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Itanium 2 processors get faster architecture

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INTEL Corporation has introduced two Intel Itanium 2 processors which deliver better performance over the current generation for database, business intelligence, enterprise resource planning and technical computing applications.

Itanium 2 processors have a 667MHz front side bus (FSB), which connects and transfers data between the microprocessor, chipset and system’s main memory.

Servers designed to utilise the new bus are expected to deliver more than 65 per cent greater system bandwidth over servers designed with current Itanium 2 processors with a 400MHz FSB. This new capability will help set the stage for the forthcoming dual-core Itanium processor, codenamed “Montecito,” which will feature the same bus architecture.

Itanium-based servers continue to make strides in three target market segments: RISC replacement, mainframe migration and high-performance computing. Today, more than 40 per cent of the Global 100 corporations have deployed Itanium-based servers and 79 of the TOP500 list of the world’s fastest super computers are powered by Itanium processors.

The ecosystem continues to grow with more than 3600 applications available, while eight of nine RISC vendors and six of seven mainframe vendors sell mainframe-class Itanium-based servers.

The improved front side bus bandwidth allows for 10.6 gigabits of data per second to pass from the processor to other system components. In contrast, the current generation 400 MHz FSB transfers 6.4 gigabits of data per second.

The ability to move more data in a very short period of time is critical to compute intensive applications in the scientific, oil and gas and government industries.

Hitachi, which will adopt the new Itanium 2 processors with the 667 FSB into new Hitachi BladeSymphony servers, has also designed a chipset (the communications controller between the processor and the rest of the computer system) to take advantage of the new bus architecture.

Platforms using Montecito are expected to deliver up to twice the performance, up to three times the system bandwidth, and more than 2 1/2 times as much on-die cache as the current generation of Itanium processors.

While boosting performance, Montecito is expected to also deliver more than 20 per cent lower power than previous generations of Itanium processors due to new technologies for power management. Montecito will also have Intel hyper-threading technology, enabling four times the threads as the current generation.

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