 Alright, so we're here at the Embedded World 2022, hi. Hi, this is Taufik from iWave and we're excited on this last day of Embedded World and we're excited to be here and it's been a great show so far. So what are you showing at the Embedded World? So we are showing a wide range of system-on modules around the ARM SOCs, the Xilinx and the Intel FPGAs. So here we have the complete system-on modules around the SMART, the Q7 and the OSM standard as well as single board computers. So if you look at the various things starting from the IMX8 series from NXP all the way across the IMX. So you say IMX, NXP. So starting from the IMX8M Plus to the layerscape and the complete thermal solutions around the SMART SOC, we have the complete SMART system-on modules and this is the layerscape processor in the SMART form factor, the IMX8M Plus. What can you say about the special skills you have at the company doing, what is your formats and everything? How do you do these? Yeah, so we primarily believe in scalability of system-on modules and over the last two years we have seen that system-on modules are now the preferred approach for your product design keeping in mind the supply chain challenges and in terms of your material, in terms of the supply chain challenges and also your time to market. Guys, what are we getting here, what are these? So this is the newly launched OSM standard, this is the newly launched OSM standard for system-on modules and there's been a lot of good press around the system-on modules and the key fact being these are more shoulder-on system-on modules. So you have the very small form factor and you have the, it eliminates the need for an edge connector which were previously there in standards such as SMART and Q7 and also you have much more in terms of the number of pin-outs, so you have 662 pin-outs on the OSM form factor which gives you a lot of flexibility and scalability. Nice, what is the IMX93? Yeah, so the IMX93 is definitely coming out from NXP in the month of November and we are also building the OSM system-on module around the IMX93 series. So what does it do? It protects high performance? Yeah, it is more from medium performance and more built for HCI applications and for SMART cameras and SMART city type of solutions. What is the open standard module? The open standard module is more of a standard for the shoulder-on, so you can see here there are four standards, the size L, the medium, the small and zero, so these are four form factors that can build upon each other and gives you a standard for the shoulder-on modules. So this is the size L standard and this is the size M standard, so there are various form factors based on the features you require on the SOC. Somebody is asking me to ask about the Silinx RF SOC Zinc Ultra Scale Plus RF SOC. Did you do anything with that? So that's the Zinc Ultra Scale Plus RF SOC, so we have various system-on modules around the Zilinx FPGA and SOC FPGA as well, so this is the RF SOC system-on that's based on the ZDU-49 FPGA and it's more tailored towards the 5G and the RF, the more from those kind of applications. So there's a lot of performance in that? Yeah, it's high performance with a lot of 16-channel ADCs and 16-channel DACs at very high speeds. Why is the chip so big? That is the FPGA, it comes in that form factor and the package which we ensure the scalability across the ZDU-49 to the ZDU-29. What kind of people are able to do with these kind of boards? So these are more tailored towards, yeah, sorry? Some cool projects. Yeah, so they move towards medical imaging, your high performance compute, the high speeds spectrometers and your test and measurement equipment. So these are all tailored towards that. Let me stand right here. And the Samora right here. So what's the architecture in there? Yeah, so this is the FPGA plus an SOC FPGA, the Alpha Scale Plus as an ARM core as well as an FPGA. So all the way from the ZDU-4, the ZDU-5, the ZDU-7, all the way to the ZDU-19, we have the system on module which provides you complete scalability. Can you show it like this? Yeah. It looks cool. Big chip. Yeah, big big FPGA. Yeah. And it's all the customizations. Exactly, customization. And this is a complete system on module with the board-to-board expansion connectors which you can leverage upon to build your based on your features you require. This is a smaller chip. Yeah. This is a smaller chip. This is the Zincal Trust Scale 4 series. All right. Cool. And what's next? What's next is you also have the telematic solutions out there. So these are the complete being the system on modules. And also like the custom design boards. In this case, customers ask us to build the complete product. We enable customers with the career board design over our system on module which they can use and go to markets with their product. If I come back right here, so there's a question in the lecture. What is the cost and how to get one? Do you have any development boards for RF SOC? Yeah. So you can always reach out to us at contact at ivaveglobal.com and these development kits are available on Mouser and Dijiki as well. And we have the development kits for the complete range of system on modules. Nice. Cool. So is it great to be back at the end of the world? It's amazing to be back face to face after a gap of three years and we do see a lot of crowd coming in and it's been a good three days of experience. It's nice to reconnect. Yes. With partners, suppliers and customers, it's been a good networking ground for the last three days. All right. Let's see if there's one last comment coming in. What is very exciting for the future? What's the effortless machine learning? So that's Sima. It's so close to there. So he's Eddie from Sima and Sima is basically an immense company. We're going to talk in a minute. Sure. It's live stream. Okay. So do you want to speak about this? He's standing right here. So what are we looking at here? This is our MLSOC. The product from Sima AI. We are a company founded in 2019 by Krishna Rangasai. He is exilings. So this is our first chip. As I said, it's an MLSOC to enable effortless ML at the edge. As you can see here, most of the blocks look like an SOC. Building block, but the crown jewels of our SOC is the MLA, the accelerator, delivering 50 tera-ups at 5 watts. So what we support is definitely the computer vision market segments, like smart camera, robotics, autonomous drives, autonomous systems, as well as drones of course. As you can see here, we can support any network, any workloads, any machine learning algorithm. We are delivering 10x performance versus other players all at a push-button software experience. So this is a beast. Sorry? This is a beast of performance. Is it the industry leading in terms of performance for what? Yes, especially for Edge, because 50 tera-ups at 5 watts. We haven't seen any company doing this. And also the most compelling part of it is that we can achieve 10x performance versus our competitors. And also the software flow is really push-button, as I just mentioned. And you've got some A65 chips in there. This is one SOC. So this is a Quad Core A65 Cortex E65 processor. And this is the pre-processing. So the compute engines are basically the application processor, the EV74 computer vision processor. It's a vector processor. And then of course the MLA, which is doing all the inferencing of the neural networks. But typically some parts of the pipeline have to be implemented. For example the EV74, which is a vector processor that can implement the number of layers which are not supported by the MLA device. So what's the market? What are people going to be doing? Initially we'll focus on smart vision, smart cameras, drones and robotics. These are the three market segments that we will focus on initially. Later on we will also add the healthcare medical market and also the autonomous drives and autonomous systems. And how soon is it coming out? Excuse me? How much time do you need to finish? It can work. It is working already. It's real. It's real. Where's the chip? I don't have the chip here. And I'll be patient. It will be shown very soon. It's already taped out? Yeah, it's taped out. How many people have it? We have... Nice. And how's the partnership here with iWave? How do you work together to get something like this done? Maybe you want to check for it? iWave is a long-lasting partner with a number of people that are in the company and they have very successfully helped us build our initial boards. We have a combo board. That's what we call it. It's a kind of an evaluation board to allow customers to evaluate our technology. And then we also have a PCI Express production board and we're working on a dual M.2 module also with our SOC. But they are very instrumental and actually very key partners to us to enable our products in our go-to-market strategy. So you had a great and better world? Yes, it was really good. We have seen a lot of customers and a great also networking event for all of us. Where are you based? I'm based in Belgium. Do you have any headquarters? No, the headquarters of SEMA is in San Jose. We have the big sites, of course, in San Jose and we have another major site in India. We are the first office in Europe, let's say, the smaller office. So the demo you have there, is it on final silicon or on programmable logic? It's dedicated silicon. It's built from the ground up, the board. Where can we see the demo? The demo. And there's more, maybe we want to talk about it. So this is a presentation, but after this presentation, this is a running video. So here you can see an overview of what we are doing and which markets we are focusing on. As you can see, we are focusing on robotics, autonomous vehicles, also healthcare, but the initial focus is on the robotics. So what's the price? That's something we would like to take offline. No comment about it. People can contact you and place orders and everything. Good question. Anything else you want to talk about? No, it's all good. It's been a good three days. And Srima is also one of the leading partners and the MSOC coming out from Srima and we're looking forward to building a good partnership ahead. How many partners do you have in the industry? So we work closely with major silicon vendors starting from NXP, Xilinx, Intel, with also a few more partnerships that have been signed up in the last two, three days. So definitely at EmberDural 2023 we'll have more partners on the wall. What did you sign? I'm joking. Okay, so that's cool. And headquarters? We're headquartered in Bangalore, India and we do the complete manufacturing in Japan but aim to have a global footprint. In Japan with the best SMT machines? Exactly, yeah. High quality. High quality, right? Thanks a lot.