A host of OEMs are lining up to offer servers running on Intels latest processor, the dual-core Xeon MP 7100 series for systems running four or more chips.
Dell, Hewlett-Packard and IBM highlight the list of server makers looking to take advantage of the massive 16MB Level 3 cache and other features rolling out Aug. 29 in the processor, formerly code-named "Tulsa."
The series is the latest in a slew of new chips introduced by Intel over the past few months as it works to slow the momentum gained by rival Advanced Micro Devices and its Opteron processor.
Tulsa takes aim at the high-end of the x86 space, a segment that has been especially kind to Opteron. Intel officials say the new processor not only offers greater performance but also performance-per-watt than the current "Paxville" Xeon MP chip and AMDs technology, a key metric at a time when businesses are becoming more aware of rising power and cooling costs in their data centers.
"The performance and performance-per-watt improvements [in the 7100 series] are key and continue our drive to lead the industry in those categories," said Jay Parker, director of PowerEdge servers for Dell.
Not all industry observers are sold on the chip, but there is enough promise to entice users to take a look.
Jevin Jensen, director of IS at Mohawk Industries, in Dalton, Ga., said he wants to do a side-by-side comparison between a Tulsa-based server and one running AMDs newest "Rev F" Opterons. Of particular interest is how the chips—which both offer hardware-based virtualization technology—perform with VMware virtualization software.
"I have contacted both vendors about getting four-way demo units of each," Jensen said. "On paper, it appears AMD may still have a slight advantage, especially since Tulsa is based on the old NetBurst architecture, but I will let our real-world tests decide the outcome."
Intel is phasing out its NetBurst architecture in favor of its new Core platform, which not only offers better performance but is more energy-efficient. Tulsa is the last of the NetBurst chips that Intel will make.
Dell, of Round Rock, Texas, is putting the Tulsa chips into its four-socket PowerEdge 6800 and 6850 servers, which will be available immediately. Dell officials expect the new chips to give their systems a 123 percent performance boost, and a 129 percent jump in performance per watt.
HP, of Palo Alto, Calif., is putting the new chips into its four-socket ProLiant DL 580 G4 and ML 570 G4 servers, and will price them aggressively, starting at $5,799, said John Gromala, director of server marketing. Gromala said he expects to see a 62 percent performance increase because of the new Intel technology.
For its part, IBM, of Armonk, N.Y., next month will start shipping System x3850—with volume availability in late October—and System x3800 and x3950, with first customer shipments in October. System x3800 and x3850 will also include an updated I/O subsystem supporting both PCI-X 2.0 and PCI Express slots.
Fujitsu Computer Systems, of Sunnyvale, Calif., is putting the chip into its four-socket Primergy RX600 S3 rack-mounted and the TX600 S3 tower systems.
Unisys and Supermicro Computer also will offer systems with the Tulsa chips. Supermicro, of San Jose, Calif., is shipping the ultra-dense 1U (1.75-inch) SuperServers 8014T-8 and 8014T-I and the 4U (7-inch) SuperServer 8044T-8R servers. Unisys in the fourth quarter will roll out the chips in its ES7000/one systems, which can run both Xeon and Itanium processors from Intel.
In all, Intel expects more than 40 systems makers to roll out servers with the 7100 series chips.
Mark Feverston, director of enterprise server marketing for Unisys, of Blue Bell, Pa., pointed to the large Level 3 cache—second in size in Intels processor lineup only to the 24MB offered in the latest dual-core "Montecito" Itanium2 9000 series—as a key enhancement in the new chips.
"It allows us to really be able to provide significant scaling, which will allow us to do more work per server," Feverston said.
Tom Kilroy, vice president and general manager of Intels Digital Enterprise Group, said the Santa Clara, Calif., companys new 65-nanometer manufacturing technology is a key to enabling Intel to offer such a huge memory cache, which speeds the amount of time it takes the processor to retrieve data. Most chip makers are still using a 90-nm manufacturing process.
The large shared cache is further enhanced by Intels Cache Safe Technology, which isolates errors and writes them out to protect the rest of the cache from exposure. The technology also is offered in the Montecito chip.