IBM X3400 M2 specifications DDR-3 Registered Memory with Chipkill ECC Protection, Qpi

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Turbo Boost Technology dynamically turns off unused processor cores and increases the clock speed of the cores in use, by up to two model frequencies. For example, with three cores active, a 2.26GHz processor can run the cores at 2.4GHz. With only one or two cores active, the same processor can run those cores at 2.53GHz. Similarly, a 2.93GHz processor can run at 3.06GHz or even 3.33GHz. When the cores are needed again, they are dynamically turned back on and the processor frequency is adjusted accordingly.

Intelligent Power Capability powers individual processor elements on and off as needed, to reduce power draw.

Execute Disable Bit functionality can help prevent certain classes of malicious buffer overflow attacks when combined with a supporting operating system.

DDR-3 Registered Memory with Chipkill ECC Protection

The x3400 M2 ships with registered double data rate III (DDR-3) memory and provides Active Memory features, including advanced Chipkill memory protection (optionally), for up to 16X better error correction than standard ECC memory. In addition to offering better performance than DDR-2 or fully-buffered memory, DDR-3 memory also uses less energy. DDR-2 memory already offered up to 37% lower energy use than fully buffered memory. Now, a generation later, DDR-3 memory is even more efficient, using 22% less energy than DDR-2 memory.

The x3400 M2 supports up to 96GB of memory in twelve DIMM slots. Redesign in the architecture of the Xeon 5500 series processors bring radical changes in the way memory works in these servers. For example, the Xeon 5500 series processor integrates the memory controller inside the processor, resulting in two memory controllers in a 2-socket system. Each memory controller has three memory channels. Depending on the type of memory, population of memory, and processor model, the memory may be clocked at 1066MHz or 800MHz.

1-12: DIMM population sequence; D1-D12: DIMM slot assignments

Note: If only one processor is installed, only the first six DIMM slots can be used. Adding a second processor not only doubles the amount of memory available for use, but also doubles the number of memory controllers, thus doubling the system memory bandwidth. If you add a second processor, but no additional memory for the second processor, the second processor has to access the memory from the first processor “remotely,” resulting in longer latencies and lower performance. The latency to access remote memory is almost 75% higher than local memory access. So, the goal should be to always populate both processors with memory.

The E552x-and-up models support up to 1066MHz clock speed, and the E550x models support 800MHz clock speed. Using 1066MHz memory (where supported) versus 800MHz offers up to 28% better performance.

Xeon 5550 series processors access memory with almost 50% lower latency than the previous generation 5400 series processors. That can result in faster processing of latency-sensitive workloads.

This new processor design comes with some trade-offs in memory capacity, performance, and cost: For example, greater memory capacity comes with lower memory speed. Alternatively, it is possible to achieve the same memory capacity at lower cost but at a lower memory speed.

Regardless of memory speed, the Xeon 5500 platform represents a significant improvement in memory bandwidth over the previous Xeon 5400 platform. This improvement is mainly due to the dual integrated memory controllers and faster DDR-3 memory. Throughput at 800MHz is 25 gigabytes per second (GBps), and at 1066MHz it’s 32GBps. This improvement translates into improved application performance and scalability.

Memory interleaving refers to how physical memory is interleaved across the physical DIMMs. A balanced system provides the best interleaving. A Xeon 5500 processor-based system is balanced when all

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