DFT of Advanced Router for IoT Devices

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DFT of Advanced Router for IoT Devices

Executive Summary

The Internet of Things is the network of physical objects that contain embedded technology to communicate with their internal states or external environment. A sharp surge in IoT devices is predicted this year, requiring an intelligent network supporting high speed and performance.

The customer’s next-gen router for IoT devices will handle 600million packets per second through advanced ASIC and offers high availability, exceptional performance and high density ideal for high speed data centers.

Our client designed a networking chip with 28nm technology node and wanted to make sure that it gets through the right DFT processes before the tape out. eInfochips Design-ForTestability (DFT) experts helped customer in migrating to new flow methodology with highquality timely deliverables.

Project Highlights

  • Highest switching capacity: 83 Tbps
  • 28nm Technology Node, TSMC
  • ~200Mn gate count, 300+Pin count
  • DFT Complexity: 10 Mn.+ Scan cell
  • 100X Compression Ratio

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    Executive Summary

    The Internet of Things is the network of physical objects that contain embedded technology to communicate with their internal states or external environment. A sharp surge in IoT devices is predicted this year, requiring an intelligent network supporting high speed and performance.

    The customer’s next-gen router for IoT devices will handle 600million packets per second through advanced ASIC and offers high availability, exceptional performance and high density ideal for high speed data centers.

    Our client designed a networking chip with 28nm technology node and wanted to make sure that it gets through the right DFT processes before the tape out. eInfochips Design-ForTestability (DFT) experts helped customer in migrating to new flow methodology with highquality timely deliverables.

    Project Highlights

    • Highest switching capacity: 83 Tbps
    • 28nm Technology Node, TSMC
    • ~200Mn gate count, 300+Pin count
    • DFT Complexity: 10 Mn.+ Scan cell
    • 100X Compression Ratio

    To read more, download the copy

    arrows-new-1

    To download this resource

    Fill in the details below






      I have read and understand the Privacy Policy By submitting this form, I acknowledge that I have read and understand the Privacy Policy

      I wish to be contacted by eInfochips I wish to be contacted by eInfochips

      For all career related inquiries, kindly visit our careers page or write to career@einfochips.com

      Executive Summary

      The Internet of Things is the network of physical objects that contain embedded technology to communicate with their internal states or external environment. A sharp surge in IoT devices is predicted this year, requiring an intelligent network supporting high speed and performance.

      The customer’s next-gen router for IoT devices will handle 600million packets per second through advanced ASIC and offers high availability, exceptional performance and high density ideal for high speed data centers.

      Our client designed a networking chip with 28nm technology node and wanted to make sure that it gets through the right DFT processes before the tape out. eInfochips Design-ForTestability (DFT) experts helped customer in migrating to new flow methodology with highquality timely deliverables.

      Project Highlights

      • Highest switching capacity: 83 Tbps
      • 28nm Technology Node, TSMC
      • ~200Mn gate count, 300+Pin count
      • DFT Complexity: 10 Mn.+ Scan cell
      • 100X Compression Ratio

      To read more, download the copy

      arrows-new-1

      To download this resource

      Fill in the details below






        I have read and understand the Privacy Policy By submitting this form, I acknowledge that I have read and understand the Privacy Policy

        I wish to be contacted by eInfochips I wish to be contacted by eInfochips

        For all career related inquiries, kindly visit our careers page or write to career@einfochips.com