 And here we have some KVM boards and who are you yeah, I'm Moorthy from KVM This is the Okyan TX 83XX board with the 24 cores Yeah, I'm 64 cores It's quite popular right now It's not a server class mode. This is that is different that is called thunder This is Okyan TX, which is kind of embedded platform This is for cellular networks What we have here are 5g emulators Generating traffic for 5g cellular networks, and they're going through a single fact Present the backhaul of the 5g network Because right here you're talking about There's a little Nokia logo there and Talking about 5g emulators Where they are generating the 5g emulators. Which one is a Nokia hardware? So it's a Nokia base station It's just an emulator Yeah, in real world they'll generate they'll have the base station. They'll generate the current one. Yes But it's already in the market or it's not yet? No, not yet. It's a proper concept So and then we have the Okyan TX hardware here. This is from KVM. Yeah, and that's handling the IPsec tunnel Yeah, so it's a single essay capable of doing 18 gigs of profit So What are you doing? What are you showing here? So this is doing ESP tunneling So encryption and authentication of the traffic at line rate, which is it's a 10 gig fat line So we are doing bi-directional traffic now nine gigs this way and nine gigs this way So it's total of 18 gigs. This wire is capable of 20 gigs. We are maxing out the line at this point This is one side of the cellop. That's the other side of the cellop So is it exactly the same exactly the traffic is running in both directions It's a tunnel created between both of these nodes, right? And is this a very important functionality for this to be Yeah, so every phone call you make every data. It's going through this for all 3g 4g 5g And this makes it secure the channel secure It's completely running in the user space. It's completely running in user space. I mean that is the most important thing in the OFP, which Nokia Provided is the complete stack which runs on the user space And open source So this is part of the networking LNG and how far are you with this much more work to be done or So we have done two weeks of work on this so far two weeks so far. That's it. What's next next? Next six months. We want to hit like 80 gigs Till pending a lot more 80 gigs 100 gigs It's all going to come and all the work you're doing here is compatible with the next generation Absolutely. This is a Octane TX2. Exactly. So what we are running is open class, open data plane Specifications we have implemented on our platform No, it doesn't so so every time a cell phone user is connecting or sending data or receiving data You have the RNC, which is sitting in the middle that cell phone tar So this is the backhaul from the cell phone tar talking to the central cellular stations or other cell phone That's your IPC You have some code you can show This is one of the OFP consoles So so you do some pretty good work Yes, absolutely. And the things are moving fast. Very good. Yeah a lot of more interesting things to do Yeah, I mean so this specification is still very new so the more features need to be added You're just scratching the surface in terms of implementation of the IPC More features need to be added a lot more to be done in the next six months We are also getting an extension chipset for this which has more hardware features So all this works on the next generation chipset as well And Yeah The whole thing it's mentioned here what what this can do the chipset can do it is a hardware scheduler Which accelerates the whole load balancing kind of stuff by itself the chipset has the capability