Location via proxy:   [ UP ]  
[Report a bug]   [Manage cookies]                
Jump to content

Zephyr (operating system)

From Wikipedia, the free encyclopedia
Zephyr
Zephyr Project logo
DeveloperLinux Foundation,
Wind River Systems
Written inC
OS familyReal-time operating systems
Working stateCurrent
Source modelOpen source
Initial release26 July 2016; 8 years ago (2016-07-26)[1]
Latest release4.0.0 / 15 November 2024; 5 days ago (2024-11-15)[2][3]
Repository
Marketing targetInternet of things, Embedded Systems
Available inEnglish
PlatformsARM (Cortex-M, Cortex-R, Cortex-A), ARC, MIPS, Nios II, RISC-V, Xtensa, SPARC, x86, x86-64
Kernel typeMicrokernel (pre-v1.6)[4][5][6]
Monolithic (v1.6+)[5][6]
LicenseApache 2.0
Preceded byWind River Rocket
Official websitewww.zephyrproject.org

Zephyr (/ˈzɛf ər/) is a small real-time operating system (RTOS)[7] for connected, resource-constrained and embedded devices (with an emphasis on microcontrollers) supporting multiple architectures and released under the Apache License 2.0. Zephyr includes a kernel, and all components and libraries, device drivers, protocol stacks, file systems, and firmware updates, needed to develop full application software.[8]

It is named after Zephyrus, the ancient Greek god of the west wind.[9]

History

[edit]

Zephyr originated from Virtuoso RTOS for digital signal processors (DSPs).[10][11] In 2001, Wind River Systems acquired Belgian software company Eonic Systems, the developer of Virtuoso. In November 2015, Wind River Systems renamed the operating system to Rocket, made it open-source and royalty-free.[11] Compared to Wind River's other RTOS, VxWorks, Rocket had much smaller memory needs, especially suitable for sensors and single-function embedded devices. Rocket could fit into as little as 4 KB of memory, while VxWorks needed 200 KB or more.[11]

In February 2016, Rocket became a hosted collaborative project of the Linux Foundation under the name Zephyr.[10][12][1] Wind River Systems contributed the Rocket kernel to Zephyr, but still provided Rocket to its clients, charging them for the cloud services.[13][11] As a result, Rocket became "essentially the commercial version of Zephyr".[13]

Since then, early members and supporters of Zephyr include Intel, NXP Semiconductors, Synopsys, Linaro,[14] Texas Instruments, DeviceTone, Nordic Semiconductor, Oticon, and Bose.[15]

As of January 2022, Zephyr had the largest number of contributors and commits compared to other RTOSes (including Mbed, RT-Thread, NuttX, and RIOT).[16]

Features

[edit]

Zephyr intends to provide all components needed to develop resource-constrained and embedded or microcontroller-based applications. This includes, but is not limited to:[8]

Configuration and build system

[edit]

Zephyr uses Kconfig and devicetree as its configuration systems, inherited from the Linux kernel but implemented in the programming language Python for portability to non-Unix operating systems.[17] The RTOS build system is based on CMake, which allows Zephyr applications to be built on Linux, macOS, and Microsoft Windows.[18]

Utility tool "West"

[edit]

Zephyr has a general-purpose tool called "west" for managing repositories, downloading programs to hardware, etc.

Kernel

[edit]

Early Zephyr kernels used a dual nanokernel plus microkernel design.[4][5][6] In December 2016, with Zephyr 1.6, this changed to a monolithic kernel.[5][6]

The kernel offers several features that distinguish it from other small OSes:[8]

Security

[edit]

A group is dedicated to maintaining and improving the security.[19] Also, being owned and supported by a community means the world's open source developers are vetting the code, which significantly increases security.[12]

See also

[edit]

References

[edit]
  1. ^ a b "The Linux Foundation Announces Project to Build Real-Time Operating System for Internet of Things Devices". Zephyr Project. Linux Foundation. 17 February 2016. Archived from the original on 2016-03-10.
  2. ^ "Zephyr v4.0.0". GitHub.
  3. ^ "Zephyr 4.0 Is Generally Available: Some Highlights". Zephyr blog.
  4. ^ a b Wasserman, Shawn (February 22, 2016). "How Linux's IoT Zephyr Operating System Works". Engineering.com.
  5. ^ a b c d Helm, Maureen (December 15, 2016). "Announcing Zephyr OS v1.6.0". Zephyr Project.
  6. ^ a b c d Wong, William G. (July 6, 2017). "Zephyr: A Wearable Operating System". Electronic Design.
  7. ^ "Meet Linux's little brother: Zephyr, a tiny open-source IoT RTOS". LinuxGizmos.com. 2016-02-17. Retrieved 2018-02-23.
  8. ^ a b c "Zephyr Project documentation: Introduction".
  9. ^ "West (Zephyr's meta-tool) — Zephyr Project Documentation". docs.zephyrproject.org.
  10. ^ a b Clarysse, Ivo (November 22, 2019). "Zephyr – An Operating System for IoT". Zephyr Project.
  11. ^ a b c d Turley, Jim (25 November 2015). "Wind River Sets Rocket RTOS on Free Trajectory". Electronic Engineering Journal. Techfocus Media. Retrieved 2018-02-23.
  12. ^ a b Guerrini, Federico (2016-02-19). "The Internet of Things Goes Open Source with Linux Foundation's Zephyr Project". Forbes. Retrieved 2017-01-12.
  13. ^ a b Patel, Niheer (17 February 2016). "Wind River Welcomes Linux Foundation's Zephyr Project". Wind River Systems. Archived from the original on 21 February 2016. Retrieved 18 February 2016.
  14. ^ Osborne, Charlie (2016-02-19). "The Linux Foundation's Zephyr Project: A custom operating system for IoT devices". ZDNet. CBS Interactive. Retrieved 2017-01-12.
  15. ^ "Zephyr Project – A proven RTOS ecosystem, by developers, for developers".
  16. ^ "Zephyr GitHub page". GitHub. January 26, 2022.
  17. ^ "scripts/ folder". GitHub. 12 May 2020.
  18. ^ "Application Development: Zephyr Project Documentation". Zephyr Project.
  19. ^ Wallen, Jack (2016-02-18). "Linux Foundation announces Zephyr Project, an open source IoT operating system". TechRepublic. CBS Interactive. Retrieved 2017-01-12.