Friday, November 9, 2012

Intel Itanium processor 9500 delivers breakthrough capabilities for mission-critical computing


USA: In an era of unprecedented growth in data usage, businesses require powerful computing solutions that can deliver scalable and resilient performance to run IT’s most mission-critical applications. The new Intel Itanium processor 9500 series is more than twice as powerful as the previous generation, making it ideal for today’s most demanding workloads, including business analytics, database, and large-scale enterprise resource planning (ERP) applications.

Systems based on Intel’s Itanium processors run in more than three-quarters of the World’s Global 100 companies across industries such as aerospace, energy, life sciences and telecommunications. With the Intel Itanium processor 9500 series, these industries will benefit from a leap in performance and an increase in world-class reliability, availability and serviceability (RAS) capabilities.

“In a world where businesses are increasingly dependent on IT for their competitive advantage, more and more business applications are rightfully called ‘mission critical’; they must be always available, highly responsive and extremely reliable. It’s for precisely these computing workloads that we’ve developed the Intel Itanium 9500 processor,” said Diane Bryant, VP and GM of Intel’s Datacenter and Connected Systems Group.

“Built on a new microarchitecture and providing breakthrough performance, the Intel Itanium 9500 processor family signals Intel’s ongoing commitment to deliver unparalleled reliability, availability and scalability to meet the critical application demands across all industries.”

Containing 3.1 billion transistors, the Intel Itanium processor 9500 series is Intel’s most sophisticated general purpose processors to date. It supports up to twice as many cores (8 instead of 4) than the previous-generation processor, packs up to 54 MB of on-die memory, and enables up to 2 TB of low voltage DIMMs in a four-socket configuration. The speed of the processor increased 40 percent over the previous generation in lower power configurations. The new frequencies range from 1.73 GHz and a power level of 130 watts, to 2.53 GHz at a power level of 170 watts.

Delivering the highest levels of Intel Itanium performance, the new processors enable highly scalable deployments with world-class availability for data-intensive applications where downtime is not an option. These include ERP, supply chain management and customer relationship management (CRM) software.

In 2010, Intel introduced its common platform strategy that allows Intel Itanium and Intel Xeon processors to utilize common platform ingredients including chipsets, interconnects and memory. This strategy gives Intel the ability to cascade the strength of Intel Itanium RAS features to benefit the Intel Xeon processor E7 family, and allows Intel Itanium to further extract the efficiencies and value of higher volume economics.

For the next-generation Intel Itanium product family, code-named “Kittson,” Intel will employ an innovative model for Intel Itanium and Intel Xeon development called “Modular Development Model.” The model will extend the common platform strategy by sharing silicon-level design elements and socket compatibility. The result for Intel is an even more sustainable path to bring future Itanium processors to market. In addition, OEMs will be able to develop one single motherboard platform for both architectures.

Intel Itanium processors continue to maintain strong industry support among systems makers such as Bull, Hitachi, HP, Inspur and NEC. Enterprise applications are widely available from multiple vendors, such as, Oracle, SAP, SAS, Sybase and Temenos, among other vendors that underscore the ISV community’s efforts to ensure the success of the Intel Itanium mission-critical ecosystem.

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