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Naval Electronics & Surveillance Systems

AN/SPY-1D(V) ECMA Enhancement Based on Adaptive Computing Systems Technology Rick Pancoast Matt French 7 March 2002. Naval Electronics & Surveillance Systems. BACKGROUND & DARPA ACS-SLAAC EFFORT. System Level Applications of Adaptive Computing. ACS Research Community.

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Naval Electronics & Surveillance Systems

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  1. AN/SPY-1D(V) ECMA Enhancement Based on Adaptive Computing Systems Technology Rick Pancoast Matt French 7 March 2002 Naval Electronics & Surveillance Systems

  2. BACKGROUND &DARPA ACS-SLAAC EFFORT

  3. System Level Applications of Adaptive Computing ACS Research Community L O C K H E E D M A R T I N NAVAL ELECTRONIC & SURVEILLANCE SYSTEMS SLAAC Affiliates Sonar Beamforming DARPA DARPA Ultra Wide- Band Coherent RF NUWC IR ATR NVL LANL Sandia UCLA BYU SAR/ ATR Sandia Multi- dimensional Image Processing LANL ISI Component Developers Lockheed Martin SLAAC Developers Electronic Counter- measures Challenge Problem Owners Applications 05/18/98

  4. ECMA Frame AEGIS CRUISER WITH AN/SPY-1 RADAR ECMA ECMA Frame Performs Electronic Counter-Measures Assessment for the AN/SPY-1 Radar on AEGIS Cruisers and Destroyers AN/SPY-1 GSA CABINET (4 BAY)

  5. Legacy AN/SPY-1 vs. Adaptive Computing-Based ECMA ECMA AMS Wildforce Board Desktop PC SLAAC1 Board VME Nest CSPI 2641S Board SLAAC2 Board SLAAC COTS ECMA NEST (6U VME) AN/SPY-1 GSA CABINET (4 BAY) • Advantages • - Provides Real-Time Reconfiguration • For the Current Threat • - Provides Adaptability to Future Threats • - Easy to Modify (VHDL Modifications) • - Partially Populated VME Nest (<50%) • - Room for Growth • Limitations • - Fixed Configuration • - Not Adaptable to Changing Threat • - Difficult and Costly to Modify • - Consumes Entire Frame (10% of DSP) • - No Room for Growth

  6. DARPA SLAAC/ECMADemonstration Data ECMA Function 1: SPY ECMA Input Data SPY ECMA Output Data SLAAC ECMA Output Data ECMA Function 2: SPY ECMA Input Data SPY ECMA Output Data SLAAC ECMA Output Data ECMA-ACS TI will effectively leverage DARPA SLAAC / ECMA efforts

  7. Benefits of Adaptive Computing Technology for the SPY-1 ECMA Frame SPY ECMA Function 1 SPY ECMA Function 2 • ECMA Function 1 Utilizes 0.36% of Module • ECMA Function 2 Utilizes 0.26% of Module Entire SPY-1 ECMA Frame Electronics Fits Into Half a 6U Module 95% Reduction of the SPY-1 ECMA Subsystem

  8. Future Possible Applications • ACS-Based COTS ECMA Processor • Data-Dependent Reconfiguration of the ECMA Processor (I.e. Adaptive ECMA - Adapt Processing to the Current Threat) • TBMD Counter-Counter Measures Capability • Utilize ECMA-ACS for NTW Block I Signal Processor • Other SPY-1 Radar Processing Using ACS • Use ACS to Replace / Reduce SPY-1 Circuitry (DMS Issues) • Rapid (Real-Time) Reconfiguration (RTR) • Utilize ACS to Implement Test Dwell Circuitry • Use ACS to Modify Processing Within the Dwell • Use ACS to Simplify Coherent Sidelobe Cancellation (CSLC) • Navy Theater Wide Tactical Ballistic Missile Defense (Block I) • Wider Bandwidth Processing

  9. Lockheed Martin NE&SS ECMA-ACS Roadmap 1998 1999 2000 2001 2002 Technology Development (DARPA ACS ) SLAAC / ECMA Technology Application (Navy PEO-TSC TI ) ECMA - ACS Technology Transition (Navy PEO-TSC Production ) ECMA Enhancement Technology Concept to Transition to Production Production

  10. NAVY TECHNOLOGY TRANSITION PROGRAM

  11. Power Supply A IFI4B IFI1A IFI2A IFI3B AMS Wildstar-A AMS Wildstar-B RTD1 Cabinet: DBT1 Frame RTD2 Cabinet: DBT2 Frame Power Supply B GSA Cabinet: IOB Frame WFG Frame ECMA-ACS System Concept 6 Slot VME Side A ECMA-ACS Spare-A RTD1 Cabinet: IFP1 Frame DBT1 Frame RTD2 Cabinet: IFP2 Frame DBT2 Frame 292 Bits 707 Bits Spare-B GSA Cabinet: IOB Frame WFG Frame 6 Slot VME Side B

  12. Compare Results 1 2 CSEDS Demo Configuration IFP Frame 3 Actual Output ECMA Frame DBT Frame ECMA-ACS Common Stim Inputs Test Bed Output IOB Frame 1. Run ECMA and collect actual output 2. Run ECMA-ACS and collect test bed output 3. Compare output results via Matlab

  13. ECMA ENHANCEMENT TEST SETUP

  14. ECMA ENHANCEMENT TEST SETUP

  15. ECMA ENHANCEMENT COTS NEST

  16. ECMA ENHANCEMENT PADDLECARD CONNECTION

  17. ECMA Video ECMA-ACS Enhancement Effectively Performs Legacy ECMA Functions Correctly

  18. Legacy vs. ACS Error ECMA-ACS Enhancement Provides Equivalent or Lower Data Errors

  19. NAVY TRANSITION TO PRODUCTION PROGRAM

  20. ACS - ECMA to the Fleet • Lockheed Martin Engineering Has Developed a Plan for SLAAC - ECMA Transition to Production • Working With LM Production PMO and Navy Production PO to Transition Into Next AEGIS Production Contract • Will Put FPGA-Based ECMA on DDG (Destroyer) Ships • From Concept to Production in Three Years! • Navy AEGIS PMS-400 Program Office is Firmly Behind the Transition

  21. Solution for Tactical ECMA • Custom shock-hardened two- high module format • AN/SPY-1D(V) Format Electronic Modules • Capture Existing IFI Module Design • Develop FPGA-Based Processing Module • Frees up space for additional functions (AN/SPY-1 B/D Upgrades, Cruiser Conversion, NTW) SPY-1 D(V) Frame / Nest This is the Navy’s Preferred Tactical Option (FY’02)

  22. ECMA-Enhancement System Concept With SPY-1 D(V) Signal Processor 7 Slot D(V) Side A IFP Cabinet: IFP1 Frame IFP2 Frame ECMA-Enhancement NIFI1A NIFI2A NIFI3A GCMA NIFI4A EPICA SPARE RTD1 Cabinet: DP1 Frame TP1 Frame RTD1 Cabinet: DP1 Frame TP1 Frame RTD2 Cabinet: DP2 Frame TP2 Frame 292 Bits 707 Bits RTD2 Cabinet: DP2 Frame TP2 Frame NIFI1B NIFI2B NIFI3B GCMB NIFI4B EPICB SPARE GSA Cabinet: IOB Frame GSA Cabinet: IOB Frame 7 Slot D(V) Side B

  23. Summary • ECMA Upgrade Provides an Equivalent Replacement for SPY-1 ECMA • Outputs Parallel Legacy - In Some Cases Providing Less Error • FPGA-Based ECMA Upgrade Provides : • A Solution to Existing SPY-1 ECMA DMS Issues • Lower Recurring Costs for ECMA Production • Additional Frame Module Space (95% of a Frame) for Future Upgrades (I/O?) • Lower Lifetime Support Costs (Fewer Modules to Support) • Simplified FD/FI and ORTS Support - Single Module LRU • A Path for Upgrades to Add New Functionality (e.g. Variable STC Curves, Reduced ECMA Dwell Pad Timing, TBMD ECMA Functions, etc.) • A Path for Backfit Options - Cruiser Conversion, B/D Upgrade and NTW • A Path for Upgrades to Address New Countermeasures Threats • Lower Total Ownership Costs • Mechanical Solutions Provided for COTS and SPY-1D(V) Formats • Qualification Plan Being Worked as Part of FY’02 TI Effort • FPGA-Based ECMA Upgrade for DDG is Feasible • Developing Tactical SPY-1D(V) Implementation on FY’02 Contract

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