 So, raise hands if you are sleeping. Okay. So, how many of you are a startup and enterprise here? We're enterprise. Okay. So, how many of you can tell me what's your customer problem at this moment? What is your customer basic problem at this moment? Can you figure it out? It's beautiful. So, let's start with three years in IBM Rational, building a lot of tools, like some events, don't care. So, whenever problems occur, customer right now, the link system we put there, we put really on it. And how do we do it? So, that is the major problem. And you will see one of the solutions which we can use to solve the problem systems, how do you put it as a building systems on your decision. It is an integral, what are you talking about? Only few things here. The alerts are fixing it. So, what do I mean by XK? There's just a variety of such requests. Some of these are used to respond to the others. They have a system now, two of which are stored there. So, this is another issue here. So, some of these, this is the problem we are facing. So, this is process logs. The problem with your file systems, or CPU problems, RAM problems, or usage problems, and this has broken up. So, it's like, so you need to have an infrastructure. So, you need to track those things. Like, you have a number of problems in that program. There's many of those cases, but a few of these cases is going to have to now. So, this could be a hacking. Somebody is trying to hack into somebody. So, solve these problems using a script. Then, there is a lot of challenge, and it is pretty possible. This could take time at this gate. So, there is a limit. Architecture is designed for you. So, it's something called as Waters. So, what is this module? It's pretty simple. It's a case in format. It's a special specific data. So, that is how you could build your scaling systems. So, you have to build it. It's a schedule. It is organized. It could be an elastic search. So, what is the program elastic search do? It's basically, so that's, you have to actually retain the data index. So, you know, it's log, which gives you, let's say, each matrix you want running a particular search query of any matrix which is provided by the action in the condition to which is being stored here. So, this is the action. So, there is one thing you can do in action. This is a follow-up function. So, basically, you have a script that is going to run. You know, provided input what data is that script is supposed to run. And the condition is, when this condition is meant to run, do this action. So, basically, the action you can do, where folks, you can integrate this with them folks. You can integrate this with push data in the database. You can let it on the data you give using actions. So, let's go to an event or an action to fix the action. So, basically, action, which is there, which is there in the activity of some of the workflows, such and other. Few of them will run with the hidden system here. You know, this is an old problem. Okay. So, you cannot build a self-managed system on systems which doesn't have to fix it. Right. So, basically, what is an old problem? A CPU can equalize an old problem. Then it's not going to fix the problem completely. I don't expect you have a notification of that. Then it will be in the event. It will be there for the next action. And where there is a rainbow. So, you can fix the problem. Okay. So, I need to go back on this. Okay. Once I have done the other condition. Okay. What is now? When compared to these three here. When you compare. So, basically, it's just that we don't have a self-managed system. Self-managing is simple. It's easy to compare. First, XK. So, make sure that you know how to use. It's pretty simple. And how to make it simple. Only when you know what the monitor is. And then, of course, the design and condition. You can rotate it. It's simple. You can get how to use it. You can use it on the signal lines. But also, you can build a lot of stuff. In terms of the systems itself. Right. So, you wouldn't need any systems. And you don't need to build more than any system. So,