Red Hat Cloud Infrastructure
You can build a private cloud on your own or use prepackaged cloud infrastructure like OpenStack, and there are thousands of cloud service providers all over the world. Here are some of the most popular:
red hat cloud infrastructure
Creating a hybrid cloud strategy requires some degree of workload portability, orchestration, and management. Application programming interfaces (APIs) and virtual private networks (VPNs) have been the standard ways to create these connections. Many of the major cloud providers even give customers a preconfigured VPN as part of their subscription packages:
Another way of creating a hybrid cloud is to simply run the same operating system in every environment and build container platform-based, cloud-native apps that are managed by a universal orchestration engine like Kubernetes. The operating system abstracts all the hardware while the management platform abstracts all the apps. So you deploy almost any app in almost any environment without retooling the app, retraining people, splitting management, or sacrificing security.
With their dependence on virtual infrastructure, hybrid clouds introduce significant complexity around self-service, governance and compliance, resource management, financial controls, and capacity planning. Cloud management, automation, and enterprise resource planning (ERP) tools help maintain greater visibility and oversight across these disparate resources.
Red Hat OpenShift is a unified platform to build, modernize, and deploy applications at scale. Work smarter and faster with a complete set of services for bringing apps to market on your choice of infrastructure.
Red Hat OpenShift, the industry's leading hybrid cloud application platform powered by Kubernetes, brings together tested and trusted services to reduce the friction of developing, modernizing, deploying, running, and managing applications. OpenShift delivers a consistent experience across public cloud, on-premise, hybrid cloud, or edge architecture.
A self-managed deployment option, Red Hat OpenShift Platform Plus can be installed on premise, cloud, managed cloud, or at the edge providing consistent user experience, management, and security across hybrid infrastructure.
Red Hat's open hybrid cloud strategy is built on the technological foundation of Linux, containers, and automation. An open hybrid cloud approach gives you the flexibility to run your applications anywhere you need them.
Red Hat Ansible Automation Platform helps Red Hat OpenShift users create and run reusable infrastructure as code and automate provisioning tasks for cloud providers, storage solutions, and other infrastructure components.
Red Hat OpenShift delivers a complete application platform for both traditional and cloud-native applications, allowing them to run anywhere. Built on Red Hat Enterprise Linux and compatible with Red Hat Ansible Automation Platform, Red Hat OpenShift enables automation inside and outside your Kubernetes clusters.
Red Hat Enterprise Linux is the proven foundation for Red Hat OpenShift, certified on thousands of hardware and cloud vendor technologies. This means the security, performance, interoperability, and innovation of Red Hat Enterprise Linux is extended throughout your infrastructure to provide a single platform that can run wherever you need it.
Red Hat Cloud Services include hosted and managed platform, application, and data services that streamline the hybrid cloud experience, reducing the operational cost and complexity of delivering cloud-native applications.
Our portfolio of managed cloud services helps to simplify your cloud journey. With OpenShift as the foundation, Red Hat Cloud Services offers a secure, flexible, and scalable cloud platform that provides enterprise-grade security and compliance, proactive support and monitoring, and allows businesses to focus on their core operations.
The foundation of Red Hat Cloud Services is Red Hat OpenShift, a comprehensive application platform. In addition to self-managed offerings, Red Hat OpenShift is available as a cloud service directly from Red Hat as well as from major cloud providers.
Our open source experts work with your organization to implement a cloud strategy to evolve at a pace that works for you. We believe that sharing ideas and building a strategy together is a better approach to your long-term success than following a prescribed plan.
There are four main types of cloud computing: private clouds, public clouds, hybrid clouds, and multiclouds. There are also three main types of cloud computing services: Infrastructure-as-a-Service (IaaS), Platforms-as-a-Service (PaaS), and Software-as-a-Service (SaaS).
Every cloud abstracts, pools, and shares scalable computing resources across a network. Every cloud type also enables cloud computing, which is the act of running workloads within that system. And every cloud is created using a unique mix of technologies, which almost always includes an operating system, some kind of management platform, and application programming interfaces (APIs). Virtualization and automation software can also be added to every kind of cloud for additional capabilities or increased efficiencies.
Public clouds are cloud environments typically created from IT infrastructure not owned by the end user. Some of the largest public cloud providers include Alibaba Cloud, Amazon Web Services (AWS), Google Cloud, IBM Cloud, and Microsoft Azure.
All clouds become public clouds when the environments are partitioned and redistributed to multiple tenants. Fee structures aren't necessary characteristics of public clouds anymore, since some cloud providers (like the Massachusetts Open Cloud) allow tenants to use their clouds for free. The bare-metal IT infrastructure used by public cloud providers can also be abstracted and sold as IaaS, or it can be developed into a cloud platform sold as PaaS.
Private clouds are loosely defined as cloud environments solely dedicated to a single end user or group, where the environment usually runs behind that user or group's firewall. All clouds become private clouds when the underlying IT infrastructure is dedicated to a single customer with completely isolated access.
But private clouds no longer have to be sourced from on-premise IT infrastructure. Organizations are now building private clouds on rented, vendor-owned data centers located off-premises, which makes any location and ownership rules obsolete. This has also led to a number of private cloud subtypes, including:
Customers create and use a private cloud that's deployed, configured, and managed by a third-party vendor. Managed private clouds are a cloud delivery option that helps enterprises with understaffed or underskilled IT teams provide better private cloud services and infrastructure.
A cloud within another cloud. You can have a dedicated cloud on a public cloud (e.g. Red Hat OpenShift Dedicated) or on a private cloud. For example, an accounting department could have its own dedicated cloud within the organization's private cloud.
A hybrid cloud is a seemingly single IT environment created from multiple environments connected through local area networks (LANs), wide area networks (WANs), virtual private networks (VPNs), and/or APIs.
A multicloud environment might exist on purpose (to better control sensitive data or as redundant storage space for improved disaster recovery) or by accident (usually the result of shadow IT). Either way, having multiple clouds is becoming more common across enterprises that seek to improve security and performance through an expanded portfolio of environments.
PaaS means the hardware and an application-software platform are provided and managed by an outside cloud service provider, but the user handles the apps running on top of the platform and the data the app relies on. Primarily for developers and programmers, PaaS gives users a shared cloud platform for application development and management (an important DevOps component) without having to build and maintain the infrastructure usually associated with the process.
Our open hybrid cloud strategy, supported by our open source technologies brings a consistent foundation to any cloud deployment: public, private, or hybrid. With a standard operating system that works consistently in almost any environment, a container platform that packages and moves cloud-native apps from cloud to cloud, and tools that help you manage and automate it all, we give you the portability needed to succeed in any cloud.
Cloud infrastructure is a term used to describe the components needed for cloud computing, which includes hardware, abstracted resources, storage, and network resources. Think of cloud infrastructure as the tools needed to build a cloud. In order to host services and applications in the cloud, you need cloud infrastructure.
Cloud infrastructure is made up of several components, each integrated with one another into a single architecture supporting business operations. A typical solution may be composed of hardware, virtualization, storage, and networking components.
A typical cloud network configuration is composed of multiple subnetworks, each with varying levels of visibility. The cloud permits the creation of virtual local area networks (VLANs) and assigns static and/or dynamic addresses as needed for all network resources.
For this reason, it is common for customers to begin their digital journey with RHEL as their trusted backbone, along with Red Hat Satellite and Smart Management to help deploy and manage hybrid cloud deployments in a more consistent manner. This stretches across private clouds, such as Red Hat OpenStack, to the more than 2,500 Red Hat Certified Cloud and Service Provider clouds across the globe.
With an open, flexible, and simplified infrastructure, standardized on the Red Hat Enterprise Linux operating system, you can be ready for anything. Simplify your platform. Optimize your workloads. Red Hat can help you get there.
The need to deliver innovation with a hybrid mix of new and old applications, infrastructure, and processes often adds to a sense of pressure and frustration in IT organizations. Platform simplification is the key to giving hybrid environments a competitive advantage because it establishes a consistent and stable IT foundation. When an operating environment is flexible, consistent, resilient, and more secure, then the overall application and user environments inherit that consistency and security. Platform simplification streamlines the challenges of delivering services faster in complex environments. 041b061a72