 This is David Fleuer back at the Open Power Summit here in San Jose. And with me, I've got Albert Mu, who is with Tain computers in Taiwan. So welcome here. OK, thank you very much for having me here. And today, you've announced a new processor. Can you tell us something about it, how it differs from the first one? And I think so. Yes, I think the first one we developed and also launched last year, basically it's a 2U machine. But as we all know, I think in the data center, they are looking for the density. So I think this year we announced a 1U machine with one socket, also 2U machine with two socket, targeted for higher performance application. So those are two machines we introduced in this conference. Great. And I heard you put an awful lot of memory inside those machines, is that right? What's the markets that your customers are looking? What problems are they trying to solve? OK, so I think nowadays we know, I think it's OK. So a bigger memory footprint. Basically, people want to put a lot of application in the memory to do the analysis. So in our machine, I think the standard we have is 32 dim. Means, OK, with 32 gigabyte of DRAM, you can totally have a 1 terabyte of memory. So you can basically put a whole database, a whole problem in the memory. And then with CPU, you can have very fast access to any analysis you want. So we are really shooting for this type of application. 1 terabyte. Wow, yeah. It's a bit different from the 1K I started with. I'm sure you did many years ago, yes. So what are your customers, what problems are they trying to solve with this system? What are they asking you for? And why are you using power to solve these type of problems with your own input? OK, mainly for several areas. It's a data analytic type of application in memory analysis and also high performance computing. Those are the three areas I think most of the customer approaches request the power machine for them. Right, yeah. So what's the arrangement you have with the CP1 machine? I've never heard of the CP1 machine. Can you tell us more about it and how you interface with that? OK, I think IBM has a very smart strategy. I think it's OK. Because if IBM is the only company manufacturer, the power processor, still the only game in town. So IBM licensed the Power 8 architecture to a company in China called China Power Core. They developed their homegrown Power 8 processor. They call it CP1. I think CP1 stands for China Power 1. China Power 1, OK. And how do you interface with that? Our machine, we develop both are compatible with both CP1 and the Power 8 processor. So I think in China market, if a customer really want the homegrown processor CP1, we install CP1. For other territory, if they prefer the Power 8 processor, we install IBM Power 8 processor. So we have such a connectivity. So you can use either of those two processes. It's a very interesting strategy indeed. So where do you see power going in the next few years? What's your ambition? What's your vision of where you see the open power foundation going, the open power products going for you in your company? I think, OK, so of course, now IBM is talking about the Power 9. I think the Power 9, I think we expect several major improvement. Probably IBM will drive down the cost curve so they can touch really the volume market more. And also on the performance-wise, I think it's OK. They probably will add more CAPI, the PCIe, those type of thing. So we are pretty excited. Because open power jumping in the middle of Power 8, because IBM already have a Power 8 and they found the open power. Now Power 9, I think the open power can start working with IBM on the Power 9 from the beginning. So we can have more innovation on the system side, create a more variety of machine to serve more market needs. Well, thanks very much indeed, Albert. Thanks very much indeed. And over to you. And thanks for watching.