Choosing a Single Board Computer: Top 8 Considerations

September 15, 2014 | BY: Gregory Sikkens, Mike Slonosky

Choosing the right single board computer (SBC) for an application requires many considerations. Following are the eight most important factors to address in your SBC selection process:

  1. Power - Choose an SBC that matches the power requirements for the specific application. As a complement to power, make sure the thermal management capabilities of the system are up to the task of cooling the chosen SBC for the system.
  2. Form Factor - Important in any decision is the form factor of available SBCs. Form factors common in COTS embedded SBCs are: VME, VPX, CompactPCI and ComExpress. In the past 6U VME has been the most commonly used, but that is slowly changing to VPX, with increased interest in 3U for SWaP reasons.
  3. Backward pin compatibility - When choosing an SBC to be used for technology insertion in an existing system (either for obsolescence or increased performance reasons), make sure it is designed for the specific pinout of the existing backplane so as to avoid having to redesign or replace the backplane. Curtiss-Wright Defense Systems differentiates itself in the embedded systems market by maintaining consistent pinout. Curtiss-Wright can also create variants of it's SBCs to match the pin out requirements of existing systems.
  4. Processor choice - The three primary choices seen in the embedded COTS market place are Intel, Power Architecture, and more recently ARM. Many customers choose a certain type of processor because of their experience in working with it, but the application may dictate a leaning to one over the other. Some of the considerations that follow will also influence processor choice.
  5. Memory - With advancing technology, memory requirements have increased dramatically. Ten to 12 years ago, 512 MB of memory was considered sufficient. And a gigabyte of memory was unheard of. Today many Intel processors offer 16 to 32 GB of memory. The memory demand of an application can influence the processor choice. For instance, compared to Intel, Power Architecture and ARM typically offer less memory and with that less power.
  6. Operating system - Operating systems many impact the processor and SBC choice due to availability on the chosen SBC. Typical OS-es available for embedded use are: Linux (of which there are many versions), INTEGRITY, GreenHills LynxOS, QNX, and Wind River VxWorks. A variety of processors support Linux. But not all processor families are capable of supporting the design tools of Wind River VxWorks 5.5 for developing safety and mission-critical applications certified to standards such as RTCA DO-178B/C, EUROCAE ED-12B/C and IEC 61508. For applications requiring these safety and mission-critical certifications choices include DDC-I Deos, GreenHills INTEGRITY-178, Lynx Software LynxOS-178 or Wind River VxWorks 653.
  7. I/O complement - For a particular application, an SBC must provide the right I/O complement in the right types and quantities, such as Ethernet, DIO, SATA, USB, serial ports (232, 422, 485) as well as board interconnect (VME, SRIO, PCIe, Ethernet). Related to this consideration is available support for add-on of a mezzanine card to expand on I/O not provided by the base SBC.
  8. Performance - Application requirements vary vastly from low performance (and with that low power), to extremely high performance applications like SigInt with terrflops of processing requirements. Choose your processor wisely, as there's no need to pay for more performance and power than the application calls for.

Using these considerations, the Curtiss-Wright team can help you find the right SBC to meet your program requirements.


Author’s Biography

Gregory Sikkens

Senior Product Manager, Graphics, Safety Certifiable & ARM Single Board Computers

During his 28 years at Curtiss-Wright, Gregory's current role as Senior Product Manager includes the product lines of: Graphics, ARM Single Board Computers and Safety Certifiable COTS boards. Previously, Gregory also held roles as product development manager, software team lead, and test/ILS engineering. Gregory has a Microcomputer Engineering Technologist degree from St. Lawrence College.

Author’s Biography

Mike Slonosky

Senior Product Manager, Power Architecture and Arm SBCs

Michael Slonosky is the Product Manager for Power Architecture Single Board Computers in the C4 Solutions group at Curtiss-Wright. He has been with Curtiss-Wright for 13 years after spending over 20 years in the telecom industry. Mike is a graduate of the University of Manitoba with a Masters of Science in Electrical Engineering.

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