KEY CHALLENGES:

Reliable data transfer is critical in many applications to ensure data movement through the system.

Redundant links:

  • Prevent critical system shut down
  • Key where time sensitive data can cause a safety issue or financial loss.
  • Help ensure transient data which cannot be stored or retransmitted is not lost, such as in high-speed data acquisition

Redundancy may be required over a cable, backplane or a printed circuit board, and some systems may require multiple levels of redundancy. The below diagram illustrates a typical application, showing a “2×2” redundant switch plus line card solution.

KEY SYSTEM CONSIDERATIONS:

  • Support industry communication standards
  • Protocol independent data payloads
  • Strong signal integrity ensuring reliable data transfer
  • Support Forward Error Correction (FEC) to significantly reduce the number of missed packets and data retransmission requests.
  • Package and power options supporting line card, daughter card and module applications are integral to system power and heat issues

THE MOSYS SOLUTION:

The MoSys MSH420 device is the best fit for redundant systems.

  • Supports critical industry standards, such as:
    • IEEE and OIF 10G, 25G, 40G and 100G standards
    • Protocol independent payload supports Datacom, Telecom, Storage applications
    • Forward Error Correction (FEC) payload support allows direct connection to 25G and 100G optical standards requiring RS-FEC (e.g. SR/SR4, CWDM, PSM4)
  • Independent PLLs per lane support different data rates within a single device
  • Signal integrity is key to ensuring reliable transfer of data
    • MoSys self-adapting RX equalizers for ease of connection
    • Reduce board design and bring-up time by eliminating per-lane “tuning”
  • Reduces the number of missed packets or data retransmission
  • Package and power options for line card, daughter card, and module applications
    • Board power is always an issue in a system. The MSH420 has the lowest power/performance ratio
  • Up to 5, bidirectional, Redundant Link Mode channels in a single MSH420 device
  • Cost/performance must be considered in any system design:
    • Some devices in volume at less than $50 each

KEY POINT SUMMARY:

  • Adherence to industry standards for interoperability with other available industry devices
  • Strong signal integrity and package/power options support cable, backplane, printed circuit boards and module level solutions.
  • Redundant links and FEC can significantly reduce data loss and retransmission, while improving system uptime and availability

TYPICAL APPLICATIONS:

  • High-reliability control environments
  • Data loss prevention in critical systems
  • High-availability systems
  • Financial transaction execution

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