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zynq

OPEN HARDWARE, EDGE AI

OPEN SOURCE AMD XILINX KRIA ULTRASCALE+ SOM BASEBOARD

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Picture of the Kria K26 SoM devboard Antmicro’s experience with AI vision solutions spans across FPGA, embedded GPU and dedicated ASIC accelerators, around which we had built many open source hardware projects. Besides our hugely successful open NVIDIA Jetson...
OPEN OS, OPEN SOURCE TOOLS

FULLY DETERMINISTIC LINUX + ZEPHYR/MICRO-ROS TESTING IN RENODE

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Diagram depicting two nodes in Renode In testing environments, determinism is key - having our application run the exact same way every time regardless of outside influences is crucial to long term stability and trustworthiness of the test suite. That is why Renode
OPEN FPGA, OPEN SOURCE TOOLS

OPEN SOURCE HARDWARE ACCELERATOR SUBSYSTEM FOR FPGA/ASICS

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Illustration depicting a chip with VEDLIoT logo Antmicro’s involvement in the VEDLIoT project, an EU-funded initiative aiming at providing a common platform for efficient Deep Learning in IoT has allowed us to develop several open AI/ML ecosystem tools and components which...
OPEN OS

SEL4 USERSPACE DEBUGGING WITH GDB EXTENSIONS IN RENODE

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Diagram depicting CAmkES sample application architecture Debugging is an integral part of the embedded systems development process especially in the context of userspace applications running inside an OS, where it can be difficult to follow the flow of the code. OS-aware debugging...
OPEN SOURCE TOOLS, OPEN FPGA

ADVANCED CO-SIMULATION WITH RENODE AND VERILATOR: ZYNQ AND FASTVDMA

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Diagram depicting co-simulation of Zynq Co-simulation is extremely useful for developing complex systems, especially those targeting FPGA SoCs, where specialized IP cores often interact with advanced software running on the hard CPU. Co-simulation has been available...
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