Traditional disaster recovery means maintaining underutilized datacenters, infrastructure, and software. During outages, your organization endures downtime while backup datacenters and applications come back online.
Learn how DXC partners with Red Hat to provide fully managed OpenShift Container Platform environments within a CloudOps model. Also find out how we worked together to deliver a mass large scale application migration onto Red Hat’s OpenShift Platform.
Red Hat has been working with the open source community on new tools for working with containers.
In this session, Daniel Walsh of Red Hat demonstrates some of those new tools, including:
- CRI-O for supporting Kubernetes workloads.
The first generation of microservices was primarily shaped by Netflix OSS and used by numerous Spring Cloud annotations all throughout your business logic. The next generation of microservices will use sidecars and a service mesh.
Kubernetes and Red Hat OpenShift have evolved to support diverse, increasingly complex classes of applications.
Building, managing, and operating deployments across multiple clouds and on-premise is extremely challenging in today’s world.
For years, the future of software architectures has been described as a proliferation of lightweight, cloud-connected devices.
A lot of monolith-to-microservices guidance glosses over the hard parts of strangling a monolith. The guidance we get about the single responsibility principle, smart endpoints and dumb pipes, etc., is quite useless. We're left to discover the nasty parts ourselves.
OpenShift.io is an online service for development teams, providing tools for the successful creation of cloud-native applications. It's an integrated set of agile planning, code editing / debugging, CI/CD pipeline tools, and package analytics combined with QuickStarts for common frameworks.