SCFE6933 Rad-Tolerant ACAP Processing Board

Bringing high-performance processing to orbit

COTS 6U SpaceVPX processing board powered by the AMD® Versal® AI 

The rad-tolerant SCFE6933 employs the latest commercial heterogeneous processing engines to collect and process more sensor data at the edge, faster, for a clearer picture of the mission environment and real-time decision-making.The FPGA resources increase processing by 20x and the software programmability afforded by them allow for application-specific changes or augmentation while in orbit, crucial to system longevity and adaptability.

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Mercury Systems SCFE6933 Rad-Tolerant ACAP Processing Board

Performance & Adaptability

20x
Faster FPGA
24 GB
Memory
>30
TID (krad)
>45
SEL (MeV-cm^2/mg)
FeaturesSpecificationsResources
Features
  • Designed for LEO, MEO, GEO, HEO
    satellites and deep space missions
  • AMD Versal AI Core ACAP processor
  • SpaceVPX compliant for ease of integration
  • Fiber-optic interfaces to maximize bandwidth

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Specifications

Physical

  • Single-slot 6U VPX form factor
  • Compliant with the VITA 78 SpaceVPX
    standard
  • Up to 16 Rx/Tx mid-board fiber
    transceivers

Backplane Interface

  • VITA 78 slot profile:
    SLT6-PAY-4F1Q2T-10.2.1
  • VITA 66.x capable on P6
  • AMD Versal AI Core VC1902 ACAP,
    which contains 1,968 DSP58 engines

 

Memory

  • 24 GB of DDR4 SDRAM

Radiation Tolerance

  • Single Event Latch-up (SEL): > 45 MeV/mg/cm2
  • Total Ionizing Dose (TID): > 30 krad

Other

  • Space-qualified
  • Vita 46.11 IPMI controller
  • Sensor interface to monitor
    temperature, voltage
  • Power sequencing
  • Secure JTAG
  • Manufactured in an AS9100D facility

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Resources

Resources

Product Guide

Product Guide: Space-Qualified Microelectronics

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BLOG

Microelectronics Powering the New Space Economy

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CASE STUDY

Case Study: Mercury and NASA SSDR

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MODULAR OPEN SYSTEM ARCHITECTURES

Deploy and Upgrade Technology at the Speed of Relevance

Our design methodology incorporates modular open system architectures (MOSA) and industry standards, such as OpenVPX™ and SOSA™, so you can deploy and refresh the latest technology quickly to adapt to evolving threats, while maintaining interoperability across domains. 

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