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- Zephyr Project
Zephyr supports more than 750+ boards Search our list for the hardware used in your application This diversity of supported boards gives developers and product manufacturers multiple options to solve their embedded RTOS challenges with Zephyr
- Zephyr Project Documentation
Welcome to the Zephyr Project’s documentation for the main tree under development (version 4 1 99) Use the version selection menu on the left to view documentation for a specific version of Zephyr
- Getting Started Guide — Zephyr Project Documentation
The Zephyr Software Development Kit (SDK) contains toolchains for each of Zephyr’s supported architectures, which include a compiler, assembler, linker and other programs required to build Zephyr applications
- Intro to Zephyr RTOS
Zephyr RTOS is easy to deploy, secure, connect and manage It has a growing set of software libraries that can be used across various applications and industry sectors such as Industrial IoT, wearables, machine learning and more
- About the Zephyr Project
The Zephyr Project is a Linux Foundation hosted Collaboration Project It’s an open source collaborative effort uniting developers and users in building a best-in-class small, scalable, real-time operating system (RTOS) optimized for resource-constrained devices, across multiple architectures
- Introduction — Zephyr Project Documentation
The Zephyr OS is based on a small-footprint kernel designed for use on resource-constrained and embedded systems: from simple embedded environmental sensors and LED wearables to sophisticated embedded controllers, smart watches, and IoT wireless applications
- Announcing Zephyr 3. 7: New Long-Term Support Release of Zephyr RTOS
Every four to five months we get a new release of Zephyr RTOS, and it is always my great pleasure to dig into what the community has been working on, and share some of the highlights with you
- Zephyr RTOS Virtualization and Memory Isolation
Open-source ACRN hypervisor and Zephyr RTOS can be used together on an x86-based platforms, such as Elkhart Lake CRB The combination leverages the isolated virtual machine environment of the hypervisor and the real-time capabilities of the operating system
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