Aerospace & Defense
- Athena Technologies, for the MPC555 processor in its GuideStar GS-111 flight control system.
- BFGoodrich, for the ThreadX® RTOS to configure the fault tolerant processor for microRad -- a 32-bit RISC computer.
- Boeing, for the Power Architecture (formerly PowerPC) and MIPS microprocessors in the AV-8B Harrier, C-17 transport, F/A-18, B-1B, JSF Prototype and Space Shuttle aircraft avionics.
- CEA 3D Radars, for the INTEGRITY RTOS, Internet protocols, MULTI® IDE and Green Hills Probe to develop their 3D radar systems.
- GE Aircraft Engines, for the Optimizing C Compiler in the F118-GE-100 and F101-GE-102 aircraft engines.
- Goodrich, for the INTEGRITY® RTOS in its EMC-100 Full Authority Digital Engine Control (FADEC) system.
- Flight Safety, for the Pentium microprocessors used in the C-17 flight simulators.
- Kaiser Electronics, for the Power Architecture (formerly PowerPC) and Pentium-based microprocessors in its cockpit display systems software.
- KVH Industries, using INTEGRITY RTOS and MULTI IDE for the development and implementation of their TACNAV® M100 Ground Mobility Enhanced Navigation System (GMENS).
- Lockheed Martin - JSF, for the 68000 and Power Architecture (formerly PowerPC) microprocessors in its JSF Prototype, S-3, P-3, AEGIS, and MLRS.
- Lockheed Martin - F22 , for the AdaMULTI® IDE used to develop software for F-22 Raptor cockpit displays.
- NLX Corporation, for the INTEGRITY® RTOS used in the B-1 Bomber Weapons System Trainer (WST).
- Northrop-Grumman, for the Power Architecture (formerly PowerPC) microprocessors in the EA6B Prowler avionics upgrade.
- Northrop-Grumman, for using MULTI® IDE and Optimizing FORTRAN Compiler to develop a flight simulator for the B-2 Bomber.
- NASA/JPL, for the National 32000 and RAD6000 microprocessors aboard its interplanetary spacecraft.
- Sanmina-SCI, using INTEGRITY RTOS and MUTLI IDE for the development and implementation of their FireComm™ Airborne Digital Intercommunications suite.
- SenSyTech, using INTEGRITY RTOS and MULTI® IDE to develop wing-attached electronic payloads to simulate hostile radar signals.
- TRW, for the INTEGRITY® RTOS in its Power Architecture (formerly PowerPC) communications software for the RAH-66 Comanche helicopter.
- Vibro-Meter, for using INTEGRITY-178B RTOS as part of their Engine Monitoring Unit for the Rolls Royce Trent 900 engine used on the Airbus A380.
Automotive
- Ford Motor Company - Jaguar, for the Power Architecture (formerly PowerPC) in the Jaguar's powertrain control module.
- Ford - Lincoln Aviator, is using Green Hills Software's optimizing compiler and instruction set simulator to develop engine control software for the Lincoln® Aviator.
- Ford Motor Company - Lincoln LS, for the Power Architecture (formerly PowerPC) in the Lincoln LS' powertrain control module.
- Ingersoll Rand, MULTI® IDE and the ThreadX® RTOS to develop network communications, graphics, and data processing software for the sophisticated IntelliTorque™ System.
- Mobileye, is using TimeMachine suite, MULTI® IDE, optimizing compilers, and SuperTrace probes to develop and test Mobileye's EyeQ low-cost, integrated vision system.
- MotoTron, for the MPC555 processor in its Allstar™ 708 high performance engine.
- PEIKER, acustic GmbH & Co is using INTEGRITY RTOS and MULTI IDE to form the Analog Devices Blackfin® Processor- based software backbone of the company’s future in-car automotive electronics programs.
- Toyota, for its Electronic Control Unit used for automobile control.
- Toyota - Avalon, for the NEC 32-bit microprocessor and C/C++ Compiler in the engine and transmission control software for the Avalon.
- Toyota - Prius, is using MULTI® IDE and C/C++ compiler on a NEC V850 processor to develop the powertrain, drivetrain, power steering, anti-lock brakes, air bags, body control, and electric motor control system on the Prius.
- Voicebox, is using velOSity™ kernel and MULTI® development environment on a Blackfin processor to develop and implement their Conversational Voice Search™ Platform.
Consumer
- ATL Ultrasound, for the Intel i960 and Freescale Power Architecture (formerly PowerPC) processors and ThreadX® RTOS in the next-generation ultrasound equipment.
- Atmel, for the ThreadX® RTOS and the ARM based AT91 series microcontrollers for various 16 and 32 bit embedded applications.
- Audioshock, for the Cirrus Logic® processor and ThreadX® RTOS in its Virtual Jukebox.
- Cyrano Sciences, for the optimizing C++ compilers used to develop the Cyranose 320—an electronic hand-held nose.
- Digital Harmony, for the ARM7 Thumb® processor and ThreadX® RTOS in its Digital Harmony DHIVA®.
- ESS Technology, for the MIPS-X architecture in its Internet Set-top Box Web Browser.
- Hewlett Packard, for the ThreadX® RTOS in its inkjet printers and all-in-one devices.
- Ingersoll-Rand, for the ThreadX® RTOS and the Cirrus EP7211 ARM microprocessor in its IntelliTorque™, torque management system.
- Integrated Control Access & Security Systems, is using MULTI® IDE, C Compiler, and Slingshot™ debug device on an ARM7TDMI processor to develop their Protégé LCD User Stations.
- Lexmark, for the SH microprocessors in its laser printers.
- Mercury Marine, for the MPC555 processor in its Optimax speedboat engine.
- Pulmonetic Systems, for the ARM7 Thumb® processor and ThreadX® RTOS in its LTV Ventilator.
- Quantum, for the V850 microprocessors embedded in its disk drives.
- Sega, for the SH microprocessors in its home entertainment systems.
- Tandberg Data, for the Power Architecture (formerly PowerPC) 405 processor and ThreadX® RTOS in its SLR160 tape streamer device.
- Universal Electronics, for the ARM7 processor in its Mosaic® Touch Screen Remote.
- Vision Systems, for the Power Architecture (formerly PowerPC) in its video multiplexing security system.
- Voxpath, is using MULTI IDE, INTEGRITY RTOS and Slingshot debug device on a Power Architecture (formerly PowerPC) processor to develop their ViP 5000 business-class IP telephone.
- X-Digital Systems, is using velOSity™ RTOS and MULTI® IDE on an ARM9 processor to develop set-top boxes.
Industrial Automation
- Asymtek, for the MPC555 processor and the ThreadX® RTOS in its Axiom X-1020 automated fluid dispensing system.
- Atmel, is using MULTI IDE and Royalty-free ThreadX® RTOS to provide low risk, fast time to market solutions.
- Cyrano Sciences, is using MULTI® IDE and C++ Optimizing Compilers to develop electronics and firmware for the Cyranose 320—an electronic hand-held nose.
- Keri Systems, is using MULTI IDE and INTEGRITY RTOS to develop their next generation of enterprise access security systems.
- Microscan Systems, is using Green Hills Software's C Compiler and MULTI IDE
- RTUNet, is using MULTI IDE on an ARM7TDMI processor to develop their Kingfisher Series III telemetry and control products.
- Serveron, is using INTEGRITY RTOS, IPLite networking and MULTI IDE running on a Power Architecture (formerly PowerPC) processor.
- Tandberg Data, is using MULTI® IDE and ThreadX® RTOS to develop control software for its SLR160 tape streamer device.
- Vision Systems,
is using Green Hills Software's Optimizing Ada 95 Compilers and AdaMULTI® IDE.
Medical
- ATL Ultrasound, is using MULTI® IDE and ThreadX® RTOS to develop software for its diagnostic Medical Ultrasound Systems.
- Pulmonetic Systems,
is using MULTI® IDE and ThreadX® RTOS to develop ARM7-based graphic display software for the LTV ventilator.
Millitary Aircraft
- Airbus Military,
EADS Deutschland GmbH selected INTEGRITY-178B, a full-time and memory-partitioned ARINC 653-1 RTOS, and MULTI IDE for EADS' Mission Management Computer.
- BAE Systems, is using Green Hills Software's GMART SPARK Ada compliant kernel and AdaMULTI development environment for the Hawk military trainer aircraft.
- Boeing - X-45C Unmanned Vehicle, is using INTEGRITY-178B RTOS and software development tools for development and deployment of the X-45C Joint Unmanned Combat Air Systems (J-UCAS).
- Boeing - Harrier, F-15, F/A-18, is using MULTI software development tools and optimizing compilers.
- Eurofighter- Typhoon,
is using INTEGRITY RTOS and AdaMULTI IDE.
- General Electric, is using Green Hills Software's Optimizing C Compiler and Simulator to develop and test software to control the F118-GE-100 and F101-GE-102 turbine engines.
- Northrop Grumman - B-2 Bomber, is using MULTI® IDE and Optimizing FORTRAN Compiler.
- Lockheed Martin, is using INTEGRITY® RTOS and AdaMULTI® 2000 software development tools to develop software for its Joint Strike Fighter (JSF) aircraft.
- Lockheed Martin - F-22 Raptor, is using AdaMULTI® Development Environment.
- Lockheed Martin - F-16, is using INTEGRITY real-time operating system (RTOS).
Networking & Telecom
- Allied Telesyn, is using INTEGRITY RTOS and MULTI® IDE for the multi-tasking software in the AT-9924s switch.
- ArrowSpan, is using MULTI IDE and INTEGRITY RTOS to develop their MeshAP 2100/1100 Dual-Radio WiFi Mesh Network Access Point.
- BitRage, for the MPC8260 processor and INTEGRITY® RTOS in its Media Gateway, a wireless data radio system.
- EMC, is using MULTI® IDE and family of debug probes including Slingshot and the Green Hills Probe.
- Etherstack, is integrating velOSity RTOS and MULTI® IDE tool suite.
- Kb/TEL, for the MPC860 processor and INTEGRITY® RTOS in its Kb/E1 wireless network controller.
- IPWireless, for the StrongARM processor and Optimizing C++ Compiler in the 3G Broadband Modem.
- Nera, is using INTEGRITY RTOS, velOSity RTOS and MULTI IDE.
- Motorola, for the Power Architecture (formerlyPower PC) microprocessors in the Iridium satellite communications system.
- Qualcomm, for the 386 and 68000 microprocessors in its CDMA cellular phones and communications base stations.
- ShareWave, for the ThreadX® RTOS and ARM7 processor in its SW2000 series network controllers.
- TeleCIS, is using INTEGRITY RTOS and MULTI IDE.
- TMC Radio, is using MULTI® IDE, velOSity RTOS and TCP/IP protocol stacks to develop and design advanced radio communication systems.
- Troika Networks, for the ThreadX® RTOS and Intel i960 processor in its intelligent Fibre Channel controller.
- World Wide Packets, for MPC855T microprocessor in the LightningEdge™ Access Portal.
|
