Latest Cumulus Linux OS Release Supports x86 Architecture

Commodity switch OS now supports two CPU architectures, five vendors.

Yevgeniy Sverdlik

August 6, 2014

1 Min Read
Latest Cumulus Linux OS Release Supports x86 Architecture
Cumulus CEO JR Rivers (third from the left) sat on a data center networking panel at the Open Compute Summit earlier this year.

Cumulus Networks, a startup with a Linux-based operating system for commodity data center network switches, has added support for a new hardware architectures and expanded the feature set in the latest Cumulus Linux 2.2 release.

The OS now supports x86 CPU architectures, making it simpler to deploy on Dell S6000-ON and Penguin Computing Arctica 4806XP switches. Cumulus now supports 16 hardware platforms, two CPU architectures and five vendors.

Cumulus launched the OS in June 2013, marketing it as an alternative to proprietary network software sold by Cisco and other market incumbents that is inseparable from their hardware. The company has been expanding the ecosystem of partners that support its software since the launch.

Jussi Kukkonen, director of product management at Penguin, said the vendor’s customers running high-performance computing clusters and scale-out data center architectures found flexibility of the x86 and Linux application environment valuable.

“Cumulus Linux 2.2, powering our new Penguin Arctica 4806XP switch, meets the growing customer demand for an open 10/40 Gigabit Ethernet networking fabric with the ease and flexibility of an x86-Linux application environment,” he said.

In release 2.2, Cumulus also added a suite of solutions for dual-attached servers, overlay solutions for L2 cloud services on bare-metal switches and Lightweight Network Virtualization, among other features.

Here’s the list:

  • Improved Linux networking experience, bringing scalable and simplified interface configuration for networking devices (ifupdown2)

  • Simplified operations and workflow with Prescriptive Topology Manager (PTM)

  • Lightweight, consistent fast link failure detection mechanism with Bidirectional Forwarding Detection (BFD)

  • Improved routing table scale leveraging the algorithmic LPM (ALPM) table

  • Network traffic visibility through sFlow with InMon’s open source Host sFlow agent

  • Turnkey infrastructure as a service (IaaS) integration with MetaCloud OpenStack private cloud

Subscribe to the Data Center Knowledge Newsletter
Get analysis and expert insight on the latest in data center business and technology delivered to your inbox daily.

You May Also Like