![]() The software here can only use the interface that exists for Linux. The abstraction layer makes it possible for the software you use to employ this webcam regardless of its make and model. For example, if you want to have a video conversation with your friends, you'll need a webcam. To give an example of these controls, it is possible for you to see information about the hardware installed in the slots on your motherboard and benefit from this detailed information.Īlso, this programming interface provides an abstraction layer. In addition, control of high-end software is possible thanks to the programming interface. Deploy the Toradex Easy Installer Image: You may now use the above prepared Toradex Easy Installer package with the Toradex Easy Installer.The Linux kernel, first of all, controls which hardware will run and in what way when you turn on your computer.You may, of course, also change any of the other properties as documented in the Toradex Easy Installer article on our developer website. Adjust image.json: Now adjust the image.json to your linking (e.g., change at least the name and description for you to distinguish it from our original package).Integrate Artifacts: Integrate the above-built artifacts into the downloaded embedded Linux image by replacing the kernel binary and device tree(s) in the archive.Choose the appropriate image for your SoM in the Reference Images for Yocto Project Software Downloads Start from a Existing Sample Image: Download and extract one of the Toradex prebuild images.Deploying the Kernel to an Image įollow the steps below to update your Kernel using Toradex Easy Installer. Run depmod on the target after deploying new or changed kernel modules. Upstream-based Kernel SoCīuilding Linux Kernel Download the Linux Kernel Source The development of the Kernel is made in the master branch for the upstream-based modules and the tags represent versioning checkpoints where we ensure the functioning of builds and features. There you will find the version information of the Linux kernel, U-Boot, Yocto/OpenEmbedded, the Toradex BSP, and Linux images, along with release dates. The required git branch and Linux binaries to be used depend on module type and BSP version, as we will explain in this article.įor a high-level overview of the BSP Versions, check out our Embedded Linux Release Matrix. You can follow the U-Boot building instructions as explained further in this article, and after that, include it in PATH. Select the correct one from the tabs below:Īlternatively, mkimage tool is also built during the U-Boot compilation. You have to choose to download either the 32 bit or 64 bit Arm cross-toolchain, according to the architecture of your Computer on Module SoC. Use version 9.2 of the Arm releases binary toolchains to cross-compile software for Toradex modules: Prepare the Host Machine for Cross-Compilation Install the necessary tools and dependencies as explained in the section Install Tools and Dependencies.Follow the steps in the section Install the GNU Toolchain for Hard Float Calling Convention.Follow the steps described in the article Build U-Boot from Source Code (optional).This content is available at BSP Layers and Reference Images for Yocto Project Software. ![]()
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