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Validating Automotive Ethernet Conformance and Performance

Case Studies

 Validating Automotive Ethernet Conformance and Performance

To overcome in-car network speed challenges, the BMW Group released the world’s first vehicle with Ethernet in 2008 and added more in-car communication on Ethernet in 2013. To make the additional features in 2013 possible, a new physical layer for Ethernet was created that was more suitable for automotive electro-magnetic interference (EMI) requirements. This version, standardized in IEEE as 100BASE-T1, runs over one single twisted pair, compared to traditional copper Ethernet that runs over two or four pairs, depending on link speed.

Defining a new communication network so different than existing automotive networks brings huge challenges. Adding to the challenges of validating this new physical layer, the BMW Group had a paradigm change in network design to deal with – automotive networks are moving from a bus or ring topology, from technologies like CAN/FlexRay or MOST to a star topology that is achieved with Ethernet switches. And besides testing the actual network itself, one needs to ensure that automotive electronic control units (ECUs) properly implement the higher layers that traditionally run over Ethernet (the TCP/IP stack), new protocols that had been adapted for automotive use such as Audio Video ridging (AVB), as well as new automotive-specific protocols like SOME/IP.

VALIDATING AUTOMOTIVE ETHERNET

There are four classes to validate automotive Ethernet:

  1. PHY or physical layer validation, for which tests are usually run for days or weeks
  2. Validation of multiple PHYs in an ECU – an implementation of classic Ethernet switch
  3. Validation of conformance for the various protocols used in the ECU
  4. Validation of deployed networks and debugging using automotive data loggers

Because Ethernet is a switched network, it opens up a lot of flexibility compared to traditional automotive busses when it comes to network design. The majority of the automotive ECUs in production have multiple ports, which allows them to connect to other ECUs. For such an ECU, it’s very important to validate that incoming frames are forwarded on the correct ports under all conditions.

IxNetwork, Ixia’s flagship product for Layer 2-3 network testing is a tool to validate automotive Ethernets. IxNetwork relies on hardware purpose-build to generate and measure traffic at line rate on hundreds of Ethernet ports. Even though speeds in the automotive field are not currently very high (100Mbps and 1Gbps), to test the performance and robustness of such switches, the BMW Group must be able to very accurately and predictably generate both expected and unusual traffic patterns for the car network, all using standard defined tests like RFC 2544 or RFC 2889. IxNetwork predictably and precisely generates traffic on multiple ports, which allows the customer to discover and reliably reproduce any network problems found.

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