 Right, so we're here just after the ARM press conference and you launched the ARM Cortex A73. That is correct. And also a new GPU. Absolutely, so what we've announced today as we've done last year is our premium IP suite for high-end smartphones. The first component of that is the Cortex A73, which is our most efficient big core and the highest performing big core for mobile and consumer applications. And then of course the Mali G71 GPU, which brings in a new advanced scalar architecture called Bifrost and is our first fully coherent GPU. And both of these products are designed for the next generation of applications with their fully immersive augmented reality virtual reality applications or AAA gaming type of applications which are much more interactive between CPU and GPU. And these two coherent components can interact a lot more together and the focus for both of them has been to be delivering that performance with a great deal of energy efficiency because you need to be able to deliver that in the sustained thermal budgets and the power budgets that you expect for in the phones today. So the heterogeneous processing is like bringing that even much higher than just being a faster processor and a faster GPU. So now we're getting even more combined performance? Yes, so if you look at it, the CPU is much more of an agency-centric set of workloads. The graphics are much more bandwidth-centric workloads. But as you have more interaction and more control on one side, more data on the other, you need them to interact much more closely. And instead of actually taking these transactions going off-chip to memory with large workloads, you can actually do it much more efficiently by sharing more between the two of them. So since 2009, there were some graphs and some demos over there. The smartphones are basically the same thickness nearly, but there's a lot more happening in there. And this is a challenge? I would go the other way and say the thickness actually is reducing. So if you look at a 2010 phone, one of the key ones would be 12mm thick. Going down to today, the Huawei Mate 8 being about 8mm thick. So it's almost a 33% production. But in terms of performance, the performance has gone up 16x to 20x on the CPU side, nearly 50x on the GPU side just in the last five to six years. If you go back to 2008, 2009, the CPU has gone up about 300 times. The CPU has gone up about 100 times. But all while making the form factor thinner and the performance delivered in that context. So we can look forward to A73 and the G71 next year in products or before? So we would expect that to be in silicon end of this year or early next, certainly in products by 2017. We expect the premium devices to be using 10nm process technology. But that doesn't matter because the G71 and A73 are both process independent. You could see them in configurations that are in 16nm or even earlier. And so the batteries are getting bigger and the heat is not going up all these years? Or is it going down also or no? So effectively the batteries I'm thinking are getting thinner. Yes, there's a bit more capacity but the form factors don't allow for the actual capacity of the battery to go that much. And as you get thinner there's less chance for heat dissipation. So you have even less ability to generate heat. So the processor, the GPU all have to be that much more efficient to be able to fit in that constrained environment. And so there's a lot of graphics on the wall there. Are you entering new markets? Is it going to be laptops and desktops? Is this more possible now? So we've always said that we have the technology and the performance levels to be able to attack larger screen formats. You can see our GPUs as you might have seen are actually in 75% of DTVs. So large screens are not an issue. Tablets again which are large screen devices have a lot of our technology. So it's really up to the innovation capabilities of our partners and their customers on how they see it in new markets. And how does it compare to a discreet or integrated GPUs in the X86 laptops? So that is actually a very important question. What we showed today was the Mali G71 in a 16-shader configuration delivering similar performance to a discreet GPU in a 2015 mid-range laptop and actually beating some of the integrated GPUs using the Manhattan and within the GFX bench. And that's actually a very good representation of heavy workloads in the mobile environment but also pretty taxing. And with that Mali G71 kept its own. More importantly the Mali G71 is designed for smartphones in that configuration and so you're talking about a full workload of less than three watts for the entire SOC. So that's at least a fifth if not more lower power than what you'd see in a laptop type configuration. So when the phones are getting thinner, the battery is bigger, the PCBs are smaller, right? Does that mean you're doing more in the SOC now? Even more and more stuff? There's a constant integration. You've seen that happen. You have graphics integrated now, vision you're seeing, image and signal processing certainly. And in fact modems are getting combined as well. So yes, that continues to be a consistent integration of more technology onto the SOC. Nice. So A73, a big jump, 10 nanometer. It's going to be amazing though, what people are going to be able to do. We're looking forward to it. I think we're looking forward to a lot of the use cases we'd see with the A73 and the G71 in 10 nanometer next year. Thanks.