1. Advanced Processing Systems Honeywell Proprietary1 12/04/2003 Honeywell UF HCS & Honeywell DSES Opportunities Presented by Advanced Processing Systems

2. Honeywell Proprietary2 12/04/2003 Honeywell Agenda  Introduction - Honeywell  UF HCS Capabilities Overview - UF  Integrated Payload Overview - Honeywell  Collaboration Plan - Honeywell  Overview of Opportunities - Honeywell  Working Group

3. Advanced Processing Systems Honeywell Proprietary3 12/04/2003 Honeywell UF HCS Overview

4. Advanced Processing Systems Honeywell Proprietary4 12/04/2003 Honeywell Integrated Payload

5. Advanced Processing Systems Honeywell Proprietary5 12/04/2003 Honeywell Market Need  A market need has been established for an integrated payload processing system based on the Honeywell payload product line.  To fulfill this need we must define a system hardware architecture based Honeywell payload processors and peripherals.  A software system framework must also be defined to facilitate the integration of hardware components, horizontal services, and customer applications.  The combined software and hardware must provide the capabilities desired by our customers. Integrated payload systems make application development easier.

6. Advanced Processing Systems Honeywell Proprietary6 12/04/2003 Honeywell Keys to Business Growth  Modular and Integrated Systems  Can assemble/architect system to meet mission needs with low NRE  Pay only for missionization  Inexpensive and readily available SDU system  Provide a mechanism to evaluate and benchmark algorithms  High Speed Interconnect to meet increasing bandwidth requirements  Reconfigurable Computing has been recognized as key technology We are listening to our customers and we will deliver.

7. Advanced Processing Systems Honeywell Proprietary7 12/04/2003 Honeywell Get in the door early! Integrated Payload Development Cycle Study of Mission Algorithms on Integrated Payload SDU Customer Internal Development Phase1 competition begins Continue refinement of algorithms on SDU and demonstrations conducted with instrument prototypes Phase 2 Elaboration Flight Custom flight components are developed if necessary Custom components are integrated and tested on flight Integrated Payload Software migrates to flight unit for final qualification Flight unit complete Integrated Payload Development Cycle Program Life Cycle

8. Advanced Processing Systems Honeywell Proprietary8 12/04/2003 Honeywell Overall IRAD Objectives  Establish a substantive technical advantage in the area of complete satellite payload processing systems, enabling Honeywell to achieve significantly increased program roles.  Deliver increasing system value to our Customers by “pre-integrating” the technologies of Honeywell and its Partners.  Establish the system architecture for a heterogeneous system. Honeywell Payload Systems will be the first choice in the Integrated Payload Market

9. Advanced Processing Systems Honeywell Proprietary9 12/04/2003 Honeywell Proposed Product Offering  Integrated Payload Processor  Pre-integrated software components  operating systems, device drivers, system monitors, runtime libraries, etc.  Pre-integrated hardware components  system controller, data processors, reconfigurable modules, IO, memory, etc.  Pre-integrated development tools  Development software and configware libraries, verification tools, compilers, etc.  Scalable and Software Compatible  System will be scalable to meet the particular requirements of the target application  Software will not break if additional components are added to the system  Provide support to quickly get customer up and running and resolve technical issues  Provide a low cost SDU that is equivalent to flight system The Integrated Payload will be a turnkey solution ready for application development.

10. Advanced Processing Systems Honeywell Proprietary10 12/04/2003 Honeywell Integrated Payload System Horizontal Services: APIs, Interprocessor Communication, Runtime Libraries etc. System Software Components: OS, Hardware Abstraction, Device Drivers, etc. Payload Interfaces SBC-PDP P/L Data Processor SBC-PC Control Processor MuSICA Custom I/O Module (e.g. 1394) RHVP HRSC PMC Mass Storage Module Mission Application Honeywell DSES does payload processing systems well and we will make the Integrated Payload a reality. Honeywell Integrated Payload System Point to Point High Speed Interconnects (data) cPCI Backplane (control) PMC Payload, S/C & Comm System Interfaces

11. Advanced Processing Systems Honeywell Proprietary11 12/04/2003 Honeywell Benefits of Product  Reduce cycle time  Eliminating the long integration phase  Lowers integration risk  Reduce amount of new development  Ease migration from SDU to flight unit  Reduce costs  Reduce NRE  Higher volume will yield lower production costs  Increase overall product quality  Product will have more time to mature Higher quality and reduced costs can lead to increased profit!

12. Advanced Processing Systems Honeywell Proprietary12 12/04/2003 Honeywell 2003 IRAD Objective  Primary Goal  Integrate available subassemblies into a functional system model  Develop system architecture to support the integration of heterogeneous payload systems  Develop APIs to configure and manage available subassemblies  Secondary Goal  Develop a “flight-like” proof of concept application that can be utilized to support new program pursuits.  Demonstrate ability to coordinate projects with other Honeywell sites We are well on our way to achieving our goals

13. Advanced Processing Systems Honeywell Proprietary13 12/04/2003 Honeywell Proof of Concept System Integration (PoCSI) Description

14. Advanced Processing Systems Honeywell Proprietary14 12/04/2003 Honeywell Demonstration goals  To show the capabilities of the Integrated Payload by processing real-time video  To show the reconfigurability of the system by implementing multiple modes of operation using reconfiguration  To create an “eye-catching” demonstration that will draw customer interest  To help develop standard interfaces and design flows for reuse by us and our customers

15. Advanced Processing Systems Honeywell Proprietary15 12/04/2003 Honeywell Design Considerations  The HRSC has no microprocessor onboard. All functionality on the HRSC is implemented in hardware. Therefore, devices requiring software drivers to operate can not be used as PMC modules (for example webcams)  Communication protocols such as IEEE 1394 and USB are complicated to implement in hardware (also costly)  Most video formats such as composite video or S-video are analog  Cameras that have digital video interfaces (such as CameraLink cameras) are cost prohibitive (price $4000+)

16. Advanced Processing Systems Honeywell Proprietary16 12/04/2003 Honeywell System Block Diagram

17. Advanced Processing Systems Honeywell Proprietary17 12/04/2003 Honeywell Integrated Payload Software Architecture

18. Advanced Processing Systems Honeywell Proprietary18 12/04/2003 Honeywell Software Architecture - Goals  Significantly reduce initial integration effort.  Reduce dependencies on specific hardware, operating system, and BSP versions.  Provide a modern COTS-like development experience for customers.  Provide a system that can be extended by additional nodes and additional capabilities.  Maintain a distinction between new product line technologies and demonstration software.

19. Advanced Processing Systems Honeywell Proprietary19 12/04/2003 Honeywell Software Architecture - Functional Capabilities This is a functional model of the domain of payload processing systems. It provides us a tool for describing and understanding these systems. General services needed by most applications. These represent value-add opportunities where a customer typically invests effort, but does not focus on their specific application. These are basic computing environmental conditions. They relate to the ability to initialize a system, command peripherals, and develop traditional software services.

20. Advanced Processing Systems Honeywell Proprietary20 12/04/2003 Honeywell Software Architecture - Architectural Elements Current focus is on the Base Processing Environment. 1 2 3 4 5

21. Advanced Processing Systems Honeywell Proprietary21 12/04/2003 Honeywell Next Steps

22. Advanced Processing Systems Honeywell Proprietary22 12/04/2003 Honeywell Future Next Steps  Integrate additional hardware (e.g. RapidIO)  Develop additional device drivers (e.g. MUSICA, 1394).  Investigate integrating with Glendale’s satellite structure lab  Investigate additional horizontal services.  Integrate payload system software with RTOS development tools.  Continue to investigate additional RTOSs.  Define development flows.

23. Advanced Processing Systems Honeywell Proprietary23 12/04/2003 Honeywell Collaboration Plan

24. Advanced Processing Systems Honeywell Proprietary24 12/04/2003 Honeywell Proposed Plan  Communication  Identify key representatives from each organization  Establish recurring meetings  Direction  Define common goals and objectives for research and development  Action  Identify and pursue most promising opportunities Together we are more productive and competitive.

25. Advanced Processing Systems Honeywell Proprietary25 12/04/2003 Honeywell Overview of Honeywell Opportunities

26. Advanced Processing Systems Honeywell Proprietary26 12/04/2003 Honeywell  Internships  New Millennium ST-8  Integrated Payload  HRSC  DARPA (RWI, others)  SSPA  Restricted (SCA, others)  NASA