🌐 Resources

👥 Introduction

Welcome to the Microns to Miles Virtual Briefing Series brought to you by Intel. In this series, we will explore Intel's interconnect technologies and how they are shaping the future of connectivity. Join us as we dive into the world of Intel's interconnects and discover their importance in today's data-centric era.

💡 Intel's Interconnect Story

In this section, we will introduce you to Hong Hou, the vice president and general manager of Intel's DPG Connectivity Group, who will share Intel's interconnect story. We will discuss the evolution of interconnects and how Intel has been at the forefront of developing industry-leading standards such as Ethernet, PCI, and USB.

🔍 The Importance of Interconnects Today

Data has become the lifeblood of our digital age, with an exponential growth in data generation. However, only a small percentage of this data has been analyzed or processed. In this section, we will explore why interconnects are crucial in moving and processing data efficiently. We will also discuss the immense opportunities that lie ahead in terms of compute capabilities and the need for robust interconnect solutions.

🌐 Intel's Portfolio of Interconnects

In this section, we will take an in-depth look at Intel's comprehensive portfolio of interconnects. Starting at the micron level, we will discuss technologies such as EMIB (Embedded Multi-Die Interconnect Bridge) and Foveros, which enable high-speed data transfer between chip components. Moving up the Scale, we will explore client-level interconnects like USB, Thunderbolt, and PCI Express, which have evolved to meet the increasing demands of compute systems. We will then shift our focus to data center-level interconnects such as Barefoot Networks, Ethernet, and Habana, and discuss their roles in the growing AI and neural network domains. Lastly, we will delve into Intel's 5G interconnect strategy, which includes edge computing technologies and the utilization of the wireless spectrum.

💻 Micron-Level Interconnects: EMIB and Foveros

At the micron level, Intel employs advanced packaging techniques like EMIB and Foveros to enable high bandwidth pathways between dies. We will explore how these technologies enhance connectivity and provide design flexibility for new device form factors such as Lakefield.

💻 Client-Level Interconnects: USB, Thunderbolt, and PCI Express

As we scale up to the client level, we will witness the transformation of foundational interconnects like USB into Thunderbolt and PCI into PCI Express. We will discuss the role of these interconnects in meeting the diverse connectivity needs of modern computing systems, including the introduction of Compute Express Link (CXL).

🖥️ Data Center-Level Interconnects: Barefoot Networks, Ethernet, and Habana

In the data center and disaggregated compute ecosystem, interconnects play a crucial role in enabling flexible pipelines for compute and storage. We will explore how Barefoot Networks' programmable switch technology, in conjunction with Intel Ethernet and silicon photonics links, empowers various use cases in the data center. Additionally, we will discuss how Habana's AI-focused products contribute to Intel's developing AI story.

📶 5G Interconnects: Edge Computing and Wireless Spectrum

With the advent of 5G, the need for efficient interconnects in edge computing and wireless communication becomes paramount. We will highlight the importance of these interconnects and explore their applications in augmented reality, virtual reality, and other emerging use cases.

📈 Intel's Comprehensive Interconnect Portfolio and Roadmap

Intel takes pride in its extensive interconnect portfolio and roadmap. In this section, we will examine how different interconnect technologies seamlessly integrate across various divisions within Intel. We will also discuss Intel's vision for the future, including the transition to optical I/O and the concept of a programmable platform for networks.

🌟 Conclusion

In this virtual briefing series, we have explored the world of Intel's interconnects and their significance in today's data-centric era. From micron-level to miles-level interconnects, Intel's portfolio encompasses a wide range of solutions catering to diverse computing needs. The exponential growth of data presents immense opportunities for interconnect technologies, and Intel is at the forefront of developing innovative solutions to meet these demands.

🌐 Resources

To learn more about interconnects and Intel's interconnect story, please visit Intel's dedicated interconnect webpage.

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🌟 Highlights:

• Intel's comprehensive portfolio embraces interconnects at micron, client, data center, and 5G levels 🌐
• Micron-level interconnects include EMIB and Foveros technologies for high-speed data transfer 💻
• USB has evolved into Thunderbolt, while PCI has grown into PCI Express for diverse connectivity needs 💻
• Data center-level interconnects involve Barefoot Networks, Ethernet, and Habana technologies for flexibility and AI-focused applications 🖥️
• 5G interconnects encompass edge computing and wireless spectrum utilization to enable emerging use cases like AR and VR 📶
• Intel's interconnect strategy emphasizes a comprehensive portfolio and a transition to optical I/O and programmable platforms 📈

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FAQ:

Q: What are interconnects? A: Interconnects are technologies that facilitate the transfer of data between various components within a computing system. They play a crucial role in ensuring efficient and high-speed communication between different parts of a system.

Q: Why are interconnects important today? A: Interconnects are essential in today's data-centric era as they enable the movement and processing of massive amounts of data. With the exponential growth of data generation, interconnects are crucial in unlocking the full potential of data analysis and computational capabilities.

Q: How does Intel contribute to the development of interconnect technologies? A: Intel has a long history of leading the industry in developing interconnect standards such as Ethernet, PCI, and USB. With its comprehensive portfolio and roadmap, Intel continues to innovate and create interconnect solutions that meet the evolving demands of modern computing systems.

Q: What are some examples of Intel's interconnect technologies? A: Intel offers a wide range of interconnect technologies, including EMIB and Foveros for micron-level interconnects, USB and Thunderbolt for client-level interconnects, Barefoot Networks and Ethernet for data center-level interconnects, and edge computing and wireless spectrum utilization for 5G interconnects.

Q: How does Intel envision the future of interconnects? A: Intel is committed to the vision of a comprehensive and programmable interconnect portfolio. With advancements in optical I/O and programmable platforms, Intel aims to provide hardware-level performance coupled with software-level innovation, enabling end-to-end applications and creating a truly connected world.