 is another arrow in the quiver of the three-part portfolio, right? That's right. Talk a little bit about the V-Class and maybe the details there. You know, if you step back on what folks are after in this new data center, they're trying to handle kind of this unpredictable multi-tenancy, right? Handling all those mixed workloads and changing workloads. They are trying to deal with security and quality of service. They're trying to maintain kind of persistent access to data that's maybe moving around their environment. They are thinking about pay-as-you-grow models and keeping capacity utilization at as high as absolutely possible. And, you know, they're driving on self-configuring, self-provisioning, self-tearing systems to kind of keep the operational side down. So you've got a set of criteria that, frankly, is showing the cracks in the architectures of 20 years ago that we've kind of been working towards. And with the new V-Class, it's our latest extension to the family that's really built on that. And what we kind of view the V-Class as sort of a benchmark for folks who are trying to deliver mission-critical storage capabilities in this new data center. The V-Class extends the lineup about 50% higher in terms of overall connectivity and to IO and disk. It supports some workloads as much as three times faster. From a virtual machine perspective, it really drives up the scalability of VMs in your environment. And it does all of that with a whole new level of efficiency really built into that Gen4 ASIC. You get, you know, fat to thin conversion faster. You get a more granular reclamation capability. Even your remote copy or DR capability between arrays gets zero detection, gets a thin capability to it beyond the thin aware capability built into it before. To build on that, it was more granular around thin provisioning. We used to do it at 128 megabyte block sizes. It's now 16K. So whatever the math is, it's 10,000 times more efficient. What have you. So we're really sucking out all the extra unused stranded space and then giving it back to the general storage pool. Thin. So very, very thin.