 over here, Computex 2017, and Western Digital is launching the new 3D SSD technology. Absolutely, so we're talking here about 3D, and we're talking about 3D being a new, not necessarily just a new thing for the industry, but we're talking about economically viable 3D at this point, so we're saying 3D that is going to be scalable and is going to make SSDs more affordable for you in the future, right? So every SSD right now is a single layer solutions, but this one has 64. It's not that every SSD has a single layer solution, but what we're saying is the memory itself is evolving, and so we're doing a 64 layer, we're talking about a 64 layer memory, and we're actually announcing today, and we'll go over here and talk about our 64 layer SSD. Yeah. And it's based on that 64 layer memory to provide you with better density, better performance. This is real? This is a real SSD drive. And it's the first 3D, Sandesh branded, and you have a 3D, Western Digital branded. We do. What's the difference between those kind of products? Different brands. So it is different brands. We're not saying that the technology is different. These are both using the same electrical platform, because what we're doing is, as Western Digital company, we've developed a platform that we feel like is going to be really strong for both consumers and for channel distribution. So you're talking two terabytes, also two terabytes? Yeah, up to two terabytes in these. We do 250, 500, 1,000, and two terabytes. So two terabyte SSD enabled because it's 3D, there's 64 layers in there. There are, yeah, 64 layers that are in there, and again, what's really key about using the 3D is that it actually gives us some more flexibility and more power in the memory. It's going to give us better performance. We're going to see up to 560, 530 for reads and writes. What can you do before with a single layer? It's not just the single layer limits it, but what it says is that you're going to get optimized performance. And so I think the prior generation product we talked about maybe being 540, 520 for reads and writes, but what we're saying is this is optimized. This is really going to be maximum for SATA. Maximum, basically to the six gigabit per second, you're reaching maximum for that generation. As much throughput as you can kind of get in that speed. The next thing we talk about is we do talk about better energy efficiency. So being able to consume a little less power and what we mean is when you're writing and you're writing, say, a 30 gig file, you'll use as much as 30% less power. And that's compared not against, that's compared against our own X400 SSD. So the SanDisk branded product from previously. So that's just going to give you a little bit more battery life, going to make your laptop last a little longer, let you sit on the couch. Is the SSD one of the big culprits and battery consumption in the device or not? It's not one of the huge culprits, but the thing is every little bit helps. It's a question of how often you have to get off the couch to go plug your laptop back in or whether you're just using it. Usually if you have an Intel laptop as the display maybe and the Intel CPU is consuming more and then comes the SSD. Probably your processor and your screen, yes, are gonna be fine. But this helps over there and built to last. Is that because of 3D you can do longer lifetime? It is, so what we're saying is you're getting better durability because of the 3D memory. And we talk about on the two terabyte being up to 500 terabytes written over the life of the drive. And what that means is that basically as a human being, you're not gonna be able to create enough content to kind of wear it out. If you're using it in a server application or something like that, it might be a possibility. But as a consumer, you typically would use maybe somewhere in the range of 10 gigabytes per day that you create. And if you took a two terabyte and did 10 gigabytes a day, it would be 140 years or something to wear it out. So this is way past the amount that we think it can take. So if we walk over here, just to try to understand this, so each layer is a smaller layer, but it's right here you're doing more like high end tricks to put more stuff in one layer. Now you can. Right, so what she talked about is when you talk about 3D memory versus 2D memory. 2D memory, what we were doing is we were shrinking and shrinking and shrinking the memory so that you get in the same footprint, you could get a few more bits of data, right? And as you shrink and shrink and shrink the memory and the data gets closer and closer together, you start to have some interference. So when we moved to 3D, what we've done is we've created a space and created it to where each bit of data has a little bit more space of its own. And that means that you're gonna get better endurance. It means you're gonna be able to do faster things. You're gonna do less error correction. And so it's just gonna give you better quality, better speed, better performance for the overall drive. And this is due to new material, new research, new R&D that just enabled the level where now it makes sense economically. This two terabytes, do you announce price? We're not announcing price on the two terabyte. What we'd say is that in both the WD and the Sandisk brands, these are gonna be starting at two, the 250 gigabyte versions will be starting at $99. The reality is that the price will be determined a little bit by where the market is on flush right now. And this is the same size as it usually is, is the same weight. Normal two and a half inch drives goes into your laptop. Heavier or it's not thicker. Right, exactly. All right. So there it is, 3D technology announced now and shipping in Q3, right? Q3, absolutely. Right. Thank you.