• Drivers Kontron Embedded Compliance
• Drivers Kontron Embedded Components
• Drivers Kontron Embedded Computing

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PikeOS is a commercial, hard real-time operating system (RTOS) that offers a separation kernel based hypervisor with multiple logical partition types for many other operating systems (each called a GuestOS) and applications. It enables users to build certifiable smart devices for the Internet of things according to the high quality, safety and security standards of different industries.

Overview[edit]

PikeOS combines a real-time operating system (RTOS) with a virtualization platform and Eclipse-based integrated development environment (IDE) for embedded systems. It is a commercial clone of L4 microkernel family.^[1] PikeOS has been developed for safety and security-critical applications with certification needs in the fields of aerospace & defense, automotive & transport, industrial automation & medical, network infrastructures, and consumer electronics.

One of the key features of PikeOS is the ability to safely execute applications with different safety and security levels concurrently on the same computing platform. This is achieved by the strict spatial and temporal segregation of these applications by means of software partitions. A software partition can be seen as a container with pre-allocated privileges that can have access to memory, central processing unit (CPU) time, input/output (I/O), but also a predefined list of PikeOS services. With PikeOS, the term application refers to an executable linked against the PikeOS application programming interface (API) library and running as a process inside a partition. Due to the nature of the PikeOS API, applications can range from simple control loops up to complete paravirtualized guest operating systems like Linux or hardware virtualized guests.

Software partitions are also called virtual machines (VMs), because it is possible to implement a complete guest operating system inside a partition which executes independently from other partitions and thus can address use cases with mixed criticality. PikeOS can be seen as a Type 1 hypervisor.

Supported toolchain, IDE CODEO[edit]

The Eclipse-based IDE CODEO supports system architects with graphical configuration tools, providing all the components that software engineers will need to develop embedded applications, as well as including comprehensive wizards to help embedded project development in a time-saving and cost-efficient way:

• Guided configuration
• Remote debugging (down to the hardware instruction level)
• Target monitoring
• Remote application software deployment
• Timing analysis

Several dedicated graphical editing views are supporting the system integrator to always keep the overview on important aspects of the PikeOS system configuration showing partition types, scheduling, communication channels, shared memory and IO device configuration within partitions.

Projects can be easily defined with the help of reusable templates and distributed to the development groups. Users can configure predefined components for their project and can also define and add other components during the development process.

Key benefits[edit]

• Real-time operating system including type 1 hypervisor defined for highly flexible configuration
• Supports fast or secure booting times
• Supporting mixed criticality via separation kernel in one system
• Configuration of partitions with time and hardware resources
• Kernel driver and user space drivers supported
• Hardware independence between processor types and families
• Easy migration processes and high portability on single- and multi-core
• Developed to support certification according to multiple safety & security standards
• Reduced time to market via standard development and verification tools
• Wide range of supported GuestOS types: APIs
• No export restriction: European solution

Certification standards[edit]

Safety certification standards according to:

• RTCA DO-178B/C

Security certification standards according to:

• SAR

Partner ecosystem[edit]

SYSGO is committed to establish the technology and business partnerships that will help software engineers to achieve their goals. As of October 2017, SYSGO is working with about 100 partners globally.^[2]

An excerpt of partners per category is mentioned below:

• Board vendors: Curtiss-Wright Controls Embedded Computing, Kontron, MEN or ABACO
• Silicon vendors: NXP, Renesas, Texas Instruments (TI), Xilinx, Infineon, NVidia or Intel
• Software partners: CoreAVI, wolfSSL, Aicas, AdaCore, Esterel, RTI, PrismTech, Datalight, Systerel, Imagination Technologies or RAPITA
• Tool partners: Lauterbach, Vector Software, Rapita, iSYSTEM
• Supported architectures: ARM, PowerPC, x86, or SPARC (on request)

Supported GuestOS types[edit]

• Linux or Android (ideally SYSGO Linux distribution ELinOS)
• POSIX PSE51 with PSE52 extensions
• Ada, including Ravenscar profile
• and others

End-of-life overview[edit]

Drivers Kontron Embedded Compliance

References[edit]

1. ^http://ts.data61.csiro.au/publications/nicta_full_text/8988.pdf
2. ^'Partner Directory'. SYSGO. Retrieved 12 October 2017.

External links[edit]

• PikeOS Product Note (PDF)
• PikeOS Flyer (PDF)

Contrive Datum Insights proclaims the addition of new informative data titled, global Military Embedded Systems Market to its extensive database. Primary and secondary research methodologies have been used while curating the research report of the global Military Embedded Systems market. The global Military Embedded Systems market is predicted to reach at a CAGR of XX% over the forecast period. It highlights the recent trends, technological advancements as well as some significant methodologies for boosting the performance of the businesses. An expert team of researchers throws light on the global Military Embedded Systems market via industry analysis techniques such as SWOT and Porter’s five-technique. Moreover, it comes with various static as well as dynamic aspects of the global Military Embedded Systems market.

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It includes research studies about the current trends in different sectors on the basis of their scope. The analyst of this report focuses on the static and dynamic pillars of the industries, for a basic understanding of the strategies. In addition to this, it identifies the drivers and opportunities for the development of the businesses. Additionally, it focuses on restraints to analyze the issues from the existing business strategies. It focuses on the various aspects, such as application areas, platforms, and leading players operating across the globe.

Drivers Kontron Embedded Components

Major Companies Profiled in this Report Includes: Kontron, Curtiss-Wright, Microsemi, Mercury Systems, Radisys, Concurrent Technologies

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Global Military Embedded Systems Market Segmentation:

For product type segment, this report listed main product type of Military Embedded Systems market in global. Hardware Devices, Software

For end use/application segment, this report focuses on the status and outlook for key applications. End users sre also listed. Application I, Application II, Application III

Regions Covered in the Global Military Embedded Systems Market:
The Middle East and Africa
North America
South America
Europe
Asia-Pacific

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The global regions such as North America, Latin America, Europe, Japan, and India are considered on the basis of manufacturing, productivity, size, and revenue. This report is summarized with the competitive landscape along with the recent developments in Military Embedded Systems Market sectors for the growth of the businesses.

Global market research objectives:

1. To study and analyze the global Military Embedded Systems market on the basis of different regions or countries
2. To understand the layout of the global Military Embedded Systems market
3. Focuses on the global market with respect to SWOT and Porter’s five analysis
4. Analysis of global growth trends, future projections, and current development status.
5. Analysis of key development statuses such as market expansions, new product launches, and acquisitions.

Major questions addressed through this global research report:

1. What are the demanding sectors for driving this global Military Embedded Systems market?
2. Which are the major key players and competitors?
3. What will be the market size of the global market?
4. Which are the recent advancements in the global Military Embedded Systems market?
5. What are the restraints, threats, and challenges in front of the market?
6. What are the global opportunities in front of the market?
7. How digital footprint helps to expand the business structure and economic outcomes?

Drivers Kontron Embedded Computing

Table of Content (TOC):

Chapter 1 Introduction and Overview

Chapter 2 Industry Cost Structure and Economic Impact

Chapter 3 Rising Trends and New Technologies with Major key players

Chapter 4 Global Military Embedded Systems Market Analysis, Trends, Growth Factor

Chapter 5 Military Embedded Systems Market Application and Business with Potential Analysis

Chapter 6 Global Military Embedded Systems Market Segment, Type, Application

Chapter 7 Global Military Embedded Systems Market Analysis (by Application, Type, End-User)

Chapter 8 Major Key Vendors Analysis of Military Embedded Systems Market

Chapter 9 Development Trend of Analysis

Chapter 10 Conclusion

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