- #SWITCHED ETHERNET TESTING HOW TO#
- #SWITCHED ETHERNET TESTING VERIFICATION#
- #SWITCHED ETHERNET TESTING WINDOWS#
#SWITCHED ETHERNET TESTING WINDOWS#
HCK client: Also known as the SUT (system under test), this machine would run the latest version of the Windows Operating system and should be reachable on both switches on the management port. HLK controller: The HLK controller machine runs Windows Server 2012 R2 and coordinates certification testing. Listed below are the different roles of the machines that would be participating in the logo tests:
The diagram below describes the test topology that is used to perform the certification tests. Machine requirements for certification testing Test topology
#SWITCHED ETHERNET TESTING HOW TO#
Topics include Ethernet-CAN/Flexray coexistence, automotive protocols including SOME/IP, ADAS, time-aware shaping including IEEE 802.1Qbv, stream reservation including IEEE 802.1Qav, and testing time synchronization (IEEE 802.1AS), AVB standards (IEEE 802.1Qat, IEEE 802.1Qav), and TSN standards (like IEEE 802.1Qbv, IEEE 802.1Qci, IEEE 802.1CB).This topic describes how to successfully run the Network Switch Certification tests. In this paper, we’ll look at examples in both automotive and industrial networks that highlight the need for more comprehensive testing and introduce an effective validation solution.
Whether a traffic mix that includes car diagnostics, engine control systems, and body electronics or robotics, motors, sensors, and switches-only with real-world test workloads can you verify that your network meets the needs of each application. Today’s automotive Ethernet and industrial Ethernet networks have entered a new phase that requires a new type of testing-one that includes system-level validation that uses realistic application mixes.
With maturity and wide adoption of technologies like audio video bridging (AVB) and time-sensitive networking (TSN), companies must now move beyond standards and interoperability validation.