 Hi, I'm Todd Baker, Corporate Vice President of Engineering at FutureElectronics and I'm here in San Jose today at ST's DevCon event where we're showcasing our brand new Primo board. This is created by our system design center in Montreal demonstrating all the different features and products that ST has, the wide range of microcontrollers, voltage regulator sensors that they as a company can bring to our customer base for a full board solution. One of the things we've seen in our customer base is many of our industrial and consumer customers have products that are releasing to the field that can from time to time fail and they want the ability to understand when that failure is going to occur, to be able to see that failure before it actually causes a unit to go down so they can better service their end customers and have a full fledged product and with the Primo board we take those devices from ST to be able to predictively detect when a failure may occur on an industrial or consumer system to alert the end up product maker on when maintenance needs to occur, reducing costs and enabling them to service their end customers even better. As we were working to develop our Primo system we wanted to take into account the different predictive maintenance key principles that our customers would need to be able to detect what was going on at any type of a solution. So we brought in a lot of sensors from ST and we brought in some great microcontroller power in their STM32 G4 microcontroller which has a mathematics accelerator unit that allows us to do a lot more in a machine learning environment, take a lot of different sensor inputs and then utilize the data from those sensor inputs to detect on a variety of systems if possibly temperatures are going out of spec, current is going out of spec, vibrations might be going out of specifications and then doing mathematical operations on that data as it's collected, making a decision whether or not the system possibly is entering into a failure mode and then sending that information via a Nimble Link CAT 1 cellular module to the cloud so that the end product producer could then make decisions on whether it's a roller truck, go out to the site, make adjustments or changes or maintenance on the system and then prevent any possible long term damage to their robotic arm, their HVAC system or any of the other industrial applications that may be required for a customer. Here we see the different components that are available on our Primo system. So first of all you'll notice our Nimble Link CAT 1 modem which allows us to send all of the collected data up to the cloud via a cellular modem and it allows a lot of flexibility to the end customer to not be directly connected to anything but still get the data anywhere in the world. The system is based on the STM32 G4 MCU as I said with a great benefit of a wonderful tool suite that ST provides for that in addition to the mathematics accelerator which allows us to do fur filters, FFTs and any other processing of that data much more easily than many of the other traditional microcontrollers in the market today. In addition we've got an authentication chip from ST to ensure that there's not any tampering on our device. We have a Bluetooth 5 MCU as well or STM32 WB which is a phenomenal Bluetooth device which allows Bluetooth mesh. It allows us to then have multiple Primos connected to each other communicating data to one location where just one of those devices would need the more expensive cellular radio to send all of that data from multiple Primos up to the cloud for maintenance reducing the overall cost of an entire system monitoring multiple products and end devices. We also have a GPS module for devices that may be moving so using ST to SAO product to detect the exact location of that product as you're doing the maintenance. We have inertial sensors, MEMS microphones, pressure sensors, humidity and temperature sensors and also an NFC RFID tag for basically communicating with the device, detecting the exact device, doing configuration of the device in the field so that maintenance units can take care of that. In addition we have an RS-45 transceiver for serial communications from ST, room temperature monitoring from ST and also a current sensor from ST. So with that wide range of products that ST has available our customers have a full solution that can detect many many different types of overall systems for that predictive maintenance need. So we have our Primo board hooked up to our laptop transmitting data via cellular and via the serial communication. We've got all of our sensors collecting data on any kind of movement, also sound and also temperature right now. We're outputting that right now as I move the board you'll see the data is being collected, transmitted serially over to the laptop and then displaying the data out there. We also are sending via cellular up into the cloud and we can refresh this data from anywhere in the world going to a website and seeing exactly what's going on with our board wherever we may be and have that data available to us. The Future Electronics Primo board is available to our customer base today to begin looking at what we've created here to start your own prototype designs and also to test out the many products that ST has available to you. All of our Gerber files, our schematics, our bombs, our firmware are available to our customer base to modify and adapt into the exact application need that you may need for your preventive maintenance product. You can find out more information by speaking to your local FutureFAE, your local Future sales team or going to our website at futureelectronics.com. We look forward to showing you what we have to offer in the wide array of products that ST can offer for your designs.