 Hi, please introduce yourself. Hello, my name is Anton Kuzmin and I'm responsible for all the development efforts here at a re-symbed company and one of our most recent development and partnership is with the new reNASA's chips So this is the RZ, what do you call it? The VL, V2L? V2L is not this particular chip, but we have it on the other design. Those are RZ5 based on, so it's a microcontroller chip, embedded controller, built around the RISC-5 architecture based on Undisemiconductor RISC-5 core and Recently we introduced this S-GET standard OSM model built around this chip and a new development platform for this model which is a 5-Berry. It has this chip mounted on the Raspberry Pi form factor board so you can easily prototype all your designs with this chip and use it for development with the Does it work? Yes, of course. So it's actually running there? This demo is running on the other reNASA's chip, a bigger one, RZ V2L and It's a nice one. It has an arm. Yes, it's a dual core arm CPU with their video processing unit and also artificial neural network accelerator chips and you see here the demo running the YOLO neural network with their image recognition and notification. So it runs the streaming video from the USB camera through the accelerator chip and Immetry cognition neural network and then shows it's on the display with the bounding boxes and everything. Nice. What is this? This one is the same standard familiar as a RISC-5. It's a RISC-5 S-GET family, but these two boards are for the Different CPU. It's also arm architecture, but a little bit bigger. So with S-GET OSM standard, we have a Small-sized, medium-sized model and also a bigger size models are available. Those are arm. It's from ST Micro STM32 MP1 But it's running on Linux, for example. Are running again? Yes. And this one is running a YOKTO distribution, YOKTO Linux and we do support different embedded Linux distribution on all our products and that's YOKTO, which is an industry standard, but for the Easier start for somewhat lightweight distributions. We also support a build route. That says a kind of list of all the stuff you do. Yeah, above you can see almost all the key words or the services we are providing But here on the display we have a nice product line. We have starting from different System-on-modules based on the CPU, different CPU architectures. Those are Atmel, small-arm CPUs. Then we have NXP iMix 8M Mini. Then we have NXP iMix 6UL as an older product. Those are even a legacy products, but they are here to stress that we Support for our industrial customers. We support longevity, lifetime. 15 plus. 15 years. For many products, for some of them we can see later on we have even 20 years of lifetime. Which one is 20-year-old product? Not 20-year-old, but with a guaranteed lifetime for 20 years. Those are micro-cheap, smart-fusion, oh sorry, not smart-fusion, Polar Fire system-on-cheap FPGA and that's interesting that it has a combination of the Here FPGA matrix and hard CPU core quad core RISC-5 architecture. And all those modules are running also. RISC-5 running on the FPGA? No, RISC-5 running on the hard processing core on the same chip with the FPGA. Alright, that's fully deployed, fully working. Yes, absolutely. And supported and support for those modules is available both from our metal layer for their Yocto and also upstream to the mainline Linux kernel and to their micro-cheap repositories. So they are not only fully running the Linux distribution, but it's also all the changes upstreamed so we do contribute our hardware support for our hardware to mainstream Linux distribution. Your company is around the world? We are located in Munich area, but customers, we have quite a lot of customers in the States. And you support everywhere? All around Europe, Japan, some China and Indian customers recently. Israel, yeah, so all around the world, I would say. Maybe South America is not that visible on our map, but generally, yeah. And people who have projects work with you and you work together to get it done? Yes, yeah, right. And we are not only selling our modules, we are providing services to help our customers to design in our modules so if some customers have specific requirements or if they need some custom development, we can develop modules for them, a system for them based on their requirements and the technologies we own. And also, we are trying to participate and to partnership with their both semiconductor renders as a renaissance, we are a design partner of Intel, design partner of Microchip and we are trying to participate in promoting those products. So in MIV Summit, it's a Microchip event. We have webinars and trainings together with Arrow, semiconductors and Leitone and FPGA Congress presence. So quite active on promoting those projects and products as well. Just getting, because many people are still somewhat scared of their FPGA technologies and especially in system on chip FPGAs because such projects involve their expertise or require expertise both from the hardware design side, from the FPGA development at the same time from the embedded software development and what is the strong point of our company is that we are capable to provide an integration of all those technologies. We know all of them and we can help customers and willing to help customers and educate people. FPGAs have a lot of potential, you can do anything you want with an FPG. And they see a lot of development recent years and yes, we are very enthusiastic about it. Especially when you want to have long term support, you can potentially make things work longer and longer. Because you can update, effectively you can update your hardware without updating your hardware. You can provide a new functionality, extended functionality and change it. But what is good about them, both now Intel and Microchip support that they do guarantee a lifetime of 15 or even 20 years for their products. And we believe that Microchip or MicroCMI have not obsoleted any single family. So some of their chips are selling for more than 10, 20 years already on market. And that serves as a good promoting point especially for the industrial customers, for the customers in the embedded area. Because the design cycles are relatively long. It takes another two to five years to design in something and then you are not going to change your hardware platform for another 10, 15 years. You just have to use it and have a supply, have to manufacture your devices. Thanks a lot. Thank you. You're welcome if it's something suitable or you can make anything out of it.