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Embedded Linux Conference Europe
October 28, 2019 - October 30, 2019
The Zephyr Project will be on-site at this year’s Embedded Linux Conference in Lyon, France on October 28-31. Join us at one of the 13 presentations given by Zephyr community leaders like BayLibre, Bluetooth SIG, Intel, the Linux Foundation, Nordic Semiconductor, PHYTEC Messtechnik GmbH, Synopsys and more!
Monday, October 28:
11:30 am – 12:05 pm – Bluetooth Mesh and Zephyr – Martin Woolley, Bluetooth SIG
This session will explain the fundamental technical concepts of Bluetooth mesh, including models, messages, publish/subscribe, node composition and security keys and will explore what’s involved in implementing firmware that uses Bluetooth mesh on the Zephyr RTOS platform. Add it to your schedule here.
12:20 – 12:55 pm – Multi-core Application Development with Zephyr RTOS – Alexey Brodkin, Synopsys
This presentation will examine multi-core application options and considerations using the Zephyr. We’ll start from exploration of use-cases where multiple CPU cores might be beneficial for deeply embedded system including both asymmetric & symmetric multiprocessing (AMP & SMP). Then we’ll discuss current state of multi-core support in Zephyr: what is already implemented and what’s still missing. And in the end we will highlight challenges associated with designing high performance software applications for multi-core hardware using samples on boards currently supported in upstream Zephyr project. Add it to your schedule here.
4:20 – 4:55 pm – Panel Discussion – Building Safe Systems with Open Source Software – Lukas Bulwahn, BMW AG; Kate Stewart, the Linux Foundation; Nicole Pappler, TUV SUD Product Service GmbH; Nicholas McGuire, OSADL; Paul Sherwood, CodeThink & Trustable
This panel will discuss the challenges on technology, software engineering, safety methods, organization and ecosystem when building safe systems with open-source software. Add it to your schedule here.
4:20 – 4:55 pm – Precision Timeouts in Zephyr: Past, Present and Future – Piotr Ziecik, Nordic Semiconductor
In this session, Piotr Zięcik will give insight into Zephyr timing infrastructure and cover recent activities aimed to improve real-time capabilities of this operating system, as well as compare the achieved performance with real-world requirements. Piotr Zięcik will also present plans for long-term evolution of Zephyr timing infrastructure. Add it to your schedule here.
6:00 – 6:35 pm – BoF: Multibuild for Zephyr RTOS – Marti Bolivar, Nordic Semiconductor
The Zephyr RTOS build system currently supports generating a single application image. This build is isolated from other related images, such as bootloaders, secure vs. nonsecure Arm TrustZone images, multi-core applications communicating via IPC mechanisms, etc. Different Zephyr downstream distributions have solved this problem in different ways, but there’s so far no consensus on how to solve this problem upstream. This BoF is meant to keep the conversation going among anyone who is interested in this topic. Add this to your schedule here.
Tuesday, October 29:
2:25 – 3 pm – Zephyr OS Memory Protection – Andrew Boie, Intel
In this presentation we describe the MPU-based memory protection features we have introduced in the Zephyr RTOS, showing novel techniques for working around the limitations of MPU hardware, implementing security domains in a physical memory map (no virtual memory), and maintaining API compatibility with platforms that do not have an MPU. We will show the permission management system to control access to kernel objects and device driver instances, and how both static and dynamically allocated kernel objects are managed. There will be some discussion on how global objects are routed to application memory domains and how we automatically manage size/alignment constraints of common MPU hardware. We will show how simple it is to define system calls. We have implemented futex-like capabilities to implement IPC mechanisms with no system calls required for uncontended locks. We will conclude with ongoing areas of development. Add it to your schedule here.
2:25 – 3 pm – Open Source and Functional Safety: Two Approaches to Bridge the Culture Clash – Kate Stewart, the Linux Foundation
This talk will summarize the current state of Zephyr and the project’s plans for going after Functional Safety certifications, while still handling any potential security issues. This will be contrasted with the ELISA project and how the team on ELISA is working towards new processes and tools to help Linux be confidently used in functional safety applications. Add it to your schedule here.
3:15 – 3:50 pm – A Dive into Zephyr Device Driver Model – Tomasz Bursztyka, Intel
Besides the kernel, the second most important part of an OS is how all peripherals are exposed to the user, finally enabling the OS to access the world outside of the CPU it is running on. Zephyr solves this by proposing a very simple yet flexible device driver model, deeply integrated with the device tree (DTS), making porting hardware to it efficient and easy. Through real use cases and from a developer perspective, this model will be explained as well as the life cycle of a device driver, whether it is native or ported from an existing HAL. Add it to your schedule here.
4:20 – 4:55 pm – Writing your own Gadget with Zephyr OS – Andrei Emeltchenko, Intel
In this talk, the author describes possible ways of connecting IOT devices using embedded boards running Zephyr OS, connected to host PC via USB. In particular, the following sample cases are explained: Export custom radios from Zephyr to Linux host (IEEE 802.15.4 and Bluetooth) so that Zephyr board behaves as a radio adapter for Linux. Author outlines the possibility of making IP bridge out the Zephyr-based SOC board. The device in this scenario behaves like USB Ethernet controller using ECM or RNDIS protocols. Part of the presentation is dedicated to OS drivers for the Zephyr-based boards. Add it to your schedule here.
5:10 – 5:45 pm – Device Tree: Past, Present and Future – Neil Armstrong, BayLibre
Neil will present you the history of Device Tree from its origins, how it has been used for ARM and now RISC-V from the PowerPC codebase, all the very different current usage and an overview of its future application and evolutions. Add it to your schedule here.
5:10 – 5:45 pm – Building a Debug Probe with the Zephyr RTOS – Johann Fischer, PHYTEC Messtechnik GmbH
The talk is about whether it would be possible (and how) to build a debug probe on top of the Zephyr RTOS. Zephyr already has a reasonably stable USB device stack with CDC-ACM and MSD support. The author will give a overview about the structure of debug probe software like DAPLInk, and the USB device stack in Zephyr. Furthermore, the author will introduce the implementation of the components and their interaction in Zephyr. Add it to your schedule here.
Wednesday, October 30:
11:30 am – 12:05 pm – The Journey of Leading Open Source Engineering Team in China – Jocelyn Li, Intel
In this talk, Jocelyn will talk about the various challenges and share how she led the open source engineering team by changing her mindset, embracing the open source development model and role-modeling the way.
– Reluctant to discuss via mailing list
– Embracing community
– Submitting patches with good quality change log and code
– Discussion and debating
– Upstream vs Product
Add it to your schedule here.
2:25 – 3 pm – Running Linux on Constrained IoT Device – Rui Silva, Linaro and Tushar Khandelwal, Arm
This presentation will talk about the work we have been doing to do memory optimizations in Linux kernel and file systems and uses it to build an IoT device frameworks that run on a small platform with limited ram and XIP flash. Add it to your schedule here.
If you want more Zephyr, stay an extra day and attend the Zephyr Mini-Summit on Thursday, October 31. This half-day, single-track event designed to introduce you Zephyr and offer a hands-on experience with boards donated by Zephyr Project member Nordic Semiconductor. Please add the Zephyr Mini-Summit to your current Open Source Summit Registration.