 Who are you? Yeah, I'm Debbie Wang, technical manager for Marvel. So you're talking about the cloud and networking infrastructure, and how big is Marvel a player in this market? Oh, I think we have played a lot, especially in the SS switching marketing. I think we have almost 6 and 70% in the Giga SS marketing. So you are the leader in this market. Can you make all these network switches? And what kind of processors inside? We are using ARM, Marvel invest a lot in ARM technology, since 10 years ago. So our solution, actually including every product line, we are using a lot of ARM processors. So right here for example, what are we looking at here? Here we have an ARM SOC, it's a Cortex E9. Is it there? Yeah. So we are dual core Cortex E9, and what does it do? And what does this one do? What is all these? Yeah, for the other, that's the switching Mac. And this is the Giga 5, actually the 10G 5. 10G, 10G, 10G, 10G? So for 24 port, it's up to 24 ports, 10G plus we have additional two 40G ports. And what kind of processors do you have in this? Do you have a single core dual core? Depending on different product, for example this is entry level 8G plus 2G, over here we only need the dual performance using single core ARM, also Cortex E9. So when do you have to use single core or when do you have to use dual core? When we are using the SS, I think single core Cortex E9 should be good enough. But when we update to the upgrade there, we may need to have a more company power than we can upgrade to dual core ARM processor. So a network switch like this, what software does it run? What do you run on this ARM Cortex E9? Okay, so I think typically we need to have some management software run on top of it. So for user, at least you need to provide a command line and also need to have a web GUI interface for management purpose. And in addition to what is typically, you need to have a lot of layer 2 management protocol like a spanning tree, like you need to implement the aggregation there like LACP and you also need to implement some management protocol like SMMP. So they will have a lot of management protocol required on management switching. How about security? Is this important? Yes, also security become more and more important. Our ARM SOC typically also have a security engine embedded to help for all the encryption description. So that's the Cortex E9. So it's possible in the future to get some of the newer chips that you are talking about in that kind of market. Can you talk about the 70-40, the 80-40, does that go in the network switch market? Yes, the answer yes. In the higher end for example in the data centers area, right now I think in data centers area most of using processors they are Intel, but we believe the ARM especially Cortex A72 is a high-promote processor and in the future I think we are going to approach the marketing with Cortex A72. What's the newest switch technology you are talking about here? Here we talk about 10G and 40G 3G. What kind of products are you showing here? What is this? This is for consumer products. So this is for consumer label products. So it's 8-poil giga plus 2-poil 10-poil, it's suitable for some professional users especially like gaming marketing. Alright, professional users, but maybe soon people are getting gigabit internet at home. Maybe they will get 10 gigabit internet very soon, maybe next year, right? And then they will need to get new switching at home and stuff. So therefore this switching actually already have 10G access port. So once you have 10G access on home or you have a high-proven NAS up to 10G then you can use the port to internet and to the high-proven NAS. So in there you have dual core Cortex A9 or what do you have in there? This bus is for home user so it doesn't have processor embedded. Alright. Cool. Okay, so this is it. We are talking about the... What is this? LECad? 3? Yeah, that's our access switching. So this bus we provide 8-poil 2.5G access plus we have a 2-poil 10G. I think in the future Marvel believe the access marketing are going to be upgrade from current 1G to 2.5G. So this 2.5G each port instead of gigabit. So it's 2.5 times faster for each port. And still the benefit, still you can remain using the easy CAD5E cabling system. The same cable? Yeah, exactly the same cable. That's the most advantage for that. How do you switch, how do you get more data in there? It's just some different algorithms in the cable because it is faster? They have a new standard called I2B8202.3BZ, I think I'm going to release by end of this year. What kind of processor do you have in there? This is also Cortex A9, you will call. Alright, so your Cortex A9 solution for switch is very stable. The entry-level solution right now stays for Cortex A9, either single-call or dual-call depending on the performance requirement. Entry-level and high-level? High-level we have, right now we have up to 2Ghz. The entry-level I think the processor will stay about 800MHz. So what processor do you have in high-level? In high-level, maybe I have the Cortex 72 and 53 in the future, you will become 64-bit. Right now this entry-level will stay with 32-bit.