 Thanks, guys. Thanks for joining today. I'm Vishwanath Jekka, part of Cisco, part of the Cisco UCS Solutions Team. Today, I'll be talking about the joint effort that we have put together working between Cisco, Redat, and Intel to offer a set of solutions for our customers to use for deployment of containers using OpenShift. So here, I'm going to talk about how we can help our customers deploy applications, develop applications in an accelerated manner. So before I start, let me talk a little bit about how the industry is progressing. What is the digital transformation our customers are looking at? So as you see here, so the slides are a little bit format is a little bit okay. So here, the three access that you can look at, how digital transformation is happening across the data center for the businesses, both on-premise as well as on the Cloud, even customers having a hybrid Cloud deployment. So if you go back a few years, it was all about bare metal, it was on-prem, it was managed by a centralized IT team. Now as things progressed, things have evolved into virtual machines and now containers. On the deployment side, it's a choice between on-premise, public Cloud and hybrid Cloud as well. In terms of management, it's all about the IT teams, the line of businesses as well as the SVPs and the DevOps teams. They are defining how things are consumed, developed and deployed and containers and microservices play a big role in how these things are happening. So with that, let me talk a little bit about what is the industry trend, right? So in terms of how the adoption is increasing, as you can see here based on some of the reports by Gartner and IDC, there's a huge amount of growth over the next three years, in terms of container adoption, in terms of number of instances of containers that will be utilized for deploying the web scale and microservice applications. There is in terms of customer base, most of the enterprises, here I say 60 percent. However, since this survey was done, now the number has even grown bigger. So roughly, now it's close to 80 to 85 percent of enterprises. Either they're already using containers and microservices already or they're looking at adopting it in the next 12 months. So in terms of technologies, so over a period of time, there have been multiple orchestrators for containers. However, Kubernetes has taken the lead and it's a leading orchestrator that is being used and offered by multiple vendors including Red Hat OpenShift. So OpenShift uses Kubernetes as part of the core platform. Containers are used in multiple areas, for your Cloud native applications, for your DevOps deployments, as well as for your platform as a service deployments. So with that, however, all this is good, however, it's not easy for a regular customer, right? It's all cool and good, however, it takes a lot of effort, a lot of engineering skills required to deploy and manage. So that is this, as you can see here, it's container management monitoring, persistence storage on the technology side, but also on the deployment side, it's the complexity of deploying it, it is the complexity of the management of it, and trying to fit everything together, and then the level of resources required to make things happen. So this is the challenge as well as the excitement that containers and microservices brings to the table. Customers want to do that, but they are hesitant to make it happen because of the challenges that are out there. So with that in mind, Cisco, Red Hat, and Intel work together to offer a set of joint solutions to make it easy to deploy, to make it easy to design, and customized to suit the business needs and application needs. So our main goal here is to take the best out of the all of the options and provide the best suitable options for our customers. So from a whole stack perspective, we have the open stack container platform, and we have, we're using Kubernetes, Orchestrator, and the Docker runtime engine, and then we're leveraging Cisco's infrastructure technologies, UCS, ACI, and Nexus, and also the plugins that we have developed that I'll talk about in the next few slides, and working with Intel and working with the various automation pieces out there, Ansible, Puppet, Chef, what are the multiple options based on customer interest and requirements. So with that, let me talk about the two main solutions that we are working together today for our customers to use. So one is a software-defined and bare metal deployment model to your left. It's UCS for compute capacity, and for storage, it's also server-based storage using GlacerFS, a software-defined storage, running OpenShift container platform. On the other side, we have hyper-converged offering, and with ACI, our Cisco's software-defined networking offering. So ACI, Cisco HX, which is our hyper-converged stack, and running virtual machines. So it's an OpenShift VMware with, that's the hyper-converged running on HX, then HX storage on the persistent storage side. So let me go into a little bit, go into a few pieces that make up the solution, right? Let me talk about, I mean, most of you should know, probably know OpenShift, so I will skip the OpenShift page, but I'll talk about the UCS page that many of you may not be familiar. So some of the things that matter in a OpenShift container microservices deployment is the elastic capabilities that you'd need across this stack. So with OpenShift and with the applications, you'll get that elasticity on the application side, but not so much on the infrastructure side. So that's where UCS provides value for our customers. As you can see here, UCS, it's not just a server, it's a system that brings multiple things to a table. It's endpoint over, it's a 100% programmable infrastructure that fits right into the DevOps model where customers or the application developers need like the control of the end-to-end architecture. Then we have, it's a fabric-centric architecture that brings compute, network, storage access, everything together under single management plane. And it provides an intent-based capabilities based on the technologies we have that we call as service profiles. So using these various capabilities, you can build the infrastructure that works best in a container microservices environment. So let me talk about a little bit about the individual pieces here for a bit. So when I talk about fabric-centric design, we are talking about both Ethernet and FC or storage traffic going in the single pipe. And, however, it's all managed from a single point of management. It's all handled the same and all the packets go the same with limited connectivity. So single cable potentially can carry the whole load of multiple servers. Ethernet, storage, as well as management traffic can all also go in one cable. So it makes it for easy manageability from a physical perspective but also from a management perspective. And also the density that we have built into the servers, it provides power and cooling savings as well. So in terms of intent-based management, so we have the constructs that we call as service profile. It is essentially a software abstraction of the server identity. So server, a given server, there are tens close to 150 attributes like your IP address, like your worldwide name, like your management IP and so on. Typically in a typical server, those are hard-burnt into your server, whereas with UCS, it's a software-defined entity. So that provides you the flexibility when you're growing your business or optimizing your business or load-billing your business. So, and we have multiple management points to help based on your scale of deployment. It could be single-site, it could be multiple-sites, it could be across geographies, across continents. All this with UCS Manager, Central Director, and then with Cisco InterSite. That's our new SaaS-based management plane that can manage your complete server portfolio across multiple data centers, across multiple sites, irrespective of the workloads and applications you're running. So this InterSite and UCS Manager in general provides you flexibility to run your traditional enterprise applications as well as your cloud-native and the web-scale applications, all on the same platform, using the same set of management capabilities, okay? And like I mentioned, just upon earlier, it's a completely programmable system. It's all the APIs, all the actions, anything that you can do through command line or through the graphical interface, you can drive those actions through APIs. So we have APIs, XML APIs, we have various SDKs, and we have modules in Ansible as well that is used extensively in our OpenStack and OpenShift solutions that we jointly work together. So the other thing is the endpoint, our virtual interface cards that lends the system itself well irrespective of the type of deployment you have. Either it's a bare-metal or virtual machine or container-less deployment, it works well across the board. So while talking about the container platform, so that's the UCS system overview. Now, how does it tie into the container and microservices offerings that we are having? So some of the questions that customers have when they are looking at deployment containers is the various deployment models. Should it be bare-metal or a virtualized deployment? Should they be using software-defined storage or hyper-converged storage? Or it's a native, use the native or traditional networking or use software-defined storage or ACI, this is course option. So based on these various questions and design options that customers think about, based on these things, we have built a couple of solutions to address for the same. So these are the two things I talked about earlier. So first I'll let me talk about touch upon the one, the bare-metal and the software-defined storage and then I'll touch upon the hyper-converged and ACI one a little bit. So the reasons why UCS lends itself well. As you can see, I'm not going to go through the whole slide here. It provides an automated end-to-end automated capability for the physical, virtual, as well as the container and microservices architecture. It's completely automatable, completely manageable and it scales and adjusts itself based on the requirements you have. And it provides, based on the type of applications you want to run, we provide the options for persistent storage for our currently native applications. So on the bare-metal and software-defined option, there are two options, two equipment options we offer. So on the left, it's more of your enterprise production grade deployment for your critical applications. So there is no single point of failure there and it's highly scalable and it's highly scalable and manageable. Whereas on the right, you have a slightly smaller configuration for customers who are looking at starting off new or looking at deploying a DevTest environment where the failure domain is not as critical. So this collocates some of the core controlling points on the same physical server, but however, if the DevTest environment, it should not be that big of an issue for your deployments. So this is the bare-metal and the software-defined design that I talked about. The other option we have is on our HyperFlex, Cisco HyperFlex platform, which is our hyper-conversion infrastructure where it provides a single pane of a single management space for your virtual infrastructure as well as the storage space. So here, this is not only hyper-conversion, but it's also in a ACI environment, which is our software-defined networking environment. So this provides the other options for our customers who are already on the journey of ACI or software-defined networking and also interested in hyper-conversion infrastructure. So this once again starts with a, as you see there, three to four nodes, it can go up to 64 nodes and beyond, depending on your scale. And the beauty of this is you don't have to have everything together on day one. You can start with the bare minimum set of nodes and you can grow as you go. So you don't have to change the design. You just have to bring in the new set of nodes, add it to the cluster and you're off you go. So your designs can be good as your business scales and grows. So from the next steps, then we are right here, Cisco, stop by the booth, we have some demonstration and a deeper dive on both the solutions that I talked about and furthermore, there are some giveaways that we'll hand out now as well. Any questions, please ask me. Also, we have a detailed breakout session tomorrow that goes into a little bit more further more details into UCS, ACI and the joint solutions that we have. And a few sites here for you to get additional information. With that, thank you. Any questions, I'd be to answer you guys. Thank you.