Company to Demo Container Networking Support for vSphere Integrated Containers, OpenShift Container Platform, Kubernetes and Mesosphere, at DockerCon 2017 AUSTIN, TX--(Marketwired - Apr 18, 2017) - DockerCon - #BigSwitchNetworks ®, The Next-Generation Data Center Networking Company, today announced it has extended #BigCloudFabric ™ ( #BCF ) container networking support to #vSphere Integrated Containers. Earlier this year, Big Switch announced multi-container networking support for Mesosphere DC/OS and Kubernetes container orchestration platforms, including #RedHat #OpenShift Container Platform with Big Cloud Fabric. Big Switch Networks will be at DockerCon to discuss container networking and demo support for the above listed containerized environments. To learn more, visit Big Switch at BOOTH #S36. As the demand for container technology accelerates in enterprise and service provider data centers, a next-generation networking architecture is required to keep up with the rapid lifecycle of container instantiation, elasticity and retirement. BCF leverages software-defined networking (SDN) to provide one big "logical switch" governed by a centralized controller. This solution delivers simplified network operations, visibility and telemetry of containers and their hosts, and network automation for rapid application and micro-services deployment. "Integrating containers with VMware vSphere provides the best of both worlds for production IT deployments, the agility and portability of containers along with proven security and operations-friendly workflows," said Prashant Gandhi, Chief Product Officer, Big Switch Networks. "When Big Cloud Fabric is deployed as the physical network in this environment, customers can operate the network at the speed of containers due to BCF's built-in automation and zero-touch operations, while gaining enhanced container-level visibility and rapid container-to-container troubleshooting across the fabric." With vSphere Integrated Containers, organizations can leverage existing infrastructure to run containerized apps along with traditional applications on the same infrastructure, as well as tools, policies and processes to manage containerized applications in production. With BCF, customers can achieve the same operational benefits for their networking infrastructure hosting a mix of both traditional VM and containerized workloads. In container environments, the BCF controller enables physical network automation as well as deeper visibility of container-to-container traffic across the network, via integration with vSphere Integrated Containers. Big Cloud Fabric is the optimal networking fabric for multiple VMware solutions via a single point of integration for the entire fabric. In VMware environments, BCF connects with the VMware vCenter® API to provide physical network automation and end-to-end network visibility for VMware vSphere®. The Big Cloud Fabric controller directly integrates into VMware vCenter™ to simplify and automate application deployments on its physical SDN fabric and physical networks. The following aspects of the network are automated, requiring zero intervention from VM or network admin: Automatic ESXi host connectivity with fabric using LAG/MLAG Automatic Layer 2 network configuration Automatic network policy migration for vMotion The integrated VMware visibility provided by Big Cloud Fabric enables network and virtualization administrators to rapidly resolve cross-domain issues, while vSphere Integrated Containers provide critical enterprise container infrastructure to help IT Ops run both traditional and containerized applications side-by-side on a common platform. With vSphere Integrated Containers, IT teams can avoid expensive and time-consuming re-architecture of infrastructure that results in silos. When coupled with BCF, the same physical infrastructure can be logically provisioned to be orchestrated under different VMware environments for different workloads, including vSphere, vSphere + NSX, vSphere + vSAN, VMware Integrated OpenStack, and now vSphere Integrated Containers. The networking infrastructure can be scaled-out on demand and newer workload types can be added dynamically.
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