Real-Time Communication - Industrial Embedded Systems

1. Real-Time Communication - Industrial Embedded Systems Hoai Hoang, Magnus Jonsson School of Information Science, Computer and Electrical Engineering, Halmstad University, Sweden

2. Problem statement • Embedded systems become more complex • Increase the demand on heterogeneity, QoS • Low down the cost: installation, maintenance ERIEYE radar system (EMW) Switch Real-Time Ethernet for Industrial Applications

3. Developing Real-time services over System Area Networks using Switch Ethernet Support special traffic pattern for embedded system Find the communication solution: Meet real-time demand Guarantee network’s performances Main research's goals Switch Real-Time Ethernet for Industrial Applications

4. Using pure switched base network Increase heterogeneity, performance... Support time-critical applications Focus on real-time service in industrial and embedded system. Provide both real-time and non-real-time traffic Project overview Switch Real-Time Ethernet for Industrial Applications

5. Related work Real-time traffic handling Coordination ofmany-to-manycommunication etc Switched Full-Duplex Real-Time Ethernet Network Switch Real-Time Ethernet for Industrial Applications

6. Previous result • Proposed method for distribution end-to-end deadline for messages • Improve network performances special master-slave communication Switch Real-Time Ethernet for Industrial Applications

7. Previous result 75 % more channels using asymmetric deadline partitioning for a network with 10 master nodes and 50 slave nodes. Each channel i is characterized by Ci=3, Pi=100, Di=40 Switch Real-Time Ethernet for Industrial Applications

8. Real-time over WANs • Extend the network topology • More switches in the network • Multihop network • Guarantee real-time communication over WANs Switch Real-Time Ethernet for Industrial Applications

9. Sender, Receiver Deadline (relative): End-to-End (D) Node-to-Node (Dj) Minimum (minDj) The RTC feasible If Real-time over WANs Switch Real-Time Ethernet for Industrial Applications

10. Slack can occur Question: What the system do with the slack? Real-time over WANs Switch Real-Time Ethernet for Industrial Applications

11. Ferrari and Verma: Divide it equally between the Node-to-Node deadlines of the channel: We divide it such that links with a history of “demanding traffic” gets more: Real-time over WANs Switch Real-Time Ethernet for Industrial Applications

12. We want to see if our approach is better, in the sense that more real-time traffic can be feasible schedule. For what kind of topologies? Under what kind of traffic patterns? Real-time over WANs Switch Real-Time Ethernet for Industrial Applications

13. Problem: The SAN standards do not deliver this real-time multi-service functionality as is. At the same time the industry has to cope with complex designs, high engineer efforts and high product costs when forced to use several service-specific networks in the same application. Real-time over SAN - Future works Emerging SAN (and LAN) standards Real-time services • Normal data exchange • Synchronization of software processes • Real-time debugging • Clock synchronization • Group communication (many-to-many etc) • etc Single real-timemulti-service SANin each application Switch Real-Time Ethernet for Industrial Applications

14. Heterogeneous communication Heterogeneous network Heterogeneous services Example: Radar signal processing systems Control traffic, periodic with a master-slave pattern and delay-bound Data traffic (radar data), periodic with a very high bit-rate and a partially pipelined data flow. Probabilistically guaranteed delay-bound Other non-real-time traffic Real-time over SAN - Future works Switch Real-Time Ethernet for Industrial Applications