 So we're here with InForce and this is a very small development board. So hello, so who are you? Hi, my name is Vasu Merabushi and I'm the director of marketing at InForce Computing. We're a partner of Qualcomm and we license various Snapdragon processors for embedded applications. So what are we looking at here? It goes into this development board? Yeah, so basically this is a system on a module. What it has is the applications processor with a quad-core CPU. It's running at 2.7 GHz. It has a desktop-class GPU, hexagon DSP core and dual image signal processors that can, you know, take up to three cameras, 55 megapixels. And the beauty of our system on a module is it gives embedded designers the full flexibility to design their own breakout board or a carrier board. What do you have on the back over there? The backside we have 200 pin connectors and the power management IC. At the top we have the Wi-Fi and Bluetooth module, the GPS, the audio codecs, the flash memory and then the LPDDR3 to go with it. So is it SOC and DDR are the same? Yeah, the POP package. So it's very compact, it can go where? Yeah, so this is suited for swap constraint designs or size, weight and power constraint embedded applications. And it's only 28 millimeters by 50 millimeters in size. And the carrier board, this is actually a reference carrier board design that has all the connectors. Yeah, it has all the IOs. But what we can do is we can help you design your own custom carrier board that suits your end application. You just bring the IOs that are suited for your particular application and then you just build it and closure, build the software and all the, you know, connect all the peripheral devices and go to market. The carrier board could be extremely small? It could be something that will fit the system on a module. So you'll have a connector that this will go into. It could be all kinds of robots, what is it for? So this can go into wide variety of applications. It can go into video conferencing and point solutions. Anywhere you need high end video or graphics processing. It can go into medical imaging devices that are portable. So this is, which chip is that? This one is the Snapdragon 805 or APQ8084. So the 805 is in there and you also have a different version? Yes. Which one is that? So what do you see here is the Enforce 6401 MicroSOM and this is based on the Snapdragon 600 processor or APQ8064 and the good thing about this MicroSOM is the one that I showed you earlier which is based on Snapdragon 805. We are both pin and form factor compatible with the same carrier board design. So let's say you start with Snapdragon 600 based micro system on a module today and say two years down the line you want to upgrade to a higher processing power based system on a module to make it easily migrate to the latest Snapdragon processor. So is this your standard or is that an industry standard? No, this is Enforce's own design. But you help people design those boards? Yes, we help our customers actually custom design their carry boards. Alright, so what do you do at Enforce? You do lots of developing boards? Not development boards. These are production-ready system on a module that can go into actual end products. So this is the next step from the development boards? This is actually real stuff that comes out in the real world? Yes, we also provide development platforms for people. As I showed earlier, this is the full-fledged development platform. They can actually write their device drivers and applications on top of the either Android or Linux operating system that we provide. And is this your famous board? Yes, this is our latest single board computer based on the Snapdragon 600 processor. It's an upgrade to the classical Enforce 6410. This is called as the 6410 Plus. The differences are that now you have a shorter profile. It's only 16 millimeters in height. It has GPS, better interfaces for your display, MEP DSI and MEP CSI. Overall, well-proven design that can be used for a lot of mid-range computer requirements. So you've had the 6410 for a while? Yes. And what have people done with it? Oh, this design has gone into video conferencing type of systems in point where you can customize it to multiple HDMI outputs and HDMI input. This has gone into various robotics projects. If you look at Open Source Robotics Foundation, they have used the same board to port a robotic operating system or the Snapdragon processor for one of their products, which is their total bar. Alright, which one is that? This is the single board computer based on the Snapdragon 805 processor. And this is the APQ 8084 based. Very versatile. A lot of interfaces for... You have your gigabit internet, USB 3.0. This can do 4K video capture and display. That's really good for video conferencing, no? Yeah, for 4K, yes, certainly. 4K is crazy. Qualcomm, the CPU is doing 4K recording, playback. Yeah, so this can do 4K HD265 decode, but HD264 encode and decode. Nice. And then moving on to the next generation of Snapdragon processors, you'll have full HEVC encode and decode for 4K. And you're showing another board over there? Yeah. Well, at some point, we're now super smart. So, what is this mirror? So, we saw the classical Enforce 6410 Plus earlier. What we have here is a Mezzanine card, which is basically a peripheral abstract core that has 10 degrees of freedom sensors. And it has a 32-bit ARM Cortex-R for microcontroller and also interface for growth sensors. What sensors? Growth sensors. You can add multiple sensors such as gesture sensor, light sensor, and so on and so forth. So, this is IoT stuff, but high-end IoT? Yeah, you can for high-end IoT type of applications. You can connect multiple sensors. All the heavy-duty lifting is done by the 6410 Plus board at the bottom. The one on the top is your Mezzanine card. It has also plus-width modulation and then your S-class for motor control. So, this is advanced stuff here. What is this R4? Yeah. Who makes that? It's an SD Cortex-R for microcontroller. So, who's going to be a customer for that? Anyone that does a lot of computation at the edge of the network. They have a lot of sensors. They do a lot of processing. This is a good product for that kind of application. So, we're here at the Colcon booth. What do you think about the Dragon board, the 96 boards, that kind of stuff?