A not-so-small step forward for ARM-kind

APMC

amd-stage-apu-13

Two major milestones were reached this week for fans of ARM-based server gear.   First, HP and Applied Micro announced the 1st production ARM server this week with appropriate fanfare.   Here’s an analysis by Paul Teich and Gina Longoria (another Calxeda Alumni) of Moor Insights and Strategy.   Second, AMD showed off 2 OS’es (RedHat and SUSE), 2 JVMs (OpenJDK and Oracle),  and Hadoop running for the 1st time on an ARM A57 based server at JavaOne.   As Harish Jonnalagadda of BSN noted,  “Adding Hadoop functionality to its software ecosystem is a natural move for AMD as its target clients will be looking to use its server clusters to process large data sets. The low-power nature of the CPUs make them ideal for processing large chunks of information and undertaking high I/O tasks.”

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World’s First Bicycle Powered ARM Server

Jon Masters, Principal Software Engineer at RedHat, just finished his presentation (“Hyperscale Cloud Computing with ARM Processors”) at RedHat Summit ’12 and concluded with one of the cooler demos I’ve seen in quite some time!  We sat down with Jon afterwards to get his thoughts and more detail into this very interesting topic.  He’s graciously allowed us to publish his blog post here first.

Hyperscale computing is a truly exciting emerging technology that, I feel, promises great things over the next few years. It will take advantage of such technology innovations as System-on-Chip (SoC), distributed fabric technologies, and integrated systems management. These are all features that are available today in Calxeda’s EnergyCore, which powers HP’s Redstone ARM servers. A complete Calxeda server node requires only three components: the SoC, memory, and storage. Together, these can be combined into extremely dense Cloud servers. Density is important because the era of cheap single-core processor performance growth is over. While the 80s and 90s saw a 52% year-on-year growth in compute performance per core on average, we’ve since reached a limit and returned to a growth rate half of that. So, the future is multi-core, and at phenominal levels of scale. With such scale comes an opportunity to rethink the conventional server design. Not only can we integrate fabric technologies (and obviate the need for discrete networking components), but we can also redesign server systems at the rack-level to take advantages of the efficiencies of scale.

The use of ARM technology in these systems is key in another way. It brings a new level of energy efficiency to datacenter server designs, such as the Redstone. A fully loaded ARM-based Calxeda server node (including memory) draws only 5W of power. Contrast this with conventional server designs using hundreds of Watts across many discrete components, bringing significant overhead in the form of power generation, distribution, and HVAC requirements. Since the future datacenter is all about high density at scale, it will be important to design server systems with energy efficiency in mind. These systems will use less energy and so will require less energy. They will generate less heat, and will have a greatly reduced overhead in terms of the traditional infrastructure, which has been designed to run legacy servers drawing hundreds of Watts.

Low energy computing has interested me personally for a number of years. At first in the embedded space, where I have worked with devices requiring under 1W of power and running for days or weeks on batteries, but now increasingly in the enterprise server space. When we have server nodes that require only 5W of power, we open up whole new avenues of exploration – both in terms of technology, and in terms of fun! With this in mind, it seemed only natural to find a way to truly visualize the low energy aspect of these emerging hyperscale server systems. Solar power is certainly an option. It’s a well-known, tried-and-tested technology that many people are familiar with. But I wanted to find something more novel and unique, more directly connected with the user and audience. The idea was suggested: why not use a bicycle? Bicycle generators have been used to power all kinds of things over the years, but to my knowledge they’ve never been used to power servers.

With this in mind, I designed and built what I think is the world’s first bicycle powered hyperscale server rig. The rig was used during my HP Redstone Server demo at the 2012 Red Hat Summit. It consists of a bicycle, attached to a generator via a friction bearing, the output of which is fed into a repurposed solar-charging circuit. The bike generator easily produces up to several hundred Watts, which trickle charges a battery that powers the server. Some smoothing circuitry is also added to prevent damage to the server as the pedal power is applied and removed, and a fan is attached to divert any excess power produced (which happens frequently), cooling the rider down. Finally, a series of multi-meters and some custom software is used to graph the instantaneous power generated by the rig as the rider pedals away. Using this rig, I have successfully powered the HP Redstone server while generating up to 200W of power on an average bicycle. At 5W per server node, that’s a lot of ARM server nodes that can be powered by one bicycle!

We couldn’t have said it better ourselves! Check out the pictures from the demo below!

Update: Some people have asked us what was actually running on the server for the demo. Each of the four nodes was running Fedora 17 GA and a distributed Mandelbrot demo using OpenMPI across 32 cores (8 Calxeda EnergyCores). Subtle, but this was the first public demo of Fedora on ARM that we are aware of…all powered by a bicycle!

Calxeda demos live systems, starting in Vegas and Taipei today!

Starting today,  we will be showing a live Calxeda system at Computex in Taipei,  and at HP Discover in Las Vegas.  (The quest for the Calxeda Mileage Points Championship has begun!  Next week we head to HP CAST and then to International SuperComputing in Germany.) Each will be running a variety of SW,  demonstrating the SW infrastructure that runs about 80% of the world’s websites today, from LAMP to Ruby.  At HP, we will be showing their “Moonshot” website running on the HP Redstone system.

Why all the fuss about live systems?  Because there is so much anticipation in the marketplace to see what ARM can do in the data center.  (Or, as ARM would say, in the “Data Centre”.)   So, in case you are in the area,  here’s a summary of when and where we will be showing off our shiney new toys:

  1. Computex: Taipei, June 5-7
  2. HP Discover: Las Vegas, June 4-7
  3. HP CAST: Hamburg, Germany, June 15-17
  4. International SuperComputing: Hamburg, Germany,  June 18-21
  5. GigaOM Structure: San Francisco, June 20-21
  6. Redhat Summit and JBoss World, Boston, June 26-29

And that’s just the month of June!

And of course,  you can always visit us in Austin, Texas;  home of the 5 Watt Server!  Happy travels!