New scale-up server architecture will meld company's intel-based systems, legacy mainframes
Unisys is working on a new server architecture that will use virtualization and management software to unite its Intel-based and legacy mainframe platforms on the same systems.
The architecture, announced June 27 and planned for release later next year, will respond to what Unisys officials say is a growing trend toward more scale-up environmentswhere customers put more workloads on fewer, larger systemsrather than scale-out infrastructures, which are based on more and smaller servers.
"Scale-out has been running since 2001 or 2002," said Colin Lacey, vice president of Unisys Enterprise Server Group, in Blue Bell, Pa. "More recently, what were starting to seewith the real deployment of virtualization technologies in production environmentsare configurations that are starting to scale up again."
Unisys cites numbers from market research company IDC that project an 8.2 percent hike in the market for larger scale-up servers between 2007 and 2010.
To meet that expected demand, Unisys is leveraging partnerships with NEC and Intel to create an architecture where not only Microsofts Windows and Linux share workloads but also those platforms based on Unisys mainframe operating systems, OS2200 and MCP, can run simultaneously on a single system.
The initiative will help users save money through system consolidation and create a more flexible and dynamic computing infrastructure, Lacey said. It also will protect those customers that have invested millions of dollars over the years in Unisys mainframe ClearPath systems, he said.
Jean Bozman, an IDC analyst in San Mateo, Calif., said Unisys move to merge its Intel-based and legacy mainframe environmentsand manage them through the companys Sentinel softwaremakes sense. "By having this common platform, they can pull all these things together, which makes it very efficient," Bozman said.
Unisys collaboration with NEC in hardware development also is a smart move, Bozman said. It will enable both companies to pool their assets and get products to market faster.
"I see a lot of advantages in this collaboration," Bozman said. "In [R&D], theyd be getting more mileage out of the dollars they have to spend."
She said its part of a larger trend of hardware companies teaming up to leverage their R&D capabilities, such as IBM and chip maker Advanced Micro Devices, and Sun Microsystems and Fujitsu.
Unisys has been working toward this common platform for some time. In May, it released the ES7000/One, a system that can simultaneously run Xeon and Itanium chips from Intel.
Unisys expects the first systems within the new architecture to hit the market late next year. They will be based on Intels Xeon and Itanium processors, with Unisys phasing out the use of its custom CMOS chips.
Those systems will features Unisys homegrown hypervisor virtualization technology, which will enable the multiple operating environments to run on a single physical system. Currently, Windows and Linux can run on ClearPath systems but have to do so in separate partitions. With the new architecture, those operating systems will be able to run on the same system as OS2200 and MCP, with the system sharing workloads dynamically among all environments. Unisys Sentinel management software will enable dynamic allocation of workloads among the various compute resources based on policies put in place by the user, Lacey said.
Unisys Agile Business Suite software, which will be enhanced for the new architecture, will enable faster application development. The company announced the first step in this direction June 27 with integrated software tools for the ClearPath operating systems and .Net environments. More tools for J2EE (Java 2 Platform, Enterprise Edition) will roll out later this year, Lacey said.
The company also announced new ClearPath Dorado and Libra systems, proof that Unisys intends to continue investing in the mainframes, he said. The Dorado 380 and 390 and Libra 680 and 690 will give users a 40 percent performance increase as well as new provisioning capabilities, such as capacity on demand and pay per use. Capacity on demand enables users to add processing power as needed, while pay per use is a metering technology that allows customers to pay only for the power they use.