Development, Test & V&V

  • TTTech Aerospace’s development switches for the aerospace market are based on our core-technology TTEthernet® as well as AFDX®.

    • TTESwitch A664 Lab v2.0

      The switch supports laboratory testing and development efforts for non-real-time to hard real-time operations in distributed systems.

    • AFDXSwitch Lab v2.0

      The AFDXSwitch Lab v2.0 is identical to the TTESwitch A664 Lab v2.0, which fully supports AFDX® and includes features like traffic policing and frame filtering functions as well as integrity and error checking of frames.

    • Arion IP Evaluation Platform Front
      Arion IP Evaluation Platform

      Ethernet switch IP core technology demonstrator based on a proven aerospace Ethernet switch IP designed for critical, integrated applications in the aerospace sector.

  • The TTEthernet® based end system cards in various form factors enable safety-critical data transfer. These products support Ethernet (IEEE 802.3), ARINC 664 part 7 and SAE AS6802.

    • TTEEnd System A664 Lab

      This high-performance card for development and laboratory environments supports three standard traffic classes and is available in PMC, PCI, XMC and PCIe form factor.

    • TTENetwork Interface Cards

      This mezzanine card for network communication combines standard IEEE 802.3 Ethernet with time-triggered capabilities (SAE AS6802) for the development of safety-critical applications.

  • TTTech Aerospace offers development systems based on the time-triggered technology TTEthernet® as well as development hardware based on the time-triggered protocol TTP®.

    • TTE-Development System A664 v4.3 for Linux
      TTEDevelopment System A664 for Linux

      The TTEDevelopment System A664 for Linux provides a starter kit for customers to familiarize themselves with TTEthernet® products and their integration. TTEthernet enables real-time and non real-time Ethernet communication on the same physical network using different quality-of-service traffic classes.

    • TTEDevelopment System A664 for VxWorks 653

      This development system supporting the ARINC 653 interface is a starter kit for integrating TTEthernet®’s deterministic network technology with the operating system VxWorks 653.

    • TTPPowernode

      Basic prototyping module with TTP® controller and processor hosts for developing deterministic distributed systems.

    • TTPPowerlink

      This prototyping card with stackable on-board modules for microprocessor, communication and physical layer provides flexibility and modularity in prototyping and evaluating.

    • TTPDevelopment Cluster

      The TTPDevelopment Cluster is a solution for rapid prototyping of modular and distributed integrated systems based on TTP®.

  • Our test hardware is based on the time-triggered protocol TTP® and includes the TTPMonitoring Node, the TTPSimulate PCI and the TTPSimulate XMC/PCIe.

    • TTPMonitoring Node

      This standalone TTP®/Ethernet gateway from TTTech for monitoring and downloads of network data to a TTP network uses an embedded real-time Linux variant.

    • TTPSimulate XMC/PCIe

      TTPSimulate is a high-performance test system which enables the simulation of up to 4 TTP® nodes in real-time, supporting speeds of 4 Mbit/s and 20 Mbit/s.

    • TTPSimulate PCI

      The TTPSimulate PCI is a high-performance test system supporting hardware-in-the-loop simulation and design of complex distributed control systems.

  • Our middleware helps to expand the benefits of Integrated Modular Avionics from the module-level to the system-level without any change of legacy applications.

    • TTESync for VxWorks 653

      This component allows tight synchronization of VxWorks 653 partitions to the fault-tolerant system-wide clock of the TTEthernet® communication network.

    • TTECOM A653 for VxWorks 653

      The TTECOM Layer ARINC 653 for controlling ARINC 653 IMA systems offers a powerful interface to applications running on TTEthernet®-based networks.

  • TTTech Aerospace’s development tools for the aerospace market are based on our core technologies TTEthernet® and TTP® and include the solutions Load, View, Build and Plan.

    • TTEPlan

      TTEPlan is a TTEthernet®/AFDX® network design tool. Based on input provided as a system specification XML database, the TTEPlan tool creates the network configuration in a user-convenient way.

    • TTEBuild

      TTEBuild allows converting XML-based device configuration database files into binary configuration images required by TTESwitches and TTEEnd Systems.

    • TTELoad

      TTELoad is a Windows application suitable to configure a TTEDevelopment Switch based on TTTech's TTEthernet® switch IP that also supports bootstrap configurations of TTESwitches.

    • TTPPlan

      TTTech’s TTPPlan is a cluster design tool for definition and planning of communication in integrated system architectures based on TTP®.

    • TTPBuild

      TTPBuild from TTTech is an efficient design tool that automatically creates a framework for software application design on one module or control unit.

    • TTPLoad

      TTPLoad downloads application and system configuration data from a PC and sends it to a TTP® network over an Ethernet/TTP gateway. It also allows quick system reconfiguration.

    • TTPView

      TTPView is a tool for the monitoring and analysis of messages and frames sent among modules in a TTP® network featuring flexible visualization instruments for reliability.

  • TTTech Aerospace’s verification tools for the aerospace market are based on our core-technologies, TTEthernet® and the time-triggered protocol TTP®.

    • TTEVerify

      TTEVerify is a DO-330 qualified verification tool chain for automating reviews of configuration implementations against their requirements for each level.

    • TTPTD-COM Verify

      This solution speeds up the verification process of parameter design and changes for TTPTD-COM layer and allows lower reconfiguration and certification costs.

    • TTPVerify

      TTTech Aerospace’s TTPVerify enables automatic verification of system and network design parameters and is designed as DO-178B Level A verification tool.