Last week saw a few thousand devoted OpenStack community members flock to Boston to take part in the bi-annual OpenStack Summit. This summit marks a major turning point for the initiative. Since we all congregated in Barcelona last year, there have been some major pieces of news which have rocked the community. Only a couple of weeks before the event, Intel pulled out of a partnership with Rackspace to build an OpenStack-based test facility, and OpenStack poster boy Mirantis pivoted from a pure OpenStack strategy to one covering a number of open source initiatives.
You selected OpenStack to deploy an open private cloud. Anchoring it to traditional storage is like attaching a ball and chain that robs you of its benefits. Save time and money and enable new capabilities such as instantaneous and parallel VM creation by pairing your OpenStack environment with the software-defined storage of Ceph. InformationWeek: Cloud
Forrester Research’s newly issued report, “The State of Cloud Platform Standard, Q4 2016,” regards OpenStack and AWS as the de facto standards for compute and storage in the cloud.
That by itself isn’t news. OpenStack has been regarded as a standard by Forrester since 2014, and AWS has been the top measure since it was considered clever to pair up talk about cloud computing with clipart of the sky.
But Forrester is watching how standards-setting bodies are using the existing base of open source projects as a starting point for real standards. The analyst firm also notes that OpenStack and AWS are far from the last words on their respective subjects.
Hyper, creator of a VM isolated container engine that’s compatible with Docker, has debuted a project for running multitenant containers at scale.
The Hypernetes project fuses the Hyper container engine with Kubernetes and uses several pieces from OpenStack to create what it describes as “a secure, multitenant Kubernetes distro.”
At the bottom of the Hypernetes stack is bare metal, outfitted with Hyper’s HyperD custom container engine to provision and run containers with VM-level isolation. Kubernetes manages the containers through HyperD’s API set. Other functions are controlled by components taken from OpenStack, including Keystone, for identity management and authentication; Neutron, for network management; and Cinder/Ceph, for storage volume management.
OpenStack Foundation, the backer of an open-source project for software to build cloud services, has launched Project Navigator, an online tool to make it easier for new users to choose from the over 25 cloud-related services or projects offered under its aegis.
The tool provides data to new users to help them differentiate between the six core services most commonly deployed across every OpenStack cloud, such as Nova, Neutron, Cinder and Swift, and optional services that they may want to use depending on their specific requirements. The information for the website comes from OpenStack technical and user committees.
Version 4.0 of PLUMgrid’s Open Networking Suite (ONS) for OpenStack supports multiple OpenStack distributions, Load Balancing as a Service (LBaaS) plugins, high availability and dynamic Tunnel Heatmap for improved visibility into physical and virtual layers.
If there’s one part of the OpenStack market that never stops yielding enterprising newcomers, it’s the market for solutions to simplify OpenStack implementations. Not only could OpenStack still use help there, but such an approach nearly guarantees a revenue stream.
Newest to this table is ZeroStack, a freshly decloaked startup from VMware and AMD alumni, with a novel approach to OpenStack management for smaller and midtier outfits.
Your OpenStack is their business
ZeroStack’s idea is a mixture of an on-premises 2U appliance and a cloud-based SaaS portal. The appliance, a mixture of infrastructure and controller, is installed in the customer’s data center, and administration is done through ZeroStack’s cloud portal. Changes to the software are pushed out automatically to appliances from the cloud, and ZeroStack claims it can bring an existing OpenStack installation up to the latest revision of the product within two months of release.
Red Hat has polished the open source OpenStack cloud hosting software so that it can be more easily deployed within enterprises.
The latest edition of the Red Hat Enterprise Linux OpenStack Platform, released Wednesday, contains a number of new tools to minimize the amount of low-level configuration that must be done to get the complex stack running.
An open source project with numerous contributors, OpenStack is an integrated collection of management tools for running a cloud service, for internal or external use.
The customernever ever sees this abstraction like for examplea desktop running nix or windows.Open-Sourceis usuallyrecognized, as it gives IT environments management oftheir very own code and a community of support. Open Source also liberates users from licensing costsand offerspersonalization and flexibility. The world ofopen-source infrastructure-as-a-service (IaaS) has a couple of prominent players: CloudStack and OpenStack. Both offer choices for turning an IT infrastructure into a cloud platform able to quickly adjusting to changing enterpriserequirements. Cloud systemsautomaticallycontrol and optimize resource use by leveraging a metering capacity at some level of abstraction appropriate for thekind ofservice (e.g., storage, processing, bandwidth, and active user accounts). Sourceusemay besupervised, controlled, and reported providing transparency for both thesupplier and consumerof theutilizedservices.The open-source OpenStack cloud platform is out having itsfifth major launch today, delivering additional functions for clouds. OpenStack enjoys the support of more than 150 companies, including big names like Rackspace, Cisco, Dell, AT&T, Vexxhost and HP, all of whom are building clouds with OpenStack technology The open sourceis good for the orchestration component if you’ve got thefunctionsyou possessedwith no vendor lock.
Cloud computing is a model for enabling convenient, on-demand network usage of a shared pool of configurable computing sources (e.g., networks, servers, storage, applications, and services) that may beeasily provisioned and released with minimal administration effort or servicesprovider interaction. This cloud model encourages availability and it iscomposed of5essentialfunctions, 3services models, and four deployment models. Cloud bursting is a techniqueused by hybrid clouds to supplyextrasourcesto private clouds on an as-needed basis. If the private cloud has the processing capacity to handle its workloads, the hybrid cloud is not used. When workloads exceed the private cloud’s capacity, the hybrid cloud automatically allocates additional sourcesfor the private cloud.
Cloud customers have various techniques toconnect to cloud services in the form of API’s and interfaces. Software as aservices (SaaS), On Demand software, web-based software-these are terms for a similar thing: software that isprovidedover the Internetinstead of residing on your office computers. The question is whether or not web-based medical billing app isthe best choicefor your office. At presentthere arevery importantspecifications and technologies emerging for portability and interoperability for the cloud. It will take long time for thosestandards to mature and be supported by the majority of the providers. Until thesespecifications are adhered cloud brokers will play an essential role in the overall cloud ecosystem. These cloud brokers will abstract the possibly incompatible capabilities and interfaces and offer a proxy in advance of the arrival of common and open standards. Cloud platform services, whereby the computing platform (operating system and associated services) is delivered as a serviceon the internetthrough theprovider. For example, an applicationdevelopment environment that can beenrolled in and used immediately.
Cloud facilities services, whereby a virtualised environment is delivered as aservicesover the Internet by the supplier. The infrastructure can include servers, network equipment, and software. Cloud computing requires that a dynamic pool of resourcesbe available for provisioning. Here is the primary way to deliver on-demand, pay-per-use, and elastic services. The essential pieces of cloud computing solutions are: compute resources, storage sources, and network sources. Additionally some solutions provide additional components for examplean operating system, a services bus, or a distributed database — all made to support cloud computing. Cloud is not atechnology buzz word but rather a corporate strategy. It’s an opportunity to deliver functionally improved IT services to yourenterprise. However what hinders the adoption of cloud? Expensive, risks, vendor lock-in, data security, complex management and monitoring tools and stagnant featuresare some of the major barriers for businesses adopting cloud. Being anoption to address those concerns, Open Source has laid the foundationand hasopened up the doors to low priced, customizable, and simple to deploy, manage, and monitor cloud solutions. The major companiesaround the globe today have migrated their enterprise to open source cloud. The cloud supplier is responsible to provide a platform which the consumers can build their systems. They provide with a runtime environment and anincorporatedapp stack. It enables developers to quickly create and set up custom apps on the offered platforms with no need to build the infrastructure. The cloud supplierprovides the entire infrastructureand it isservicingto itscustomers.
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