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SDL & Requirements of Signalling Systems

SDL & Requirements of Signalling Systems. William H. Skelton SOLINET, Stuttgart. Contents. Background Signalling Requirements Possible Evolution. SDL History. Origins as a graphical representation Mapping from presentation to execution Enhanced to ‚compete‘ with C++ & OO Consolidation

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SDL & Requirements of Signalling Systems

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  1. SDL & Requirements of Signalling Systems William H. Skelton SOLINET, Stuttgart

  2. Contents • Background • Signalling Requirements • Possible Evolution

  3. SDL History • Origins as a graphical representation • Mapping from presentation to execution • Enhanced to ‚compete‘ with C++ & OO • Consolidation • Market forces • Technology management

  4. SDL Strong Points • Graphical Representation • Intuitive, easy to learn • System Organisation & Execution Flow • Concept of States & Signals • FSM specific • Simplifies validation & diagnosis

  5. SDL Weak Points • Complexity affects tools & users • Tools are complex • Users need skill profiles • SDL, TTCN & MSC evolved separately • Validation & Maintenance out of scope • C, C++, C#, Java have evolved faster • Commercial tools are more powerful

  6. Signalling Systems • Based on FSMs • Independent specialist domain • High reliability • Intense competition • Wide-range of applications • Communicating embedded systems • Relatively long life-cycle

  7. Typical SDL Functionality • Hierarchical Instantiation & Connectivity • Static, not dynamic • States, Signals, Timers, Variables • Types (Bit Oriented & ASN.1) • Encoding, decoding & formatting

  8. Work Processes • Implementation • Implement, Validate, Maintain • Specify, Design, Code, Execute • Validation • Specify, Design, Code, Execute • Maintenance • Diagnose, Analyse, Implement, Validate

  9. Information Content • Implementation • Intended behaviour • Validation • Expected behaviour • Actual behaviour under test • Maintenance • Actual behaviour in live use

  10. Information Reuse • Implementation • Component libraries (stacks, types) • Validation • Interfaces (Signals, Parameters) • Preambles, postambles, procedures • Subset of intended behaviour • Maintenance • Subset of intended behaviour

  11. Methodology Overlap • Implementation SDL (& MSC) • Validation TTCN (& MSC) • Maintenance MSC • SDL, TTCN, MSC Overlap • Information reuse is not implicit • Format conversion needed • De facto isolation of work processes

  12. Typical TTCN Functionality • As per SDL plus • Test Suites • Structure & Test Purposes • Constraints • Expected values for received parameters • Verdicts • Pass, Fail, Inconclusive

  13. Typical MSC Functionality • As per SDL (sub-set) plus • Signal transmission order • Parameters • Timing • Strong potential for automated checks • Link actual and intended behaviour

  14. Possible Evolution • Markets are driving evolution • Survival of most efficient technology • Efficient technology needs efficient tools • Efficient tools need efficient methodologies • Convergence of Methodologies • Implementation, validation & maintenance • MSC & TTCN overlap strongly with SDL • UML may be a wrapper for SDL

  15. Outlook • SDL ‘03 Conference • Stuttgart, 1st-4th July 2002 • Back to Basics • Telecoms & Automotive Applications • SDL Design Contest • Simplest, validated design • Traffic Light Controller • www.SDL-FORUM.org

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