An exciting new feature in Red Hat OpenStack Platform 11 is full Red Hat OpenStack Platform director support for deploying Red Hat Ceph storage directly on your overcloud compute nodes. Often called hyperconverged, or HCI (for Hyperconverged Infrastructure), this deployment model places the Red Hat Ceph Storage Object Storage Daemons (OSDs) and storage pools directly on the compute nodes.
Co-locating Red Hat Ceph Storage in this way can significantly reduce both the physical and financial footprint of your deployment without requiring any compromise on storage.
Continue reading “Using Red Hat OpenStack Platform director to deploy co-located Ceph storage – Part One”
This is the fifth and final in a series of posts that delves deeper into the questions that IDC’s Mary Johnston Turner and Gary Chen considered in a recent IDC Analyst Connection. The fifth question asked:
What types of technologies are available to facilitate the integration of multiple generations of infrastructure and applications as hybrid cloud-native and conventional architectures evolve?
Mary and Gary write that “We expect that as these next-generation environments evolve, conventional and cloud-native infrastructure and development platforms will extend support for each other. As an example, OpenStack was built as a next-generation cloud-native solution, but it is now adding support for some enterprise features.”
This is the one aspect of integration. Today, it’s useful to draw a distinction between conventional and cloud-native infrastructures in part because they often use different technologies and those technologies are changing at different rates. However, as projects/products that are important for many enterprise cloud-native deployments–such as OpenStack–mature, they’re starting to adopt features associated with enterprise virtualization and enterprise management.
Continue reading “Integrating classic IT with cloud-native”
On Tuesday February 17th, we announced the general availability of Red Hat Enterprise Linux OpenStack Platform 6, Red Hat’s fourth release of the commercial OpenStack offering to the market.
Based on the community OpenStack “Juno” release and co-engineered with Red Hat Enterprise Linux 7, the enterprise-hardened Version 6 is aimed at accelerating the adoption of OpenSack among enterprise businesses, telecommunications companies, Internet service providers (ISPs), and public cloud hosting providers.
Since the first version released in July 2013, the “design principles” of Red Hat Enterprise Linux OpenStack Platform product offering are:
Continue reading “Accelerating OpenStack adoption: Red Hat Enterprise Linux OpenStack Platform 6!”
Authored by Neil Levine, Director Product Marketing, Red Hat and Sean Cohen, Principal Technical Product Manager, Red Hat
The OpenStack summit in Paris not only marks the release of Juno to the public but also the 6 month mark since Red Hat acquired Inktank, the commercial company behind Ceph. The acquisition not only underscored Red Hat’s commitment to use open source to disrupt the storage market, as it did in the operating system market with Linux, but also its investment in OpenStack where Ceph is a market leading scale-out storage platform, especially for block.
Even prior to the acquisition, Inktank’s commercial product – Inktank Ceph Enterprise – had been certified with Red Hat Enterprise Linux OpenStack Platform and over the past 6 months, the product teams have worked to integrate the two products even more tightly.
The first phase of this work has been focused on simplifying the installation experience. The new Red Hat Enterprise Linux OpenStack Platform installer now handles configuration of the Ceph components on the controller and compute side, from installing the packages to configuring Cinder, Glance and Nova to creating all the necessary authentication keys. With the Ceph client-side components now directly available in RHEL OpenStack Platform, much of what was a manual effort has now been transformed & automated. In addition the RHEL OpenStack Platform installer also takes responsibility for the configuration of the storage cluster network topology and will boot and configure the hosts that will be used by the Ceph storage cluster.
The Inktank Ceph Enterprise installer has also been modified to take pre-seeded configuration files from RHEL OpenStack Platform and use them to build out the storage cluster. With some of the Ceph services architected to run co-resident on the controller nodes, the number of physical nodes needed has been reduced without sacrificing security of performance.
Continue reading “Delivering the Complete Open-Source Cloud Infrastructure and Software-Defined-Storage Story”