Dell Joins The ARMs Race, Announces ARM-Based ‘Copper’ Server
Earlier this week Dell joined arch-competitor HP in endorsing ARM as a potential platform for scale-out workloads by announcing “Copper,” an ARM-based version of its PowerEdge-C dense server product line. Dell’s announcement and positioning, while a little less high-profile than HP’s February announcement, is intended to serve the same purpose — to enable an ARM ecosystem by providing a platform for exploring ARM workloads and to gain a visible presence in the event that it begins to take off.
Dell’s platform is based on a four-core Marvell ARM V7 SOC implementation, which it claims is somewhat higher performance than the Calxeda part, although drawing more power, at 15W per node (including RAM and local disk). The server uses the PowerEdge-C form factor of 12 vertically mounted server modules in a 3U enclosure, each with four server nodes on them for a total of 48 servers/192 cores in a 3U enclosure. In a departure from other PowerEdge-C products, the Copper server has integrated L2 network connectivity spanning all servers, so that the unit will be able to serve as a low-cost test bed for clustered applications without external switches.
Dell is offering this server to selected customers, not as a GA product, along with open source versions of the LAMP stack, Crowbar, and Hadoop. Currently Cannonical is supplying Ubuntu for ARM servers, and Dell is actively working with other partners. Dell expects to see OpenStack available for demos in May, and there is an active Fedora project underway as well.
As one of the leading participants in the hyper-scale market, Dell is making a pragmatic move to shadow HP’s efforts, and the cumulative impact of the two largest x86 server vendors cannot but help accelerate the development of the ARM ecosystem, which is currently in a very immature state, and move it more quickly to deliver production-ready platforms and solutions. With multiple system vendors and multiple silicon suppliers, the stage is set for a period of rapid characterization of ARM performance characteristics and product development.
So what will it take to make you consider and ARM server in your environment?