With the greatest performance possible combined with the best temps possible ---- and when one goes out of the Window (usuallly temps)___that is OC finished.

Two other CPU's had v-rise instead of droop - E5-1680_V2 & E5 2667 V2 - But E5 2667 V2 needed more v-core than 1680 which was another surprise. The nearest equivalent of the Core i7-4960X in the enterprise lineup is the Xeon E5-1660 V2. In terms of my testing at AnandTech, the i7-4960X represents the standard enthusiast processor that blitzes our benchmarks, and thus an opportunity to test something potentially faster is always welcome. So after all this I just resulted to leaving the 1.250v although 1.240v did work. 1.230v did not boot even with LLC set to high. With this CPU the droop is pretty massive -which caused a blue screen on boot - OK, I've not set LLC so trying to cater for the droop with extra v-core.In a SMP server, all cpus will have to be connected to each other, for this SGI UV2000 with 32.768 cpus, you would need (n²) 540 million (half a billion) threads connecting each cpu.

This review tested two of the high end Intel E5-26xx processors – the 12-core 130W E5-2697 v2 and the 8-core 150W E5-2687W v2. The former is also the 12-core representative in the late 2013 Mac Pro, whereas the latter is the highest TDP processor that Intel makes in this segment. A few other CPUs share this honor, although they are part of the Ivy Bridge-EX E7-x8xx line. My goal was to find out where these two CPUs stand in what I consider ‘an enthusiast user’s scenario’, and as such we used the same benchmarks as in the AMD Kaveri launch article, involving gaming, compression, rendering, video conversion and 2D image to 3D modeling creation. Johan has dealt extensively on the enterprise server and high performance computing aspect of similar CPUs, and his deep dive into the functionality is worth a read if you have not already seen it. Well, it's best to have it in the test bench! so now I can see the max. multiplier in the BIOS is 27 but when it's all fired up x30 is applicable somehow. Types, maximum amount and channel quantity of RAM supported by Xeon E5-2697 v2 and Xeon E5-1620 v2. It'll be interesting to see what IBM does with their next generation of hardware as the GX bux is disappearing. The VRM's are hot and the DIMM slots near the I/O panel are HOT!!! - May try a spot fan to cool slightly but they'll still be hotThe only parameter not altered was the v-core on boot in "digi-plus power" control which might have helped but maybe not on this board. Processors that support 64-bit computing on Intel® architecture require an Intel 64 architecture-enabled BIOS. http://www.intel.com/content/www/th/th/architecture-and-technology/hyper-threading/hyper-threading-technology.html?wapkw=hyper+threading สำหรับข้อมูลเพิ่มเติมรวมถึงรายละเอียดว่ามีโปรเซสเซอร์ใดบ้างที่สนับสนุน Intel® HT Technology As pointed out numerous times before, that link is you cite is a decade old. SGI has moved into the SMP space with the Altix UV series. Continuing to use this link as relevant is plain disingenuous and deceptive. Dont you think that a 262.000 core server and 100s of TB of RAM sounds more like a cluster, than a single fat SMP server? And why do the UV line of servers focus on OpenMPI accerators? OpenMPI is never used in SMP workloads, only in HPC."