 Hello and welcome on ST Michael Trainings Booth here on Embedded Ward 2023. My name is Roman and as every year I'm very happy to give you a Booth Tour with our dear friend Charbox. So are you wondering what are the great news we are having here this year? Let's check it out together. Nice. As you can see the booth is pretty busy. It's Thursday, it is in peak. I can tell you yesterday during Wednesday it was fully packed, crowded. And that's great because this is what we were looking for to have our customers, partners with us. Because we have a lot of new things that we have introduced recently in the beginning of 2023. Maybe some of you have been watching our STM32 Innovation Live event which happened last week. And at that event we have introduced three brand new STM32 series. And the great thing is they are not only introduced but they are here. They are available and everybody can start using them. One of them is our new entry level STM32. It's called STM32 C0. It's an extension of the existing STM32 G0. And the main benefit for customers is to bring 32 bit microcontroller to the price tag of today 8 and 16 bit devices. So customer doesn't have to ever wander anymore. Shall I use 8 bit, 16 bit? You can go straight forward to the 32 bit and have the freedom and flexibility to start with C0 from 8-pin package. 16 kilobyte of flash going up. So I see my colleagues are busy but maybe we can ask them some questions about the C0 if you mind. So Simone and Loran are our two colleagues here about the C0. So guys tell us something. What is the special about the C0? So the C0 is the new entry level family. So the goal is to compete the 16 and 8 bit microcontroller. While having faster CPU with up to date peripherals more accurate and faster ADC. So you will find two dies, both 32K flash memory inside and both share the same peripherals. The only difference is the RAM size. So the C031 is 12K and the C011 is 6K. Inside you will find the basic stuff that you need for the application. So I2C, SPI, USART, you will find plenty of timer. You can do even motor control with the timer. So it's a very nice feature, the MCU. Yes. So you have also DMA. Perfect. DMA is one of the great advantages of this MCU comparing to 8-bit because today on 8-bit you rarely find this. So yeah, thank you Simone. And as you have seen we have also two new Discovery kits which are very easy to use. They are compatible with Arduino platform. So really we are ready full speed for you to start working with these devices. That's a good price for the Discovery kits. Yes, so of course we keep the price so it's affordable. I don't know the exact price but it's definitely below 20 USD. Both are around 10 USD and this one is 17 USD. Thank you. Thanks. So that's the C0. It's there, everybody can start using it. We are distributing a lot of boards. In fact for the C0 we are supporting our customers here during the three days of the show with 1000 nuclear boards. So now we should have 1000 people, what is starting the development? So people, students, everybody can just queue up and they can talk with you and they can get one. Correct, correct. That's cool. So C0 is one of the first news. The next one, because I promised you we have introduced many new stuff, is the STM32 H5. So the letter H is really a new thing within STM32 because so far we have F, G, L, U and now we have H5. So what is H5? H5 is more targeting or positioning inside the mid-range of our microcontroller portfolio. You can see it as a kind of alternative to the existing devices like STM32 F4. It brings new peripheries like I3C. So yes, not I2C but I3C which is the extension of I2C bringing possibilities of dynamic addressing, low power modes, management and many more. All right, so we can try to get this like very busy at this area. Talking about the stuff. So that's one of the most busy spots. It's not only because it's here at the entrance but the device is very interesting. Today the devices like F2 and F4 are one of the most used devices from STM32 portfolio. They can cover a variety of different applications. That's why the H5 is so much interesting. And it's not only the I3C that is Ethernet enabled. We have improved a lot the security offering on this device because the security is becoming more and more important. And this is the first MCU which is certified for PSA level 3. Nice. And basically they have conversations going on right here and showing it off and all these different boards right here. Exactly. So after the very well-known Nucleos we have as well the Discovery Kit, the Nucleos boards are available. So as for the C0 we are distributing them here for interested customers, students or geeks, makers of STM42. Exactly. And the Discovery Kit which you can see here is not yet fully available but it will become available during the first half of this year. There is a little display. There is a little display. There is an Ethernet port. There is a support for USB Type-C. So on this exact demo we are demonstrating the USB Type-C dual-role device. So it means that the USB port can act as a source or as a sync and they can change their role dynamically in between depending on the application use case. Nice. It's a big start at the booth here. Oh yes. Oh yes. H5 is our new start, definitely. And when you launch something like this, long-term support, huh? Very important question of course. So the longevity commitment around STM32 family is there. We have what we call 10 years longevity. It means when we launch the product it's 10 years. But for sure for many of our customers 10 years is not enough. And that's why we are prolonging these 10 years periodically. And a very good example is the first STM32 F1 which has been released back in 2007. So today in 2023 it's 15, 16 years since we are producing it. And still today we guarantee the next 10 years. So people can be really secured and not afraid of using these devices. And it's valid for all the families. And that's great. That's important for you guys. And when you develop something for one platform you might be more or less easily able to port it over to the next future products. That's true. So for example the STM32 H5 is based on Cortex M33 Core, which we have introduced together with the U5 family back in 2021. And so this is the common thing. Then it shares the same or similar security profile that we are trying to introduce on all our new devices. So you will see it also later on with the new STM32 MP13. And moreover I told you it's alternative to F4 devices and it's fully pin-to-pin compatible with the F4 line. So then speaking about the U5, basically as I said the U5 has been introduced in 2021. But now we have enlarged the family because we want to have the U5 really covering a big scale of applications. So today the U5 is being scalable from 64 kilobyte of flash up to 4 megabyte of flash. And not only for megabyte of flash but as well 2.5 megabyte of SRAM. Which is great because engineers are always hungry for more SRAM. And for applications like graphics for example where you want to drive a display you need a frame buffer to prepare your images and then push them to the display. And there is very cool demo here. Hopefully we will be able to show you as well. So what happened on this demo? On this demo we have a rounded display. So of course not all the applications that they have a rounded display but it's a very nice demonstration. And on this device as I said there is a big RAM so we can host all the frame buffers inside. And moreover to support the graphics we have the inbuilt new graphical accelerator called Neochrom. Maybe Jan can tell a little bit more. It means that now we are using the GPU. So now the vector graphic rotation and computation is done mainly not mainly but it's done by the hardware. So you can see that the load of the CPU it's more like nothing and still we are able to like very smooth movement. Now if we disable this GPU graphic and now it's handled only by the CPU you can see how painful it is and we also like overload the CPU. So this is the main advantage of the U5 with this dedicated GPU accelerator. What's Neochrom? Neochrom is just the naming of this GPU. It's the brand we gave to this graphical accelerator. Maybe some of you know our ChromeArt which was the previous graphical accelerator. In fact ChromeArt was a dedicated DMA because at the end when you are creating graphics basically you are reshuffling data from A to B because you are taking your assets for example from Flash then you are building your frame buffer inside the RAM and then you are moving this frame buffer to the display and all these are basically only manipulation. But the ChromeArt was already able to make some extra functions on this manipulation like alpha blending operations etc. But this new Neochrom is really supporting full vector graphics so you can implement not only simple graphics but full vector graphics and as you have seen from the demo with Jan the GPU load is helping a lot to reduce the CPU load. So you can do graphics which up to now wear more in a range of high and expensive microprocessors. Now you can do it on a simple microcontroller. It used to be on the Cortex-A stuff. Exactly. On the MP1 maybe. Absolutely. So really to implement this type of graphics with the movements with the vector support you can imagine like navigation. Today we have a lot of customers doing e-bikes or some sport equipment where you want to have a navigation and then the display of the maps is vectorized. So with this device you can do it with minimum CPU load as you have seen on the demo. And low power consumption for all this stuff. On top the U5 is keeping the continuity of our low power technology. So you have a good support of the dynamic consumption as well as many low power modes. And we also keep the famous LP BAM feature. So LP BAM has been introduced also with the U5 back in 2021. And it's a possibility to chain series of operations between peripheries and memories without the need of waking up the CPU. So you can be in a stop mode while the timer is triggering ADC. ADC is moving data to RAM. Then these data are taken and pushed to the UR to send them to outside world. Cool. Alright. So that's the U5 extension. Moving on around our booth. I'm very sorry. We are moving from the new MCUs to connectivity. Because connectivity of course is a big thing. Everyone today wants to be connected somehow. Why red or why less? And a big, big thing today which everyone wants to hear and talk about is metter and vitio. Maybe if you could help us to show us what are we showing today. And how we are progressing with the implementation of metter on our devices. What we are demonstrating here is our first integration of the metter stack to be running on our STM32 WB55 device. So we have... A few weeks ago we published on GitHub on STM32 hotspot the projects for STM32 WB55. And we are simply running the projects here. So it's a very simple lighting application. And we have here two setups. So we have a border router with our RCP again running on STM32 WB. So which works as a metter gateway. And we have two end devices connected to the track network which is created by this border router. Okay. By the same gateway. And we can control the two end devices running the lighting application from the smartphone. Using the chip to the APK so against something that everyone can download from GitHub. So this is like the development setup. So where you have everything under control. You can see what is happening. You can start to explore metter. And we have here that's a more I would say already something that is closer to what could be put on the market. So we have a Googleness hub with the running the firmware that is already available. The device that you can already buy. It's supporting metter and it's supporting the track is running the border router for track. Okay. And we can also control our end device which is basically running almost the same firmware. Like this device is here. Okay. They are just connected to another network and they can be directly controlled from the Googleness hub. Okay. So that's something that everyone can already start to play with. Because the metter is new for everybody. But you see that there are already setups you can easily build at home. And you can start to play and explore the solution. Perfect. Thank you. Great. So you see metter is still relatively new. But we are progressing with its implementation. And as we said customers are today. They can download on GitHub the XCube metter package and start evaluating what is metter. And how it can enable the application to be more interoperable for any smart or smart home or factory smart home systems. Nice. Okay. So for sure connectivity is not only metter. We are as well demonstrating our complete portfolio of BLE-enabled products. That was the demo around which is I think is also quite nice and it would be nice to stop by. So over here we are showcasing the mix of a variety of products that we have available today for 2.4 GHz. Mainly BLE implementation. And maybe Dominic can say a few words about the demo. Sure. So here is a let's say wild portfolio we have now in hands for BLE solution. Okay. From low end to high end solution. Okay. Which one is the low end? So the low end are those one. Okay. And you can move to high end solution thanks to the STM32WB series. Okay. So we're on top of the pure BLE. You can read ZB thread and so high end appealing technologies such as metter. So now we have everything in hands. The customer just can let's say concretely design their own solution, their full solution based on STPOL for you. And on top of this in everything of the full ecosystem of STM32WB and so on. So no doubt we'll success. Cool. Thank you. So thanks Dominic. Very good. Welcome. Whatever the customer wants to implement could be a simple beacon. Then of course he will go and use the low end solution. If he would like to develop a border router we have seen a bit. Of course he will need more performance, more security than he will probably choose the WB. Okay. All right. So moving along on this demo pod we are showcasing very interesting technology. Maybe you are aware of it's our 60 gigahertz transceiver which can enable our customers to replace what they are today being implemented by physical connectors. So any high speed transitions and submissions they can replace it optically through our 60 gigahertz transceiver. And if maybe Fabrice could help me to a little bit describe this demo for you guys. So here in fact what we show is a solution to remove connectors basically and to solve the issues with traditional plug and pins. And what we demonstrate is a contactless one gig internet data communication while the system is rotating. So we display the video stream from this IT camera and we are using one gig internet and we go over this system which is rotating and we display the video stream on the PC. Okay. So typical distance is a couple of centimeters, two centimeters. And we have another solution doing more or less the same but with a contactless USB 2 which is more addressing wireless and mobile application. And at the end the final goal is to let's say mix with wireless power technology so that you have a full contactless power and data which means that you can completely remove the USB 2 plug from the device. You just put your phone on a table. You can recharge it and get a data link. Exactly. A wireless charger could potentially add this data functionality. Exactly. Data and power to remove all connectors. How close do you need to be for the contact to happen? You can go to the contacts or a couple of millimeters and the maximum is typically 20 millimeters. So basically through the case. Yes. You can go through any non-metallic material. So plastic, glass, it works. Which allows at the end to make devices completely sealed, waterproof, dustproof. No more pins which are not reliable at the end. And no chance for file corruption or data problems or anything. No. It just works. It works. Right. Same like USB. Exactly. It behave like a cable in fact. You have a USB cable. You cut it. You put ST6C and you establish a USB connection without any latency. There is no latency with the technology. There is no software stack. There is no pairing like with Bluetooth or Wi-Fi. So it's immediate data transmission because we are using a 60 gigahertz RF2 signal. USB are talking up to 80 gigabit per second. The new spec. Yes. What is the maximum speed? This one is USB 2. So we sustain up to 480 megabit per second. For now. For now. Could be more in the future. We need another version. It will come but later USB 3. We are thinking about it but not for tomorrow. Okay. Cool. Thank you Fabrice. So you got it really in detail. And yes, let's move on. And one of the next new STM32 that we have released still recently. In fact one week ago is the extension of our STM32 MP1 series. So after having the MP15 which we introduced back in 2019. Now finally we brought let's say the lower more cost effective version. It's called MP13-1-3. The main difference is it'songle A7 core running up to 1 gigahertz. But it is in the same time, two Ethernet ports. and we have improved quite significantly the security features of the device. This is the latest version of the MP1. Correct, exactly. So customers today, if they don't need the power and they don't want to pay the higher price tag of MP15 with two A7s, Context M4 inside, they could grab and use this MP13. And thanks to its security features we have also been able to reach very nice PSA level certification levels which could be very interesting for point of sales type of applications. But not only. You showed here the MP13. Yes, you can see it already here on the table. Let's check it out. Yes, because it's a nice table. So what do we see here? So over here we have the MP13 board which is being connected to two drivers thanks to the two Ethernet ports and in the same time it is processing a data from a camera here on the top. The camera is sensing the ball and is giving the instructions to the MP1 which is then manipulating with this platform to bring the ball from start to the finish. That's one of the automatic mode of this game, we call it Maze Game, but it's to demonstrate the performance capabilities, the connectivity of this device. Nice. It has a lot of potential. Absolutely. Yes, definitely. So another application example of implementing this MP13 is this interesting rover. We have decided to show it more statically because otherwise it would take a lot of space. But this guy, this animal, how to say, is full of ST components. So including the MP13 for being the overall brain of this device, again, having the drivers for the motors, having the, let's say, the environment for controlling the arm and the camera. So it's a nice example of how our components can be used to develop such a robot. Cool. Yes. For automation, potentially. Exactly. So the MP series is targeting industrial automation customers. It goes up to the industrial temperature range. So it's not a device only for consumer applications. It's a really industrial device. Cool. And what I can say, and it's no more a secret, on this device we will also this year release a support for a real-time operating system. So for customers which would like to benefit from the power of A7 core up to 1 GHz and the set of peripheries, but they don't want to go with Linux for whatever reasons, they will have the alternative to use a real-time operating system as well. Wow. Cool. Great. Okay, lots of stuff. Where are we going next? Lots of stuff, yes. So on this, on this board, we are focusing on our graphical offerings. So we have seen already the U5 with a rounded display, do you remember? And maybe if you look on this nice wall, maybe we have a series of implementations for our customers that are implementing graphic user interfaces, so the GUIs. And it's really mixed starting with our MPU products, the MP15 or the STM32-H7 high-end microcontroller down to some more simple devices, like for example, even implementing the graphics with STM32-WL is possible. Okay, now we are not displaying anything, but normally there is a gateway communicating with this end device and displaying the interface. So these solutions are completing the offering we have for you, for our customers, when looking after implementing graphical user interfaces. Nice. That's a big wall of graphical user interfaces. Yes, in total we have, let's say, 14 different solutions, so it's great and gives a lot of flexibility to our customers. So many partners. You have to realize on these GUIs. Exactly, and I think that's the beauty because at the end, me as a customer, for example, I can choose what solution is the best fitting to my needs. Do I want to use C? Do I want to use C++? Do I want to use commercial solution with full support? Do I want to use open source solution? So you have all the flexibility in your hands. All right. And that was always the mindset and the mentality we had inside the STM32 ecosystem to offer our customers a lot of flexibility and a lot of options how to realize their final products and final applications. I mentioned to you that with H5 and MP13 we have increased a lot the security offering. And I think it's worth to bring you to decide where we are explaining to our customers what is the journey when they need to implement certain level of security. Because today's security, as we said, becoming more and more important. We have to be sure that all the connected devices cannot be hacked. And we work not only on the silicon level like the H5, which has a lot of features, not only the cryptography engine, but possibilities to store, securely the keys. And then in order to be able to help our customers to implement these security features we are releasing a tool which is called Secure Manager. And I hope one of my colleagues will maybe tell you more as you can see they are all busy. But in fact this thing will allow our customers to implement from secure boot up to secure communication or storing confidential information in an easy way without the need of studying a lot of documentation but do it in a graphic user way. Maybe I can just go and listen to what he is talking about. Put the camera. Let me jump in. With the remote attack there is no way to have access to your assets, to your secrets. Exactly. They need to come back when they have time just after. One of the implementation of these security features as I said for the connectivity and on this demo pod, for example, we are demonstrating the STM32 H5 and its features enabling our customers to make a secure connection to a cloud and maybe Jeff can tell you more. Yep, yeah. I'll have to bypass the screen, yes. Let's check it out. Can I switch you over to that side? Secure AWS IoT. So what are you showing here? Right. The new device which is the H5. The newest feature inside this device is our ability to pre-provision the chip at factory level, ST's factory level, with a keeper and a certificate. So that means when you want to do your cloud connectivity all you do is register the ST root certificate in your cloud account and when you connect your device through the TLS connection you'll be able to authenticate the device certificate with the root certificate that's inside the generic root certificate ST. So you put this security at the factory when you tape out each chip. Yes. How's that possible? Not sure of the full processing technologies in the factory yet. Well I think here we are really leveraging our experience we have from our secure microcontrollers so ST is also producing devices for bank cards and payment terminals where the level of the security is the highest and inside the company we connect the right experts together because we have a feeling and we have a feedback from you that the same level or near the same level of security features are needed on the day to day applications today. Perfect. So thank you Jeff. No problem. Basically moving on we have a similar implementation at that case it was the implementation with AWS from Amazon here we have similar implementation with Microsoft Azure because these are the two biggest platforms today we have from our customers then moving along our booth it would be quite nice to say three words about what could be very interesting for every user who would like to start or is already maybe working with STM32 and is wondering where to start which micro to choose which board can support me which software exists and for that we have created and upgraded this year what we call STM32 developer zone and we will try to reach the place so maybe let's go around we'll be faster and basically here on this developer zone as I said we are trying to help our customers to start working and evaluating our STM32s in a quick way maybe Amel can tell us a little bit more about it Hello. Here I'm presenting the STM32 developer zone so the STM32 developer zone is part of the STM32 the ST.com website how to go to the STM32 developer zone we are at ST.com website we click on STM32 developer zone we have two main entry points one for MCUs another one for MPUs let's go to the STM32 MCU developer zone what will we find there first of all for someone who would like to develop based on the STM32 products what this person has to do is to select the suitable microcontroller or the bird from ST Portfolio so let's for example look for a suitable microcontroller we will find a selector we may do some filtering here to select the suitable microcontroller for example let's look for the ones that are based on Cortex and STM32 we can also do some more filtering and fine tune our choice but let's see now the ones that are based on M33 this is the list of the products which are based on M33 so you already have a bunch yes overall basically today the STM32 portfolio of microcontrollers you can find nearly 4000 different part numbers so it's not sometimes it's almost a headache to select the right one even for us but from the opposite the cool thing again for customers is they have a possibility to find the best between product in terms of features and price tag for the application and we realized this with so many part numbers and there was a good motivation for us to create and release this developer zone so what Amel shows you was really the entry point of the product then maybe you are wondering which board can be used to start working with this product and that's what also the developer zone can show me yes exactly if I click here I can check what are the boards that can be used by someone who would like to develop on the STM32 products he can select either a nuclear board or discovery or more advanced one which is the evaluation board the hardware is selected now we want to set up the ecosystem or the tools that can help us in order to develop we are providing here a shortcut to all the STM32 related tools that can help us to develop our application first one is the STM32 Cubemix for the configuration and then we need to compile and update our application and debug it there are several tools that can be selected first one is the free one provided by ST which is the STM32 Cubemix IDE you can also select one of the ideas provided by our partners you have also the possibility to go further while using the CUBE programmer some other checking capability with this tool and you can also monitor your application if you select to use the STM32 CUBE monitor so these are the tools that you need in order to develop your application and the good point here is that you have all of them on the same entry point which is the developer zone besides to this at the developer zone we are promoting the latest or the main solutions that are provided to ST but before moving to this we have the embedded firmware packages when you are using our tools you will need to use these packages which we will be called later so for each product we have a dedicated package and we have also some expansion package we have other solutions based on Azure RTOS and many important point here from this entry point you can go to GitHub visit our repository and check the examples that we have and all the packages that you may use for our products so even at ST you have to use this tool to find your tools it's a kind of expression yes especially for the MCU section but working with the customer listening to the customer needs it's the easiest way to do it to use it this way so thanks a lot Amel and let's see give us a feedback if you like this tool of course you can comment and send us a feedback and everybody can just go check it out right now exactly it's there it's online and keep improving and adding new features and functionalities into it so maybe before closing we could spend also few words here and maybe Grace could you say a few words to our customers how the new ST-Link V3 power will help them with the development yes the new ST-Link V3 power is a combination of the ST-Link V3 debugger plus current profiling so you can measure the current consumed by your board in all range running, stop mode standby and so on the main features are it can measure current from one nano amp to 500 medium and use it with our cube monitor power tool and also we can have the synchronization of the code and the power measurement so people can understand how much power your devices use they can measure really from nano amps to 2 milli amps the consumption of the device and the good thing of the complete offering is the ST-Link V3 power you can also understand the related consumption to the code execution so you can really synchronize the processing of the instructions with the final consumption and this can help the customers to focus on where the main consumption is coming from and optimize it there to focus on a specific point and not to search from their big projects all the way down to nano amps correct so you really have control every milli watt counts right and applications we want to have our customers developing applications which are greener which are consuming less the energy efficiency is very important element together with the security and connectivity we already discussed well ok let's maybe check some of the end product examples of how ST components and ST technology can be used in the final applications and we have little corner maybe close to your home because I believe all of us are having a washing machine or a robotic cleaner these days what we are demonstrating here is implementation of washing machine and using our STM32 and AI technology so neural network processing to measure the load of the clothes inside the washing machine and the great thing is that without a sensors you can measure the weight inside the washing machine with the resolution down to 100 grams and again this will enable the producers of the washing machines for example to make the algorithms more efficient, consume less energy and maybe why not also wash your clothes faster which I'm always having a problem with how is it possible to measure so precisely well again it's a thanks to the sensors that we have from ST and the possibility to implement the AI nano H studio and its working models inside the STM32 which is powerful enough to make it happen so future washing machines will be better and consume less water and everything the efficiency is important another application is the robot cleaner maybe Bertrand could you help us maybe yes could you tell us a little bit about the nice application of the robot cleaner hey hello yes I think what we have done here with this vacuum cleaner we're integrating neural network inside the standard microcontroller so we have STM32 F4 and how we did we use Zoo model you know you can find on the web and thanks to the tunnel flight sensors we are capturing the information putting the information within the neural network and thanks to the QBI which is the tools from our ecosystem we are converting this neural network within the C code which is running on the STM32 in this case nice so a smarter vacuum cleaners robot so in this case you are able to detect the kind of floor you have and you can start you know you can wash it with some water or not you know based on that so this is only one example but the coolest thing is yes to have an AI on the standard STM32 nice thanks a lot thank you Bertrand so talking about sensing I think it would be also nice to check what our colleagues from our sensing division have prepared for us and let me bring you to this demo pot where our colleagues are showing new smart power sensing solutions and sorry to interrupt you but if you could tell us a little bit more about the new products and the implementation that you are showcasing to our customers these days ok hello so this is our new digital power monitoring device it has two integrated channels with 16 bit ADC one is dedicated for current the other one for the voltage up to 60 volts and then the digital signal is transmitted to the microcontroller in I2C but also in I3C so I3C is a new e-bus interface and it's communicating here with the new STM32H5 the device which is an I3C controller and we can send also all else to the microcontroller if we are running over current under current voltage and temperature there's a lot of benefits to be precise with the power and how you monitor it this is really a device to monitor the 30 volts batteries for example home automation or home automation for home appliances for power tools and it's very beneficial to have good accuracy on the power measurement for great monitoring thanks a lot thanks a lot and let's move on very quickly to our next spot link again to sensors Suska to tell you a little bit more what she's showing here so hello everyone here we are showing our consumer great motion sensors the new ones the first one we have on the left side is called LSM60S016IS it is an IMU with integrated risk core inside the sensor so we are able to run our custom C language algorithms thanks to ISP toolchain and how we can compile it so and in this demo we are showing here how we can run unsupervised learning for fitness tracking the second demo here is using IMU again and it is called LSM60SV16X it does not have a core like the first one had but the special thing about this one is that it has embedded hardware sensor fusion so in this demo we are using it as a game controller so with the orientation of the controller we are able to control the main character in the game for example so we can go through the checkpoints and get them with the sensor fusion nice sensor fusion is nice to have we can implement a lot of applications in CVR also doing some exercising here on the roof to keep us in a good shape thanks thank you and let's move on to Vladimir which will tell us a little bit more about few more sensors that we have perfect, please come here hello so you are in the industrial sensors area and we will talk about condition monitoring of mechanical elements so in this demo we are spinning this motor and as you can see here on the board there is intelligent sensor processing unit based accelerometer and gyroscope and what we are doing here we are detecting some anomalies in the behavior of the motor so for example if I apply magnetic unbalanced shaft for the rotation of the wheel you can immediately see here on the screen that there is anomaly detected by the ISPU what you can see here is that there are applied some let's say noise amplitudes in the signal from the microphone which is available here on this board and we are in this case capable to sense in addition to the accelerometer also the audio problems of the mechanical system so it can be for instance detection of bearing problem or high layer rotating machines what I can show you also here is how the microphone is working so what we have here in the demo is let's say possibility to generate ultrasound with a speaker so if I press the button here here on the board the ultrasonic microphone is sensing the audio signal from the speaker and you can see this peak in the frequency spectrum coming let's say from the speaker which is simulating some problem from the motor that's basically this and ST has full solutions to cover the condition monitoring applications of the mechanical systems cool, thanks a lot thank you and I think with these guys I believe we can close here you can see we have many more things we are showcasing but there's not enough time to tell you about everything but for sure you can always check our latest news on our ST.com contact your ST colleagues contact us through the community forums and we will be very happy to interact with you and you do other events and all kinds of stuff yes, definitely in the beginning we went through the new STM32 series and for example right now you can already register for a free workshop to discover how the STM32 C0 is simple and how easy it is to use it it's a free hours online workshop so you don't have to come personally and all the attendees from Europe to localize specifically for this will receive from us at the end of the workshop free C0 nuclear board and we will do the same for the H5 the registration for the H5 workshops is not yet open but we will open it during the next two or three weeks and the plan is to rehearse workshop sessions starting in the beginning of May so this was an awesome and better world maybe the best ever I think we are rising the bar year by year and that's good because there is always something new something more to bring we have received a lot of positive feedback from customers arriving and we hope to meet you in all the other shows or events, workshops all along the year so thanks for watching and stay connected to ST thank you