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ATML Use cases

ATML Use cases. Use of ATML by external agencies is gathering momentum. Agilent Instrument Database. Performing an independent evaluation into using the ATML instrument description and ATML capability to distribute their instrument information.

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ATML Use cases

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  1. ATML Use cases Use of ATML by external agencies is gathering momentum

  2. Agilent Instrument Database • Performing an independent evaluation into using the ATML instrument description and ATML capability to distribute their instrument information. • This is important because, if successful, there will be a lot of information in the ATML format – that will generate a lot of user based feed back on our trial use standard(s) • Dan Pleasant’s presentation • Instrument Description Working Group Meeting • Tuesday Morning 9:00

  3. Synthetic Instrument defined using ATML • Synthetic Instrument Working Group has defined a general architecture for synthetic instruments. • Each component that makes up the synthetic instrument needs both software and hardware interchangability. • ATML Instrument Description has been chosen as the format to represent the description of the hardware specifications for the following components: • Arbitrary Waveform Generator • Digitizer • Down Converter • Up Converter • IVI Drivers have been selected for the software driver interchange format.

  4. LXI Consortium Investigating using ATML Capabilities as part of LXI Discovery

  5. MoD Open System Architecture Approach • The MoD currently have a policy for ATS to use the IEEE 1641 ‘signal modelling’ standard. • Looking to standardise a common Open System Architecture approach • This process is expected to make heavy use of the ATML standards

  6. Proposed Common OSA Standards High degree of obsolescence coupled with a lack of commonality has resulted in: High in-service support costs Relatively low utilisation of test platforms A common open standard is therefore vital to overcome these concerns. This must be encompassed within the common GPATE with the technology to achieve this capability.

  7. Common Core ATS Architecture Unit Under Test Hardware Common Core Instrumentation Computer Test Head Software Operating System Test Program Test Results

  8. Common Core ATS Architecture GoalTPS Reuse & ATS Interoperability Platform 1 TPS Platform 2 Platform 3

  9. MoD - Signal Policy with ATML components ATML Capability Test Description Test Results Signal Interface Signal Program DRV Common Use Standard Signal Library

  10. IEEE Std. 1641 and the DoD Automatic Test System Framework Elements Framework Members: Michael Malesich; Jennifer Fetherman; Chris Gorringe; Bob Fox; Tom Gaudette; Ron Taylors; Hugh Pritchett; John Sheppard; Joe Stanco; Ken Fox; Mukund Modi; Pat Kalgren

  11. ATE Capabilities Instrument Description Test Station Description Future TPS development - ATML Test Information Using Signal Models Enhancing Reusability Common Use Signal Library 1641 Elements ATML Elements Instrument Signal Mappings Implementation Test Description Test Adaptor UUT Description Test Program Generation ATS Software Test Program Instrument Interface Layer Test Results RI3152 Ag38152a Elgar 115

  12. REQUIRED Common Use Standard Signal Library TSF Development • We need to develop standard Signal libraries to capture the test domain knowledge of what signals are required. • CASS ATLAS Signal Library • Already modelled certain signals and measurements in 1641(but never completed as TSFs) • SIWG measurement science & ‘signals’ methods • ARGCS ATLAS Signal Libraries • Train users in using the common signal libraries in their field of operation rather than the user needing to know how specific signal are implemented. • TPS projects and field test engineers would then use these TSF signal definitions as reusable components, rather than continually build there own up from scratch • Provide a solid foundation for a standard common use signal library • Ability to use additional interchangeable Signal Libraries though TSFs • New TSFs can be added into the standard at subsequent revisions

  13. ATE Capabilities Instrument Description Test Station Description Future TPS development - ATML Test Information Using Signal Models Enhancing Reusability Common Use Signal Library 1641 Elements ATML Elements Instrument Signal Mappings Implementation Test Description Test Adaptor UUT Description Test Program Generation ATS Software Test Program Instrument Interface Layer Test Results RI3152 Ag38152a Elgar 115

  14. ATE Capabilities IFP TSFP Future TPS development - ATML Test Information Using Signal Models Enhancing Reusability UTR, UDI 1641 Elements ATML Elements Instrument Signal Mappings Implementation TPD UTR AFP UDI Test Program Generation ATSSoftware Test Program Instrument Interface Layer MTD DRV Instrument Drivers

  15. LEGEND Data/ Distributed Network DNE Data Networking NET (TCP/IP) Computer to External Env. CXE (TCP/IP) UUT Test Level TPS Diagnostic Services DIAS Signal or independent Level Diagnostics Resource or generic Level Instrument or device Level Maintenance Data & Services MTD Diagnostic Data DIAD Interface or hardware Level Information Digital Test Format DTF Services or API Test Program Resource Adapter Interface RAI ATE Software Test Program Documentation TPD Resource Management Services RMS System Framework FRM Multimedia Formats MMF Run Time Services RTS UUT Test Requirements UTR Master Conformance Index MCI Instrument Driver DRV Built In Test Data BTD UUT Device Interfaces UDI (Software) Adapter Functional & Parametric Data AFP Test Station Functional & Parametric Data TSFP Instrument Functional & Parametric Data IFP Instrument Communication Manager ICM Product Design Data PDD UUT Device Interfaces UDI (Hardware) Common Test Interface CTI UUT ATE Test Adapter Switching & Wiring Instruments TPS DoD ATS Technical Framework Relationships

  16. TPS Diagnostics Maintenance Data & Services MTD Test Program Resource Adapter Interface RAI ATE Software Test Program Documentation TPD Resource Management Services RMS Run Time Services RTS UUT Test Requirements UTR Master Conformance Index MCI UUT Device Interfaces UDI (Software) Adapter Functional & Parametric Data AFP Test Station Functional & Parametric Data TSFP Instrument Functional & Parametric Data IFP Product Design Data PDD UUT ATE Test Adapter Switching & Wiring Instruments TPS DoD ATS Technical Framework ATML Relationships

  17. TPS Diagnostic Services DIAS Diagnostics Maintenance Data & Services MTD Diagnostic Data DIAD Digital Test Format DTF Test Program Resource Adapter Interface RAI ATE Software Test Program Documentation TPD Resource Management Services RMS Run Time Services RTS UUT Test Requirements UTR Master Conformance Index MCI UUT Device Interfaces UDI (Software) Adapter Functional & Parametric Data AFP Test Station Functional & Parametric Data TSFP Instrument Functional & Parametric Data IFP Product Design Data PDD Common Test Interface CTI UUT ATE Test Adapter Switching & Wiring Instruments TPS DoD ATS Technical Framework SCC20 Relationships

  18. Fin • The Community wants our ATML standards • They are a significant part of both the Mod and DoD future solutions • There is a commercial advantage in using ATML • We need to get them out and balloted Getting ATML!

  19. No - I really have finished

  20. RoadMap DoD - ATML Support Interfaces ATML Capability Instrument Description Test Station Test Adapter Test Description ATS Software Test Results Test Program Signal DRV UUT Description Common Use Standard Signal Library

  21. RoadMap MoD - Signal Policy ATML Capability Test Description Test Results Signal Interface Signal Program DRV Common Use Standard Signal Library

  22. RoadMap Coalition Open Architecture ATML Capability Instrument Description Test Station Test Adapter Test Description Station Software Test Results Signal Interface Signal Program Signal DRV UUT Description Common Use Standard Signal Library

  23. Signal Modelling and the Framework • The term signal modeling is simply defining signals through models. • A signal model includes signal sources, signal conditioning, signal based measurement, digital, communications & busses, events, timing and even locations or combination of them. • The model is an executable specification that provide a means to define both behavior and interface parameters, and utilize both composition and hierarchy to allow building increasingly complex signal definitions, as reusable components • Regardless of the complexity of the signal, because they define behavior, signal models represent an ideal component of test requirement interchange. • Signal modeling can have a positive impact on several DoD (and MoD) objectives • Improve instrument Interchange • Make ATE more adaptable with no penalty to requirements • Faster technology insertion • Improve TPS rehost • Improve TPS interoperability • Use model based programming techniques • Modernize test programming environment • Capture ‘design to test’ data

  24. Framework Elements & ATML • UTR (UUT Test Requirements) • IEEE 1641 Signal Libraries • TPD (Test Program Documentation) • Test Description (ATML) • IFP, AFP, TSFP (Instrument Functional & parametric Information) • Signal Capability ATML and IEEE 1641 • UDI (UUT Device Interfaces) • Signal Libraries (1641 TSFs) • MTD (Maintenance Test Data) • IEEE 1636.1 ATML Test Results • RMS (Resource Management Services) • IEEE Std. 1641 – Annex C Signal Resource Manager • RTS (Runtime Services) • IEEE Std. 1671 Annex C • RAI (Resource Adaptor Interface) • IEEE Std. 1641 - New Annex to Firm up UUT requirements and extract Connection & Timing to top level • MCI (Master Conformance Index) • IEEE Std. 1641 – Annex C Signal Resource Manager • PDD (Product Design Data) • UUT Description (ATML)

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