![]() When using pre-built applications from the Xilinx App Store you need to ensure to align your Starter Kit Linux version with the target application assumed Linux version. The K26 and K24 Starter Kit SD card images are available in the tables below. The Starter Kit pre-built FW and SW are aligned with their specific Starter Kits. The secondary boot device is an SD card containing the Linux kernel and Linux root filesystem (rootfs). The primary boot firmware is pre-installed at the factory on the QSPI device. The Kria Starter Kits use a two stage boot process. Xilinx SOM Carrier Card Design Guide (UG1091) ![]() The Kria adventure map is a map of links to help users discover useful documentation according to their evaluation stages. The following section provides links to the product documentation, pre-built firmware and software binaries, and application examples. KR260 Robotics Starter Kit Getting Started The K26 SOMs do not include ECC support.įirst time Kria Starter Kit users should refer to the on-line “Getting Started” guide for their kit: The K26 SOM is shipped without any preloaded FW or SW configurations in the non-volatile memory devices (QSPI and eMMC). The K26 system-on-module (SOM) is a production ready hardware platform. The Kria lineup simplifies and accelerates the system development, helping you get your product to market faster. KV260, KR260, KD240) are an evaluation and early development platform. The K26 and K24 SOMs are meant to be integrated directly into a customers production design and the SOM Starter Kit (e.g. Xilinx Kria is a portfolio of System-On-Modules (SOMs) designed for edge applications in a variety of use cases and production settings. 6 Custom & Production SOM Design Guidance.4.3.2 Instructions to download from repo.4.3.1 Instruction to get from XHUB store.4.1.5 Regenerating boot firmware from BSP.
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