The Future of Storage in Container Space: Part 1

The rise of container technology has created a new challenge for the storage industry. Within containers, applications, and computation resources are now incredibly mobile, while storage still has to remain persistent and accessible. Here’s how Red Hat is working to address the storage needs of container workloads.

In modern microservice-based architectures, each container is a transient object. It might live on one server for a while and then get moved over to another if directed by an orchestrator tool. While a container keeps its bundle of application software and dependencies during its lifecycle, it usually does not keep application data within the container. Nor should it. After all, in this model a container is designed to run only what is needed and when it is needed. When done, the container is allowed (in fact encouraged) to disappear. If an application’s data were held inside that same application container, too, then pfft!

That’s a challenge.

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Building an Open End-to-End Internet of Things Architecture

Designing, implementing, securely operating, managing and maintaining IoT projects is complex. In fact, there are entire organizations whose sole mission is solving a specific problem within an IoT architecture. The problems that can be found within such architectures can range from connectivity to figuring out where apps live.

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How Computers Became More Specialized Again

Computing styles ebb and flow. The centralized mainframe in the glass room largely ebbed in favor of the PC revolution that itself gave way, at least in part, to the web and the cloud. Today, we have a complex mix of massive datacenters, Internet-of-Things (IoT) devices, and sophisticated computers we can hold in the palm of our hand.

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