HP unveiled the HP Moonshot system, delivering new infrastructure economics by using up to 89 percent less energy, 80 percent less space and costing 77 percent less, compared to traditional servers.
“With nearly 10 billion devices connected to the internet and predictions for exponential growth, we’ve reached a point where the space, power and cost demands of traditional technology are no longer sustainable,” said Meg Whitman, president and chief executive officer, HP. “HP Moonshot marks the beginning of a new style of IT that will change the infrastructure economics and lay the foundation for the next 20 billion devices.”
The HP Moonshot system consists of the HP Moonshot 1500 enclosure and application-optimized HP ProLiant Moonshot servers. These servers will offer processors from multiple HP partners, each targeting a specific workload.
With support for up to 1,800 servers per rack, HP Moonshot servers occupy one-eighth of the space required by traditional servers. This offers a compelling solution to the problem of physical data center space. Each chassis shares traditional components including the fabric, HP Integrated Lights-Out (iLo) management, power supply and cooling fans. These shared components reduce complexity as well as add to the reduction in energy use and space.
The first HP ProLiant Moonshot server is available with the Intel Atom S1200 processor and supports web-hosting workloads. HP Moonshot 1500, a 4.3u server enclosure, is fully equipped with 45 Intel-based servers, one network switch and supporting components.
HP also announced a comprehensive roadmap of workload-optimized HP ProLiant Moonshot servers incorporating processors from a broad ecosystem of HP partners including AMD, AppliedMicro, Calxeda, Intel and Texas Instruments.
Scheduled to be released in the second half of 2013, the new HP ProLiant Moonshot servers will support emerging web, cloud and massive scale environments, as well as analytics and telecommunications. Future servers will be delivered for big data, high-performance computing, gaming, financial services, genomics, facial recognition, video analysis and other applications.
“Faced with constraints for energy efficiency and analytic compute capacity to support world-leading geosciences research, we absolutely require technological innovations from leading companies like HP,” said Chris Hill, principal research engineer, MIT. “Innovations such as HP Moonshot are providing us with confidence that infrastructure can continue to scale out to support fundamentally insatiable requirements—all with less energy, a smaller footprint, increased integration and lower cost.