 Foda stands for firmware update over the air, which is the ability to update remote devices. So what does it bring? I would say it saves on cost and time and has some great security and power filters. It's a cost efficient process because you can get rid of unfilled resources to support device updates. It's also time efficient because you can run a multicast update, which is the ability to remotely upgrade device subsets in the same fleet. And finally, Foda is a must to support new features like security upgrades or underfly power optimization for widely spread devices. LeraOne is a low cost LP1 protocol addressing many different applicative use cases, such as smart buildings, smart farming, but also smart metering, lighting, asset tracking, etc. All of which with a very low power energy budget. The key is to support devices with a small memory footprint to reduce both bill of material cost and time on air. The smaller the packet size, the faster the fleet will be updated. So to do this, STN collaboration with Actility are demonstrating how to run Foda over tiny devices with only 256 KB of flash. The setup is as follows. On the network side, everything runs on Actility's ThinkPark suite of LeraOne Core Network software, enriched with ThinkPark reliable multicast server. Whereas on the end node side, based on the STM32L4 microcontroller and the SEMTech transceiver S61276, a complete Foda stack is running, including reliable multicast libraries, but also fragmentation, clock synchronization, and firmware management, for example. Yes, definitely, we are glad to perform this demonstration on Actility's production server that we're ready to use and certify Lera on stack, running on off-the-shelf STM32MCUs. And last but not least, everything is fully compliant with Lera Alliance recommendation for Foda from Technical Committee.