Security & Defence Solutions
Defense and security applications are by definition mission critical. People's lives depend on the security and reliability of the platforms on which they run. It is these systems that require the highest level of confidence and fault tolerance that comes from a proven technology, battle hardened in over 30 years of field deployment.
Why customers choose QNX?
As a provider of realtime OS technology for over 30 years, QNX Software Systems has a long dependable tradition of helping government defense departments, security agencies, and their contractors develop advanced, secure, mission-critical, realtime systems.
Here's how you'll benefit
- Maximize software reuse and interoperability with POSIX-certified APIs (PSE52 Realtime Controller 1003.13-2003)
- Contain threats and maximize CPU utilization through adaptive time partitioning
- Create modular, well-partitioned systems that make software errors easy to identify, isolate, and repair
- Decrease slot count with the embedded industry's most mature multi-core support
- Leverage the only Common Criteria-certified RTOS (EAL 4+) to implement SMP on multi-core processors
- Maximize system availability with a high availability framework and and dynamic field upgrades
- Eliminate coding errors and maximize resource utilization with Eclipse-based code coverage, memory analysis, system profiling, and application profiling tools
- Create multi-layered and multi-headed visual display systems with industry-standard 2D/3D graphics
- Work with a globally recognized defense supplier (QNX Neutrino RTOS: #0033857, cage code 3AD83)
Defense and security applications and platforms face challenges unlike any other. In an environment where lives are often at stake, it is not only imperative that the system perform reliably but also that it be resilient to extreme conditions and persistent, malicious attacks by foreign entities. The applications and systems must be able to detect, contain, and repair themselves in the event of such attacks.
QNX Software Systems provides the most reliable and scalable RTOS, industry leading multi-core processor support, high availability framework, and a comprehensive Eclipse-based tool chain to ensure the security of application software systems in mission critical environments.
Integrated development environment
Built from the ground up to support multi-processing, the award-winning QNX Momentics Tool Suite is the industry's most advanced IDE for real-time development. It offers the full spectrum of tools for developing, debugging, and optimizing code, and is equally at home in single-core and multi-core environments.
For multi-core based development, the QNX Momentics Tool Suite provides an application profiler to identify opportunities for parallelism and a unique system profiler for white box visibility into thread-level timing and IPC.
See also: QNX Momentics Tool Suite, QNX Multi-core technology
No RTOS offers more in terms of reliability than the QNX Neutrino RTOS. To further increase availability, QNX Software Systems offers a high-availability framework. Using this framework, developers can devise fault-recovery scenarios that can execute without a system reboot.
See also: QNX Neutrino RTOS High availability (click on High availabilty tab)
Core operating system
The QNX Neutrino RTOS is designed specifically to meet the most demanding reliability and performance requirements. The microkernel architecture incorporates only core functionality into a tiny, well-tested kernel while leaving drivers, networking stacks, and other services outside in memory protected space. This creates the ideal foundation for mission-critical reliability.
See also: QNX Neutrino RTOS
Driven by the need for maximum processing power in constrained, demanding environments, QNX Software Systems has supported discrete implementations of multi-processing for over a decade. QNX multi-core technology ships today in many production programs and has been hardened by use in the most demanding applications. Likewise the QNX Momentics Tool Suite was developed from the ground up with multi-processing in mind; it is the most sophisticated multi-core development environment available today.
See also: QNX Multi-core Technology
QNX adaptive partitioning technology is a unique approach that provides CPU resource guarantees to defined partitions, ensuring all system elements have access to critical resources. However, unlike fixed partitioning, it allows partitions to exceed minimum time budgets if spare processing cycles are available. This allows a system to maximize CPU time while ensuring high availability - containing DoS attacks, preventing runaway CLIs, and so on.
See also: QNX Neutrino RTOS Adaptive Partitioning (click on Partitioning tab)
The QNX management system is certified to the internationally recognized ISO 9001:2008 standard. ISO is firmly established as the globally implemented standard for providing assurance about the ability to satisfy customer requirements and enhance satisfaction. Auditors have evaluated and then certified the processes and systems governing the design & development of QNX software, as well as the provision of related support services.
IEC 61508 Safety Integrity Level 3 (SIL 3)
The QNX Neutrino RTOS Safe Kernel is certified to meet the requirements of International Electrotechnical Commission (IEC) standard 61508 Safety Integrity Level 3 (SIL3). IEC 61508 is an international standard for the functional safety of electronic systems, and offers a very high level of reliability and risk reduction when used in safety-critical systems for transportation, energy generation, process control, and other industries. Meeting the IEC 61508 requirements involves a systematic assessment by an independent certification body.
Common Criteria ISO/IEC 15408 Evaluation Assurance Level (EAL)4+
The QNX Neutrino RTOS Secure Kernel is certified to meet the stringent requirements of the Common Criteria ISO/IEC 15408 Evaluation Assurance Level (EAL) 4+. The Target of Evaluation (TOE) includes not only the mature QNX Neutrino OS kernel, but also its multi-core (symmetric and bound multiprocessing) and secure partitioning technology. Certification to EAL 4+ validates that the security parameters claimed have been methodically tested by an independent lab and the certification authority (the Canadian Security Establishment (CSE)), and means that the QNX Neutrino secure kernel will exceed the assurance requirements required for EAL4.
POSIX PSE52 Realtime Controller 1003.13-2003
The QNX Neutrino RTOS has been certified for conformance to the POSIX PSE52 Realtime Controller 1003.13-2003 System product standard, under the "POSIX: Certified by the IEEE and The Open Group" program. As a result, commercial customers and government agencies can choose QNX Neutrino with the assurance that it provides both the code portability and the realtime determinism needed for an array of military, networking, medical, and automotive systems. In addition to the functions covered in the PSE52 standard, QNX Neutrino supports many hundreds of other POSIX 1003.1 commands, utilities, and programming interfaces.
QNX Software Systems is certified conformant to the OpenGL ES standard. OpenGL ES is a cross-platform API for full-function 2D and 3D graphics on embedded systems. QNX is also a contributing member of the Khronos Group, the industry consortium focused on the creation of open standard APIs to enable the authoring and playback of dynamic media on a wide variety of platforms and devices. QNX is active in the OpenGL ES and OpenVG projects, which help bring accelerated 3D and 2D graphics to in-car computing devices, casino gaming applications, industrial control systems, and a variety of other embedded platforms.
Talk to us to get all the details of the supporting tools and technologies in the areas of:
- Graphics Technologies
- IDB 1394
- Speech Technology
QNX Professional Services has deep expertise and proven best practices in the security and defense industry. In fact, we offer engineering services specifically designed to help customers get to market faster, keep development costs down, and lower their risk in obtaining safety-critical certifications. We also offer a comprehensive range of services to maximize the reliability of your product.
IEC61508 Certification Assistance
IEC 61508 defines the functional safety of electrical/electronic/programmable electronic safety-related systems. IEC61508 certification has been widely adopted in the automation and process-control industry. However, the importance of safety and reliability makes it a relevant criteria for defense applications. Anyone who has attempted to certify a product to IEC61508 Safety Integration Level 3 (SIL3) understands the significant amount of time and effort it takes to reach that goal. QNX Professional Services can help you pave a smoother road to certification through our IEC61508 certification assistance service. By leveraging existing proven-in-use (PIU) data on various QNX-supported hardware platforms and IEC61508 documentation packages, our services team can identify the best solution to shorten your time to certification and dramatically reduce your costs at the system level.
QNX Secure Kernel Extension Service
We introduced the QNX Neutrino RTOS Secure Kernel in March 2009 based on the QNX Neutrino RTOS 6.4. Certified to the stringent security requirements of the Common Criteria ISO/IEC15408 Evaluation Assurance Level 4+ (EAL 4+), this version includes two hardware platforms (x86 with SMP and ARMLE). Recognizing the diversity of our customer base, we offer a range of services to help you obtain the same certification on other versions of the QNX Neutrino RTOS, expand the scope of certification to include modules that are critical to your success, or incorporate new hardware platforms in your certification.
See also: QNX Professional Services
Organizations such as the US Army, NASA, BAE Systems, Harris, Lockheed Martin, Naval Undersea Warfare Center, and Boeing have engaged with QNX Software Systems on a wide range of projects that share the same demanding requirements. Examples these mission critical systems include:
- Unmanned aircraft control systems
- Acoustic sensors for tracking tank movements
- JTRS wireless military radios
- High-capacity data radios
- Autonomous underwater vehicles
- Guidance systems for anti-tank weapons
- Embedded controller for aerospace applications
- Wearable GPS/communication systems for ground troops
- Transponder landing systems
- Military weather satellite test beds