 I'm here with J.F. Brandon from Bok Factory. Hi. Yeah, so this is the Bok Battery SV2 and it is a desktop 3D printer, PCB 3D printer, and it is a machine that is capable of printing multi-layer circuits, dispensing, and pick and placing components to make a fully-fledged PCB in a matter of hours instead of having to wait weeks, months to get a board made. So this is a single-layer board at the power supply that I made. Here's another design. This is a signal processor. It's basically an analog circuit board. It's actually for guitar pedal to change the sound of a guitar. We have some other examples of our work right here. So this is a flexible circuit that I've embedded inside a 3D print. So I've basically 3D printing a plastic piece. Then I printed the circuit board with SV2 and then placed it on the plastic piece and then started printing it again so that it encased it. So now I have some parts of the components protected while keeping other parts free-floating and flexible. So this video right here displays our first product, Squink. So right now it's doing pick and place. So you can get an idea of how it works. So we can actually go through the process by watching the video. So let's wait for this to finish. Okay, so the starting process goes like this. This is Squink. This is our first product here. So it consists of three different heads on a heat bed with a full gantry. You turn on the machine, pop open your computer, and you upload your Gerber files, which are your drill files, your Gerber files, and your paste files. And here's the first step. So here it is printing conductive nanoparticle silver. So you see, the heat is changing the material into pure silver. And that's the interconnects. To make the second layer, we have to print an insulating ink, covering the whole thing except for where there's vias, which are filled with conductive ink again. For dispensing, to get the parts connected to the traces, we are using a dispensing system that's extruding a single part epoxy onto the pads. The third step of the process, we take components from a tray, use a camera to align them properly, and then place them on the bed. And we can actually do several hundred different parts, up to three to five as much as ten parts per minute. Okay, great. So who do you think would stand to benefit most from this technology? Lots and lots of educators, people who are doing research or teaching at colleges who are typically one of our favorite users for this product. Another big user are researchers at small companies, as well as large companies. Typically companies that are developing products or doing new innovative ideas. Other users are considered our makers, people in the defense industry, and occasionally people are working in ink research who need a machine to quickly iterate or try new inks. So one last question. What do you think of the ID TechEd Show? It's amazing. Everyone should go. If you're an exhibitor, it's a great place to meet R&D managers and a lot of different people. There are a lot of different fields for people that are just looking for new technologies. This is the best place to be. Okay, thank you very much.