Ubuntu and HP’s Moonshot extend the benefit of the ARM architecture to the data centre

John Zannos

John Zannos

on 30 September 2014

Hyperscale, scale out and cloud computing are the hot topics in the server space today. Driven by increasing Internet traffic, massive amounts of data and widespread adoption of Linux-based open source workloads, companies ranging from Paypal and Bloomberg to Facebook are taking a fresh look at their approach to data centre infrastructure. The key elements of this disruption: innovation, automation, lower TCO, greater density, optimised power/performance ratios and even new architectures like ARM’s 64-bit ARMv8.

In response, as part of its HP ProLiant Moonshot portfolio, HP is today launching two new ARM-powered server cartridges: the TI KeyStone II-powered m800 and the Applied Micro X-Gene-powered m400 – the latter representing the first enterprise-class 64-bit ARM server in the world. On each cartridge is a high-density, ARM-based server-grade system-on-a-chip (SoC) in a form-factor which can be rapidly deployed to deliver the value that Moonshot offers to customers.  And powering each of these cartridges is the latest Ubuntu Server release, 14.04 LTS, which comes preinstalled and ready to run every class of scale-out workload, including Web 2.0, Big Data, storage, NFV and more.

Managing a chassis with tens to hundreds of nodes of multiple architectures in a cost-effective way really benefits from a completely new approach to provisioning and management. And this is exactly what Canonical and HP have partnered to deliver on the new ARM-based cartridges: out of the box the cartridges are manageable with Juju service orchestration and MAAS (Metal-as-a-Service) automated provisioning. These tools make it simple to deploy, manage and grow complex workloads like LAMP, OpenStack and Hadoop — in fact, it’s possible to get full deployments running in minutes. Ubuntu is the leading OS for cloud, scale-out and ARM-based hyperscale computing. It is the only operating system that boasts full support for every Moonshot server cartridge, covering hardware based on both x86 and ARM chipsets.

According to HP’s press release, “Canonical offers Ubuntu, and orchestration tools Juju and Metal-as-a-Service (MAAS) software pre-installed on HP ProLiant Moonshot servers to enable customers to deploy complex workloads quickly.”

We’ve partnered with HP to meet customer demand for performance, openness and choice: with Moonshot and ARM we are together bringing new innovation to the the server marketplace. With Ubuntu on the Moonshot program, HP has made a huge commitment to Canonical, and Ubuntu Server (including the powerful management tools Canonical delivers) will enable our joint customers to confidently deploy massively scaled-out workloads.  Our goal continues to be to provide best in class solutions, and ultimately deliver the best customer experience.

Come witness it at HP’s keynote at ARM Techcon, this week in Santa Clara.

Ubuntu cloud

Ubuntu offers all the training, software infrastructure, tools, services and support you need for your public and private clouds.

Newsletter signup

Select topics you’re interested in

In submitting this form, I confirm that I have read and agree to Canonical’s Privacy Notice and Privacy Policy.

Related posts

Financial services businesses say multi-cloud is central to their plans for AI, containers and blockchain, 451 Research reveals

The Canonical commissioned study found that 60% of financial services businesses bank on the benefits of multi-cloud to support emerging technologies, but significant skills gap still exists An independent report by 451 Research, ‘Multi-…

Design and Web team summary – 04 February 2019

Welcome to the latest work and updates from the design and web team. Web squad Three new homepage takeovers This iteration we designed three, built two and are showing one new homepage takeover. Branded snap appstores is live Broadsign and…

MAAS 2.5 : Growing the ecosystem and support for KVM micro-clouds

Our latest release makes for a very exciting point in the MAAS evolution. As datacenter (DC) infrastructure grows at unparalleled scale fueled by new applications and services such as connected autonomous cars, augmented/virtual reality…