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OpenStack
Original author(s)Rackspace Hosting and NASA
Developer(s)Open Infrastructure Foundation and community
Initial release21 October 2010; 14 years ago (2010-10-21)
Stable release
2024.1 Caracal[1] / 3 April 2024; 7 months ago (2024-04-03)
Repositoryopendev.org/openstack
Written inPython
PlatformCross-platform
TypeCloud computing
LicenseApache License 2.0
Websitewww.openstack.org Edit this at Wikidata

OpenStack is a free, open standard cloud computing platform. It is mostly deployed as infrastructure-as-a-service (IaaS) in both public and private clouds where virtual servers and other resources are made available to users.[2] The software platform consists of interrelated components that control diverse, multi-vendor hardware pools of processing, storage, and networking resources throughout a data center. Users manage it either through a web-based dashboard, through command-line tools, or through RESTful web services.

OpenStack began in 2010 as a joint project of Rackspace Hosting and NASA. As of 2012, it was managed by the OpenStack Foundation, a non-profit corporate entity established in September 2012[3] to promote OpenStack software and its community.[4] By 2018, more than 500 companies had joined the project.[5] In 2020 the foundation announced it would be renamed the Open Infrastructure Foundation in 2021.[6]

History

[edit]
NASA's Nebula platform

In July 2010, Rackspace Hosting and NASA announced an open-source cloud-software initiative known as OpenStack.[7][8] The mission statement was "to produce the ubiquitous Open Source Cloud Computing platform that will meet the needs of public and private clouds regardless of size, by being simple to implement and massively scalable".[9]

The project intended to help organizations offer cloud-computing services running on standard hardware. The community's first official release, code-named Austin, appeared three months later on 21 October 2010 (2010-10-21),[10] with plans to release regular updates of the software every few months. The early code came from NASA's Nebula platform as well as from Rackspace's Cloud Files platform. The cloud stack and open stack modules were merged and released as open source by the NASA Nebula[11] team in concert with Rackspace.

In 2011, developers of the Ubuntu Linux distribution adopted OpenStack[12] with an unsupported technology preview of the OpenStack "Bexar" release for Ubuntu 11.04 "Natty Narwhal".[13] Ubuntu's sponsor Canonical then introduced full support for OpenStack clouds, starting with OpenStack's Cactus release.[citation needed]

OpenStack became available in Debian Sid from the Openstack "Cactus" release in 2011, and the first release of Debian including OpenStack was Debian 7.0 (code name "Wheezy"), including OpenStack 2012.1 (code name: "Essex").[14][15]

In October 2011, SUSE announced the public preview of the industry's first fully configured OpenStack powered appliance based on the "Diablo" OpenStack release.[16] In August 2012, SUSE announced its commercially supported enterprise OpenStack distribution based on the "Essex" release.[17]

Lew Tucker, VP & CTO, Cloud Computing of Cisco in 2012

In 2012, Red Hat announced a preview of their OpenStack distribution,[18] beginning with the "Essex" release. After another preview release, Red Hat introduced commercial support for OpenStack with the "Grizzly" release, in July 2013.[19]

The OpenStack organization has grown rapidly and is supported by more than 540 companies.[20]

In 2012 NASA withdrew from OpenStack as an active contributor, and instead made the strategic decision to use Amazon Web Services for cloud-based services.[21] In July 2013, NASA released an internal audit citing lack of technical progress and other factors as the agency's primary reason for dropping out as an active developer of the project and instead focus on the use of public clouds.[22] This report is contradicted in part by remarks made by Ames Research Center CIO, Ray O'Brien.[23] As of Nov 2021, NASA continues to utilize OpenStack in IAAS and PAAS support of the Discover supercomputer cluster. The OpenStack environment is called "Explore" and operates in the NASA Center for Climate Simulation at Goddard Space Flight Center.[24]

Notable deployments

[edit]

In November 2012, The UK's Government Digital Service (GDS) launched Inside Government[25] based on the OpenNASA v2.0 Government as a Platform (GaaP) model.

In December 2013, Oracle announced it had joined OpenStack as a Sponsor and planned to bring OpenStack to Oracle Solaris, Oracle Linux, and many of its products.[26] It followed by announcing Oracle OpenStack distributions for Oracle Solaris[27][28] and for Oracle Linux using Icehouse on 24 September 2014.[29]

In May 2014, HP announced HP Helion and released a preview of HP Helion OpenStack Community, beginning with the IceHouse release. HP has operated HP Helion Public Cloud on OpenStack since 2012.[30]

At the 2014 Interop and Tech Field Day, software-defined networking was demonstrated by Avaya using Shortest path bridging and OpenStack as an automated campus, extending automation from the data center to the end device, and removing manual provisioning from service delivery.[31][32]

As of November 2021, NASA hosts the Explore OpenStack private cloud in support of the Discover HPC.[24]

As of September 2022, China Mobile uses OpenStack as the foundation of its 5G network. Red Hat claims that its platform is deployed on over 30 percent of production LTE networks.[33]

The OpenStack cloud at CERN requires over 300,000 cores to meet the needs of the Large Hadron Collider.[33]

Historical names

[edit]

Several OpenStack projects changed names due to trademark issues.

  • Neutron was formerly known as Quantum.[34]
  • Sahara used to be called Savanna.[35]
  • Designate was previously known as Moniker.[36]
  • Trove was formerly known as RedDwarf.[37]
  • Zaqar was formerly known as Marconi.[38][39]

Release history

[edit]
Release name Release date Included Component code names[40]
Austin 21 October 2010[41][42] Nova, Swift
Bexar 3 February 2011[43] Nova, Glance, Swift
Cactus 15 April 2011[44] Nova, Glance, Swift
Diablo 22 September 2011[45] Nova, Glance, Swift
Essex 5 April 2012[46] Nova, Glance, Swift, Horizon, Keystone
Folsom 27 September 2012[47] Nova, Glance, Swift, Horizon, Keystone, Quantum, Cinder
Grizzly 4 April 2013[48] Nova, Glance, Swift, Horizon, Keystone, Quantum, Cinder
Havana 17 October 2013[49] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer
Icehouse 17 April 2014[50] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove
Juno 16 October 2014[51] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara
Kilo 30 April 2015[52] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic
Liberty 16 October 2015[53] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight
Mitaka 7 April 2016[54] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum
Newton 6 October 2016[55] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher
Ocata 22 February 2017[56] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher
Pike 30 August 2017[57] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher
Queens 28 February 2018[58] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher, blazar, ceilometer-powervm, karbor, octavia, storlets, tricircle, zun
Rocky 30 August 2018[59] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher, blazar, ceilometer-powervm, karbor, octavia, storlets, tricircle, zun, Cyborg, ec2-api, Masakari, Qinling (40 services)
Stein 10 April 2019[60] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher, blazar, ceilometer-powervm, karbor, octavia, storlets, tricircle, zun, Cyborg, ec2-api, Masakari, Qinling, monasca-events-api, placement (44 services)
Train 16 October 2019[61] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, monasca-log-api, murano, panko, senlin, solum, tacker, vitrage, Watcher, blazar, ceilometer-powervm, karbor, octavia, storlets, tricircle, zun, Cyborg, ec2-api, Masakari, Qinling, monasca-events-api, placement (44 services)
Ussuri 13 May 2020[62] Nova, Glance, Swift, Horizon, Keystone, Neutron, Cinder, Heat, Ceilometer, Trove, Sahara, Ironic, Zaqar, Manila, Designate, Barbican, Searchlight, Magnum, aodh, cloudkitty, congress, freezer, mistral, monasca-api, murano, panko, senlin, solum, tacker, vitrage, Watcher, blazar, karbor, octavia, storlets, tricircle, zun, Cyborg, ec2-api, Masakari, Qinling, monasca-events-api, placement, adjutant (44 services)
Victoria 14 October 2020[63] Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Karbor, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Panko, Placement, Qinling, Sahara, Searchlight, Senlin, Solum, Storlets, Swift, Tacker, Trove, Vitrage, Watcher, Zaqar, Zun (42 services)
Wallaby 14 April 2021[64] Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Panko, Placement, Sahara, Senlin, Solum, Storlets, Swift, Tacker, Trove, Vitrage, Watcher, Zaqar, Zun (39 services)
Xena 6 October 2021[65] Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Placement, Sahara, Senlin, Solum, Storlets, Swift, Tacker, Trove, Vitrage, Watcher, Zaqar, Zun (38 services)
Yoga 30 March 2022[66] Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Placement, Sahara, Senlin, Solum, Storlets, Swift, Tacker, Trove, Vitrage, Watcher, Zaqar, Zun (38 services)
Zed 5 October 2022 Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Placement, Sahara, Senlin, Skyline-apiserver, Skyline-console, Solum, Storlets, Swift, Tacker, Trove, Venus, Vitrage, Watcher, Zaqar, Zun (41 services)
2023.1 Antelope 22 March 2023 Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Placement, Sahara, Senlin, Skyline-apiserver, Skyline-console, Solum, Storlets, Swift, Tacker, Trove, Venus, Vitrage, Watcher, Zaqar, Zun (41 services)
2023.2 Bobcat 4 October 2023 Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Ec2-api, Freezer, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Monasca-api, Monasca-events-api, Murano, Neutron, Nova, Octavia, Placement, Sahara, Senlin, Skyline-apiserver, Skyline-console, Solum, Storlets, Swift, Tacker, Trove, Venus, Vitrage, Watcher, Zaqar, Zun (41 services)
2024.1 Caracal 3 April 2024 Adjutant, Aodh, Barbican, Blazar, Ceilometer, Cinder, Cloudkitty, Cyborg, Designate, Glance, Heat, Horizon, Ironic, Keystone, Magnum, Manila, Masakari, Mistral, Neutron, Nova, Octavia, Placement, Skyline-apiserver, Skyline-console, Storlets, Swift, Tacker, Trove, Venus, Vitrage, Watcher, Zaqar, Zun (33 services)

OpenStack development

[edit]

The OpenStack community collaborates around a six-month, time-based release cycle with frequent development milestones.[67]

During the planning phase of each release, the community would gather for an OpenStack Design Summit to facilitate developer working sessions and to assemble plans.[68] These Design Summits would coincide with the OpenStack Summit conference.

Starting with the Pike development cycle the design meetup activity has been separated out into a separate Project Teams Gathering (PTG) event.[69] This was done to avoid the developer distractions caused by presentations and customer meetings that were happening at the OpenStack Summit and to allow the design discussions to happen ahead of the start of the next cycle.

Recent OpenStack Summits have taken place in Shanghai on 4–6 November 2019,[70] Denver on 29 April-1 May 2019,[71] Berlin on 13–19 November 2018,[72] Vancouver on 21–25 May 2018,[73] Sydney on 6–8 November 2017,[74] Boston on 8–11 May 2017,[75] Austin on 25–29 April 2016,[76] and Barcelona on 25–28 October 2016.[77] Earlier OpenStack Summits have taken place also in Tokyo in October 2015,[78] Vancouver in May 2015,[79] and Paris in November 2014.[80] The summit in May 2014 in Atlanta drew 4,500 attendees – a 50% increase from the Hong Kong summit six months earlier.[81][82]

Components

[edit]

‹The template How-to is being considered for merging.› 

OpenStack is broken up into services to allow you to plug and play components depending on your needs. The OpenStack map gives you an "at a glance" view of the OpenStack landscape to see where those services fit and how they can work together.

OpenStack has a modular architecture with various code names for its components.[40]

Compute (Nova)

[edit]

Nova is the OpenStack project that provides a way to provision compute instances as virtual machines, real hardware servers (through the use of ironic), and has limited support for system containers. Nova runs as a set of daemons on top of existing Linux servers to provide that service.[83] [84]

Nova is written in Python. It uses many external Python libraries such as Eventlet (concurrent networking library), Kombu (AMQP messaging framework), and SQLAlchemy (SQL toolkit and Object Relational Mapper).[85] Nova is designed to be horizontally scalable. Rather than switching to larger servers, you procure more servers and simply install identically configured services.[86]

Due to its widespread integration into enterprise-level infrastructures, monitoring OpenStack performance in general, and Nova performance in particular, scaling became an increasingly important issue. Monitoring end-to-end performance requires tracking metrics from Nova, Keystone, Neutron, Cinder, Swift and other services, in addition to monitoring RabbitMQ which is used by OpenStack services for message passing.[87][88] All these services generate their own log files, which, especially in enterprise-level infrastructures, also should be monitored.[89]

Networking (Neutron)

[edit]

Neutron is an OpenStack project to provide "network connectivity as a service" between interface devices (e.g., vNICs) managed by other OpenStack services (e.g., nova). It implements the OpenStack Networking API.[90]

It manages all networking facets for the Virtual Networking Infrastructure (VNI) and the access layer aspects of the Physical Networking Infrastructure (PNI) in the OpenStack environment. OpenStack Networking enables projects to create advanced virtual network topologies which may include services such as a firewall, and a virtual private network (VPN).[90]

Neutron allows dedicated static IP addresses or DHCP. It also allows Floating IP addresses to let traffic be dynamically rerouted.

Users can use software-defined networking (SDN) technologies like OpenFlow to support multi-tenancy and scale. OpenStack networking can deploy and manage additional network services—such as intrusion detection systems (IDS), load balancing, firewalls, and virtual private networks (VPN).[91]

Block storage (Cinder)

[edit]

Cinder is the OpenStack Block Storage service for providing volumes to Nova virtual machines, Ironic bare metal hosts, containers and more. Some of the goals of Cinder are to be/have:

  • Component based architecture: Quickly add new behaviors
  • Highly available: Scale to very serious workloads
  • Fault-Tolerant: Isolated processes avoid cascading failures
  • Recoverable: Failures should be easy to diagnose, debug, and rectify
  • Open Standards: Be a reference implementation for a community-driven api[92]

Cinder volumes provide persistent storage to guest virtual machines - known as instances, that are managed by OpenStack Compute software. Cinder can also be used independent of other OpenStack services as stand-alone software-defined storage. The block storage system manages the creation, replication, snapshot management, attaching and detaching of the block devices to servers.[93]

Identity (Keystone)

[edit]

Keystone is an OpenStack service that provides API client authentication, service discovery, and distributed multi-tenant authorization by implementing OpenStack's Identity API.[94] It is the common authentication system across the cloud operating system. Keystone can integrate with directory services like LDAP. It supports standard username and password credentials, token-based systems and AWS-style (i.e. Amazon Web Services) logins. The OpenStack keystone service catalog allows API clients to dynamically discover and navigate to cloud services.[95] [96]

Image (Glance)

[edit]

The Image service (glance) project provides a service where users can upload and discover data assets that are meant to be used with other services. This currently includes images and metadata definitions.[97]

Images

[edit]

Glance image services include discovering, registering, and retrieving virtual machine (VM) images. Glance has a RESTful API that allows querying of VM image metadata as well as retrieval of the actual image. VM images made available through Glance can be stored in a variety of locations from simple filesystems to object-storage systems like the OpenStack Swift project.[97]

Metadata Definitions

[edit]

Glance hosts a metadefs catalog. This provides the OpenStack community with a way to programmatically determine various metadata key names and valid values that can be applied to OpenStack resources.[97]

Object storage (Swift)

[edit]

Swift is a distributed, eventually consistent object/blob store. The OpenStack Object Store project, known as Swift, offers cloud storage software so that you can store and retrieve lots of data with a simple API. It's built for scale and optimized for durability, availability, and concurrency across the entire data set. Swift is ideal for storing unstructured data that can grow without bound.[98]

In August 2009, Rackspace started the development of the precursor to OpenStack Object Storage, as a complete replacement for the Cloud Files product. The initial development team consisted of nine developers.[99] SwiftStack, an object storage software company, is currently the leading developer for Swift with significant contributions from Intel, Red Hat, NTT, HP, IBM, and more.[100]

Dashboard (Horizon)

[edit]

Horizon is the canonical implementation of OpenStack's Dashboard, which provides a web based user interface to OpenStack services including Nova, Swift, Keystone, etc.[101] Horizon ships with three central dashboards, a "User Dashboard", a "System Dashboard", and a "Settings" dashboard. Between these three they cover the core OpenStack applications and deliver on Core Support. The Horizon application also ships with a set of API abstractions for the core OpenStack projects in order to provide a consistent, stable set of reusable methods for developers. Using these abstractions, developers working on Horizon don't need to be intimately familiar with the APIs of each OpenStack project.[102]

Orchestration (Heat)

[edit]

Heat is a service to orchestrate multiple composite cloud applications using templates, through both an OpenStack-native REST API and a CloudFormation-compatible Query API.[103]

Workflow (Mistral)

[edit]

Mistral is a service that manages workflows. User typically writes a workflow using workflow language based on YAML and uploads the workflow definition to Mistral via its REST API. Then user can start this workflow manually via the same API or configure a trigger to start the workflow on some event.[104]

Telemetry (Ceilometer)

[edit]

OpenStack Telemetry (Ceilometer) provides a Single Point Of Contact for billing systems, providing all the counters they need to establish customer billing, across all current and future OpenStack components. The delivery of counters is traceable and auditable, the counters must be easily extensible to support new projects, and agents doing data collection should be independent of the overall system.

Database (Trove)

[edit]

Trove is a database-as-a-service provisioning relational and a non-relational database engine.[105]

Elastic map reduce (Sahara)

[edit]

Sahara is a component to easily and rapidly provision Hadoop clusters. Users will specify several parameters like the Hadoop version number, the cluster topology type, node flavor details (defining disk space, CPU and RAM settings), and others. After a user provides all of the parameters, Sahara deploys the cluster in a few minutes. Sahara also provides means to scale a preexisting Hadoop cluster by adding and removing worker nodes on demand.[106][107]

Bare metal (Ironic)

[edit]

Ironic is an OpenStack project that provisions bare metal machines instead of virtual machines. It was initially forked from the Nova Baremetal driver and has evolved into a separate project. It is best thought of as a bare-metal hypervisor API and a set of plugins that interact with the bare-metal machines managed by Ironic. By default, it will use PXE and IPMI or Redfish[108] in concert to provision and manage physical machines, but Ironic supports and can be extended with vendor-specific plugins to implement additional functionality.[109][110]

Since the inception of Ironic, it has spawned several sub-projects[111] to help support additional use cases and capabilities. Some of the more commonly leveraged of these projects include Ironic-Inspector, Bifrost, Sushy, and networking-generic-switch. Ironic-inspector supplies hardware information collection and hardware discovery.[112] Bifrost focuses on the use case of operating without other OpenStack components,[113] and is highlighted on the website ironicbaremetal.org. Sushy is a lightweight Redfish API client library.[114] Networking-generic-switch is a plugin which supports managing switchport configuration for bare metal machines.[115]

Messaging (Zaqar)

[edit]

Zaqar is a multi-tenant cloud messaging service for Web developers. The service features a fully RESTful API, which developers can use to send messages between various components of their SaaS and mobile applications by using a variety of communication patterns. Underlying this API is an efficient messaging engine designed with scalability and security in mind. Other OpenStack components can integrate with Zaqar to surface events to end users and to communicate with guest agents that run in the "over-cloud" layer.

Shared file system (Manila)

[edit]

OpenStack Shared File System (Manila) provides an open API to manage shares in a vendor agnostic framework. Standard primitives include the ability to create, delete, and give/deny access to a share and can be used standalone or in a variety of different network environments. Commercial storage appliances from EMC, NetApp, HP, IBM, Oracle, Quobyte, INFINIDAT and Hitachi Data Systems are supported as well as filesystem technologies such as Red Hat GlusterFS[116] or Ceph.

DNS (Designate)

[edit]

Designate is a multi-tenant REST API for managing DNS. This component provides DNS as a Service and is compatible with many backend technologies, including PowerDNS and BIND. It doesn't provide a DNS service as such as its purpose is to interface with existing DNS servers to manage DNS zones on a per tenant basis.[117]

Search (Searchlight)

[edit]

The project is no longer actively maintained.

Searchlight provides advanced and consistent search capabilities across various OpenStack cloud services. It accomplishes this by offloading user search queries from other OpenStack API servers by indexing their data into Elasticsearch.[118] Searchlight is being integrated into Horizon[119] and also provides a Command-line interface.[120]

Key manager (Barbican)

[edit]

Barbican is a REST API designed for the secure storage, provisioning and management of secrets. It is aimed at being useful for all environments, including large ephemeral Clouds.[121]

Container orchestration (Magnum)

[edit]

Magnum is an OpenStack API service developed by the OpenStack Containers Team making container orchestration engines such as Docker Swarm, Kubernetes, and Apache Mesos available as first class resources in OpenStack. Magnum uses Heat to orchestrate an OS image which contains Docker and Kubernetes and runs that image in either virtual machines or bare metal in a cluster configuration.[122]

Root Cause Analysis (Vitrage)

[edit]

Vitrage is the OpenStack RCA (Root Cause Analysis) service for organizing, analyzing and expanding OpenStack alarms & events, yielding insights regarding the root cause of problems and deducing their existence before they are directly detected.[123]

Rule-based alarm actions (Aodh)

[edit]

This alarming service enables the ability to trigger actions based on defined rules against metric or event data collected by Ceilometer or Gnocchi.[124]

Compatibility with other cloud APIs

[edit]

OpenStack does not strive for compatibility with other clouds' APIs.[125] However, there is some amount of compatibility driven by various members of the OpenStack community for whom such things are important.

Governance

[edit]

OpenStack is governed by the OpenInfra foundation and its board of directors. The board of directors is made up of Platinum sponsors, members of the Gold sponsors and members elected by the Foundation individual members.[128] The OpenStack Technical Committee is the governing body of the OpenStack open source project. It is an elected group that represents the contributors to the project, and has oversight on all technical matters. This includes developers, operators and end users of the software.

Appliances

[edit]

An OpenStack Appliance[129] is the name given to software that can support the OpenStack cloud computing platform on either physical devices such as servers or virtual machines or a combination of the two. Typically a software appliance[130] is a set of software capabilities that can function without an operating system. Thus, they must contain enough of the essential underlying operating system components to work. Therefore, a strict definition might be: an application that is designed to offer OpenStack capability without the necessity of an underlying operating system. However, applying this strict definition may not be helpful, as there is not really a clear distinction between an appliance and a distribution.[131] It could be argued that the term appliance is something of a misnomer because OpenStack itself is referred to as a cloud operating system[132] so using the term OpenStack appliance could be a misnomer if one is being pedantic.

If we look at the range of Appliances and Distributions one could make the distinction that distributions are those toolsets which attempt to provide a wide coverage of the OpenStack project scope, whereas an Appliance will have a more narrow focus, concentrating on fewer projects. Vendors have been heavily involved in OpenStack since its inception, and have since developed and are marketing a wide range of appliances, applications and distributions.

Vendors

[edit]

A large number of vendors offer OpenStack solutions, meaning that an organization wishing to deploy the technology has a complex task in selecting the vendor offer that best matches its business requirements.[133] Barb Darrow offered this overview in Fortune on 27 May 2015,[134] pointing out that there may be some consolidation in the market that will clarify those decisions.

There are other aspects that users need to consider, for example, the real costs involved.[135] Some vendors will make an offer which encompasses most of the OpenStack projects; others will only offer certain components. Other considerations include the extent of proprietary code used to manage a lack of maturity in an OpenStack component, and to what extent that encourages vendor lock-in.[136][137]

The most authoritative information on vendor products is at the Open Infrastructure Foundation website.[138]

Challenges to implementation

[edit]

OpenStack is a complex entity, and adopters face a range of challenges when trying to implement OpenStack in an organisation. For many organisations trying to implement their own projects, a key issue is the lack of skills available.[139] In an article on The New Stack, Atul Jha identifies five challenges any organization wishing to deploy OpenStack will face.[140]

Installation challenges

[edit]

OpenStack is a suite of projects rather than a single product, and because each of the various applications needs to be configured to suit the user's requirements, installation is complex and requires a range of complementary skill-sets[141] for an optimum set-up. One obvious solution would be to take a complete vendor supplied package containing hardware and software, although due diligence is essential.[142]

Documentation

[edit]

This is more a function of the nature of documentation with open source products than OpenStack per se, but with more than 25 projects, managing document quality is always going to be challenging.[143]

Upgrading OpenStack

[edit]

One of the main objectives of using cloud type infrastructure is to offers users not only high reliability but also high availability,[144] something that public cloud suppliers will offer in service-level agreements.[145]

Due to OpenStack's multi-project development approach, the complexity involved in synchronising the different projects during an upgrade may mean that downtime is unavoidable.[146]

Long term support

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It's quite common for a business to keep using an earlier release of software for some time after it has been upgraded. The reasons for this are pretty obvious and referred to above. However, there is little incentive for developers in an open source project to provide support for superseded code. In addition, OpenStack itself has formally discontinued support for some old releases.[147]

Given the above challenges the most appropriate route for an organization wishing to implement OpenStack would be to go with a vendor, and source an OpenStack appliance or distribution.

Deployment models

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As the OpenStack project has matured, vendors have pioneered multiple ways for customers to deploy OpenStack:

OpenStack-based Public Cloud
A vendor provides a public cloud computing system based on the OpenStack project.
On-premises distribution
In this model, a customer downloads and installs an OpenStack distribution in their internal network. See Distributions.
Hosted OpenStack Private Cloud
A vendor hosts an OpenStack-based private cloud: including the underlying hardware and the OpenStack software.
OpenStack-as-a-Service
A vendor hosts OpenStack management software (without any hardware) as a service. Customers sign up for the service and pair it with their internal servers, storage and networks to get a fully operational private cloud.
Appliance based OpenStack
Nebula was a vendor that sold appliances that could be plugged into a network which spawned an OpenStack deployment. [citation needed]

Distributions

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See also

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References

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  1. ^ "2024.1 Caracal". OpenStack Releases. Retrieved 28 July 2024.
  2. ^ "OpenStack Open Source Cloud Computing Software". Retrieved 29 November 2013.
  3. ^ "OpenStack Launches as Independent Foundation, Begins Work Protecting, Empowering and Promoting OpenStack". BusinessWire. 19 September 2012. Retrieved 7 January 2013.
  4. ^ "OpenStack Foundation Mission". Retrieved 7 January 2013.
  5. ^ "OpenStack Open Source Cloud Computing Software". Openstack.org. Retrieved 7 January 2013.
  6. ^ Lardinois, Frederic (19 October 2020). "The OpenStack Foundation becomes the Open Infrastructure Foundation". Tech Crunch. Retrieved 16 July 2021.
  7. ^ Curry, Jim (19 July 2010). "Introducing OpenStack". The OpenStack Blog. Archived from the original on 26 October 2017. Retrieved 22 January 2017.
  8. ^ "Introduction a Bit of Openstack History". Docs Openstack. Openstack Foundation. Retrieved 17 September 2015.
  9. ^ "Open Stack Wiki Main Page Mission". 24 May 2010. Openstack Foundation. Retrieved 17 September 2015.
  10. ^ "OpenStack Releases: OpenStack Releases". releases.openstack.org.
  11. ^ "Cloud Computing: Architecture, IT Security and Operational Perspectives". NASA Nebula Cloud Architecture. NASA. 9 May 2016.
  12. ^ Vaughan, Steven J. (10 May 2011). "Canonical switches to OpenStack for Ubuntu Linux cloud". ZDNet. Archived from the original on 14 May 2011. Retrieved 23 October 2012.
  13. ^ Vaughan, Steven J. (3 February 2011). "Canonical brings Ubuntu to the OpenStack Cloud". ZDNet. Archived from the original on 5 February 2011. Retrieved 11 January 2014.
  14. ^ a b "Openstack Folsom fully uploaded to Experimental". Thomas Goirand. 6 February 2013. Archived from the original on 20 September 2019. Retrieved 29 November 2013.
  15. ^ a b "OpenStack Havana 2013.2 Debian packages available". Thomas Goirand. 17 October 2013. Archived from the original on 20 September 2019. Retrieved 29 November 2013.
  16. ^ "SUSE Debuts OpenStack-Powered Cloud Infrastructure Solution". SUSE press release. 26 October 2011. Retrieved 9 August 2016.
  17. ^ "SUSE Releases First OpenStack-Based Enterprise Private Cloud Solution". SUSE press release. 29 August 2012. Retrieved 9 August 2016.
  18. ^ "Red Hat Announces Preview Version of Enterprise-Ready OpenStack Distribution". Linux Weekly News. 15 August 2012. Retrieved 26 August 2013.
  19. ^ "Red Hat Announces OpenStack-powered Product Offerings to Deliver on Open Hybrid Cloud Vision". Red Hat Press Release. 12 June 2013. Retrieved 11 January 2014.
  20. ^ "Openstack Organisation Foundation Companies". Openstack Organisation. Openstack Foundation. Retrieved 17 September 2015.
  21. ^ Babcock, Chris (18 June 2012). "NASA Drops OpenStack For Amazon Cloud". InformationWeek. UBM Tech. Retrieved 17 September 2012.
  22. ^ "NASA's Progress in Adopting Cloud Computing Technologies" (PDF). NASA. 29 July 2013. Retrieved 14 March 2014.
  23. ^ "Nebula, NASA, and OpenStack". open.NASA. 4 June 2012. Retrieved 18 June 2015.
  24. ^ a b "NCCS—On the Open Road to OpenStack". nas.nasa.gov. 11 November 2021. Retrieved 6 June 2023.
  25. ^ "Inside Government". UK GDS.
  26. ^ "Oracle Sponsors OpenStack Foundation; Offers Customers Ability to Use OpenStack to Manage Oracle Cloud Products and Services". Oracle. 10 December 2013.
  27. ^ "Oracle Introduces Oracle Solaris 11.2—Engineered for Cloud". Oracle. 29 April 2014.
  28. ^ "Oracle Solaris 11.2 Now Generally Available". Oracle. 31 July 2014.
  29. ^ "Oracle OpenStack for Oracle Linux Now Generally Available". Oracle. 24 September 2014.
  30. ^ "HP Launches HP Helion Portfolio of Cloud Products and Services" (Press release). 7 May 2014. Retrieved 7 May 2014.
  31. ^ "Interop 2014: Avaya to showcase Automated Campus part of SDN initiative". Info Tech Lead. 26 March 2014. {{cite web}}: Missing or empty |url= (help)
  32. ^ "Avaya Software Defined Data Center". Tech Field Day. February 2014. Retrieved 25 June 2014.
  33. ^ a b Robinson, Dan (30 September 2022). "Red Hat targets networks with OpenStack Platform 17 release". The Register. Retrieved 9 October 2022.
  34. ^ McClain, Mark (19 June 2013). "Quantum's new name is..." openstack-dev mailing list. OpenStack.org. Retrieved 16 July 2013.
  35. ^ Lukjanov, Sergey (7 March 2014). "Sahara (ex. Savanna) project renaming process". openstack-dev mailing list. OpenStack.org. Retrieved 8 May 2016.
  36. ^ Innes, Kiall (9 March 2013). "Moniker renamed to Designate, and applies for Incubation". openstack-dev mailing list. OpenStack.org. Retrieved 8 May 2016.
  37. ^ Blair, James (12 June 2013). "Gerrit Downtime Friday June 14 at 20:00 UTC". openstack-dev mailing list. OpenStack.org. Retrieved 8 May 2016.
  38. ^ "Welcome to Zaqar's developer documentation!". docs.openstack.org. Retrieved 24 September 2014.
  39. ^ "Zaqar". wiki.openstack.org. Retrieved 24 September 2014.
  40. ^ a b "OpenStack Roadmap " OpenStack Open Source Cloud Computing Software". Openstack.org. Retrieved 17 April 2014.
  41. ^ "OpenStack Open Source Cloud Computing Software". Openstack.org. Archived from the original on 7 June 2012. Retrieved 23 October 2012.
  42. ^ "Open Stack history summary on p.6-8" (PDF). Archived from the original (PDF) on 13 May 2013. Retrieved 23 October 2012.
  43. ^ "BexarReleaseScheduli". Wiki.openstack.org. 20 January 2011. Archived from the original on 2 November 2012. Retrieved 23 October 2012.
  44. ^ "CactusReleaseScheduli". Wiki.openstack.org. 12 April 2011. Retrieved 23 October 2012.
  45. ^ "DiabloReleaseScheduli". Wiki.openstack.org. 6 September 2011. Retrieved 23 October 2012.
  46. ^ "EssexReleaseScheduli". Wiki.openstack.org. 7 March 2012. Retrieved 23 October 2012.
  47. ^ "FolsomReleaseScheduli". Wiki.openstack.org. 14 May 2012. Retrieved 23 October 2012.
  48. ^ "GrizzlyReleaseScheduli". Wiki.openstack.org. Retrieved 4 April 2013.
  49. ^ "Havana_Release_Scheduli". Wiki.openstack.org. Retrieved 19 June 2013.
  50. ^ "Icehouse Release Scheduli". Wiki.openstack.org. Retrieved 17 April 2014.
  51. ^ "Juno Release Scheduli". Wiki.openstack.org. Retrieved 23 September 2014.
  52. ^ "Kilo Release Scheduli". Wiki.openstack.org. Retrieved 23 September 2014.
  53. ^ "OpenStack Docs: Liberty". releases.openstack.org. Retrieved 20 February 2016.
  54. ^ "OpenStack Docs: Mitaka". releases.openstack.org. Retrieved 20 February 2016.
  55. ^ "OpenStack Releases: Newton". releases.openstack.org. Retrieved 8 October 2016.
  56. ^ "OpenStack Releases: Ocata". releases.openstack.org. Retrieved 22 February 2017.
  57. ^ "OpenStack Releases: Pike". releases.openstack.org. Retrieved 17 September 2017.
  58. ^ "OpenStack Releases: Queens". releases.openstack.org. Retrieved 16 April 2018.
  59. ^ "OpenStack Releases: Rocky". releases.openstack.org.
  60. ^ "OpenStack Releases: Stein". releases.openstack.org.
  61. ^ "OpenStack Releases: Train". releases.openstack.org.
  62. ^ "OpenStack Releases: Ussuri". releases.openstack.org.
  63. ^ "OpenStack Releases: Victoria". releases.openstack.org. Retrieved 31 December 2020.
  64. ^ "OpenStack Releases: Wallaby". releases.openstack.org.
  65. ^ "OpenStack Releases: Xena". releases.openstack.org.
  66. ^ "OpenStack Releases: Yoga". releases.openstack.org.
  67. ^ "OpenStack Release Cycle". OpenStack Foundation. Retrieved 7 January 2013.
  68. ^ "OpenStack Design Summit". OpenStack Foundation. Retrieved 7 January 2013.
  69. ^ "OpenStack PTG - Developers, Operators, and End Users". OpenStack. Retrieved 11 May 2018.
  70. ^ "Shanghai 2019: OpenStack Summit". OpenStack. Retrieved 4 November 2019.
  71. ^ "Denver 2019: OpenStack Summit". OpenStack. Retrieved 29 April 2019.
  72. ^ "Berlin 2018: OpenStack Summit". OpenStack. Retrieved 13 November 2018.
  73. ^ "Vancouver 2018: OpenStack Summit". OpenStack. Retrieved 11 May 2018.
  74. ^ "Join us November 6-8, 2017 for the OpenStack Summit Sydney!". OpenStack. Retrieved 24 September 2018.
  75. ^ "Boston 2017 - OpenStack Open Source Cloud Computing Software". OpenStack. Retrieved 12 September 2017.
  76. ^ "OpenStack Austin Summit 2016".
  77. ^ "OpenStack Barcelona Summit 2016".
  78. ^ "OpenStack Tokyo Summit 2015".
  79. ^ "OpenStack Vancouver Summit 2015".
  80. ^ "OpenStack Paris Summit 2014".
  81. ^ "The OpenStack Blog | Open Source Cloud Computing Software". openstack.org.
  82. ^ "OpenStack Summit Hong Kong 2013 - OpenStack is open source software for creating private and public clouds". openstack.org.
  83. ^ "OpenStack Compute (nova)". OpenStack. Retrieved 7 February 2020.
  84. ^ "HypervisorSupportMatrix". Retrieved 29 November 2013.
  85. ^ "OpenStack – more than just software". Archived from the original on 6 November 2013. Retrieved 29 November 2013.
  86. ^ "Capacity planning and scaling". OpenStack.org. Retrieved 7 February 2020.
  87. ^ "Monitoring OpenStack Nova". Retrieved 17 October 2016.
  88. ^ "Monitoring OpenStack Nova: Monitoring RabbitMQ". Retrieved 17 October 2016.
  89. ^ "OpenStack monitoring beyond the Elastic (ELK) Stack - Part 3: Monitoring with Dynatrace". Dynatrace blog. 5 July 2017. Retrieved 19 March 2023.
  90. ^ a b "Welcome to Neutron's documentation!". OpenStack.org. Retrieved 7 February 2020.
  91. ^ "Everything you need to know to get started with Neutron". superuser.openstack.org. openstack.org. Retrieved 7 February 2020.
  92. ^ "OpenStack Block Storage (Cinder) documentation". OpenStack.org. Retrieved 7 February 2020.
  93. ^ "OpenStack Block Storage (Cinder)". techtarget.com. Retrieved 7 February 2020.
  94. ^ "Keystone, the OpenStack Identity Service". OpenStack.org. Retrieved 7 February 2020.
  95. ^ "Service Catalog Overview". Flux7.com. Retrieved 7 February 2020.
  96. ^ "What is Keystone - Installing Keystone in Openstack". docs.openstack.org. Flux7. Archived from the original on 7 February 2020. Retrieved 7 February 2020.
  97. ^ a b c "Welcome to Glance's documentation!". OpenStack.org. Retrieved 7 February 2020.
  98. ^ "Swift". wiki.openstack.org. openstack.org. Retrieved 7 February 2020.
  99. ^ Cloud Files (Swift) Origin on YouTube
  100. ^ "Contributions by commits to OpenStack Swift". Stackalytics.
  101. ^ "Horizon: The OpenStack Dashboard Project". docs.openstack.org. OpenStack.org. Retrieved 7 February 2020.
  102. ^ "Horizon Basics". docs.openstack.org. openstack.org. Retrieved 7 February 2020.
  103. ^ "Heat – OpenStack". Wiki.openstack.org. Retrieved 6 May 2014.
  104. ^ "Mistral – OpenStack". Wiki.openstack.org. Retrieved 28 June 2016.
  105. ^ "Trove – OpenStack". Wiki.openstack.org. Retrieved 6 May 2014.
  106. ^ "Welcome to Sahara's developer documentation!". docs.openstack.org. Retrieved 24 September 2014.
  107. ^ "Sahara". wiki.openstack.org. Retrieved 24 September 2014.
  108. ^ "Redfish driver – ironic 18.0.1.dev13 documentation". docs.openstack.org. Retrieved 15 June 2021.
  109. ^ "Welcome to Ironic's documentation!". docs.openstack.org. Retrieved 14 June 2021.
  110. ^ "Ironic". wiki.openstack.org. Retrieved 24 September 2014.
  111. ^ "Ironic (Bare Metal service) – OpenStack Technical Committee Governance Documents". governance.openstack.org. Retrieved 17 June 2021.
  112. ^ "Hardware introspection for OpenStack Bare Metal – ironic-inspector 10.7.0.dev9 documentation". docs.openstack.org. Retrieved 17 June 2021.
  113. ^ "Welcome to bifrost's documentation! – bifrost 11.0.1.dev4 documentation". docs.openstack.org. Retrieved 17 June 2021.
  114. ^ "Welcome to Sushy's documentation! – sushy 3.9.1.dev2 documentation". docs.openstack.org. Retrieved 17 June 2021.
  115. ^ "networking-generic-switch". OpenDev: Free Software Needs Free Tools. Retrieved 17 June 2021.
  116. ^ "Manila". OpenStack Wiki. Retrieved 1 June 2015.
  117. ^ "Designate". OpenStack Wiki. Retrieved 1 June 2015.
  118. ^ "Searchlight – OpenStack". wiki.openstack.org. Retrieved 20 February 2016.
  119. ^ "Searchlight Search Panel : Blueprints : OpenStack Dashboard (Horizon)". blueprints.launchpad.net. 23 September 2015. Retrieved 20 February 2016.
  120. ^ "openstack/python-searchlightclient". GitHub. Retrieved 20 February 2016.
  121. ^ "Barbican". OpenStack Wiki. Retrieved 1 June 2015.
  122. ^ "Magnum". OpenStack Wiki. Retrieved 3 October 2017.
  123. ^ "Vitrage - OpenStack". wiki.openstack.org.
  124. ^ "Aodh". OpenStack Documentation. Retrieved 3 October 2017.
  125. ^ "OpenStack Open Source Cloud Computing Software " Message: [openstack-dev] EC2 API - users wanted".
  126. ^ ec2-api on GitHub
  127. ^ gce-api on GitHub
  128. ^ "Foundation". OpenStack Foundation. Retrieved 15 January 2013.
  129. ^ "Openstack Organisation". Openstack.org. Openstack Foundation. Retrieved 17 September 2015.
  130. ^ "Definition of a Software Appliance". PC Magazine. Ziff Davis. Retrieved 17 September 2015.
  131. ^ Datta, Alana (1 September 2009). "A (SUSE) Studio to Edit and Roll Out Your Appliance". OpenSourceForYou. EFYIIndia. Retrieved 17 September 2015.
  132. ^ "OpenStack: The Open Source Cloud Operating System". openstack.org. OpenStack Foundation. Retrieved 21 September 2015.
  133. ^ Allen, Scott (19 May 2015). "5 Questions You Should Ask a Potential OpenStack Vendor". Intel Communities. Intel. Retrieved 17 September 2015.
  134. ^ Darrow, Barb (7 May 2015). "Is there such a thing as too many clouds?". Fortune. Retrieved 17 September 2015.
  135. ^ Finnegan, Matthew (1 May 2015). "OpenStack 'more costly' than VMware and Microsoft for private clouds". Computerworlduk.com. Retrieved 17 September 2015.
  136. ^ Clark, Jack (13 May 2014). "HP: OpenStack's networking nightmare Neutron 'was everyone's fault". The Register. Retrieved 17 September 2015.
  137. ^ Donnelly, Caroline (3 March 2015). "HP updates Helion OpenStack in latest hybrid cloud push". Computer Weekly. TechTarget. Retrieved 17 September 2015.
  138. ^ "Distro's and appliances". Openstack.org. Open Infrastructure Foundation.
  139. ^ Tsidulko, Joseph (6 August 2015). "OpenStack Community Challenged By Dearth Of Talent, Complexity". CRN. The Channel Company. Retrieved 17 September 2015.
  140. ^ Jha, Atul (December 2011). "OpenStack Has Its Issues but it's Worth a Fortune". Thenewstack.io. The New Stack. Retrieved 17 September 2015.
  141. ^ Laube, David (12 January 2015). "Why We Threw 4 Months of Work in the Trash; or How we Failed at OpenStack". Packet.net. Packet. Retrieved 17 September 2015.
  142. ^ SVERDLIK, Yevgeniy (1 April 2015). "Private OpenStack Startup Nebula Goes Out of Business". Data Center Knowledge. Penton. Retrieved 17 September 2015.
  143. ^ Lester, Andy (10 January 2013). "13 Things People Hate about Your Open Source Docs". Smart Bear. SmartBear Software. Retrieved 17 September 2015.
  144. ^ "Increased Availability and Reliability". WhatIsCloud.com. Arcitura Education Inc. Retrieved 21 September 2015.
  145. ^ Baset, Salman. "Cloud SLAs: Present and Future" (PDF). cs.columbia.edu. Retrieved 21 September 2015.
  146. ^ Darrow, Barb (20 December 2013). ""Backbreaking" OpenStack migrations hinder enterprise upgrades". gigaom.com. Knowingly Inc. Retrieved 21 September 2015.
  147. ^ "Releases". wikiOpenStack.otg. Openstack Foundation. Retrieved 17 September 2015.
  148. ^ Bruekner, Rich (13 May 2014). "Bright Computing Simplifies OpenStack Deployment". insideHPC. Retrieved 10 March 2016.
  149. ^ "Commercial Distributions and Hardware Appliances of OpenStack Private Cloud". OpenStack.org. OpenStack. 20 September 2019. Archived from the original on 20 September 2019. Retrieved 20 September 2019.
  150. ^ Chase, Nick (29 September 2014). "Oracle announces Oracle OpenStack for Oracle Linux— and cooperation deal with Canonical seen as poking Red Hat". Mirantis, Inc. Retrieved 26 February 2016. Oracle OpenStack for Oracle Linux, or O3L, is now available, enabling customers to control both Oracle Linux and Oracle VM using OpenStack. It also, however, comes with the announcement of a 'mutual cooperation and support' agreement with Canonical, seen as a direct shot at Red Hat.
  151. ^ "VMware Integrated OpenStack". VMware, Inc. Retrieved 29 June 2016.
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