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--- cluster:112 [2013/10/02 11:37]
hmeij [Dell April-2013]
+++ cluster:112 [2013/10/08 15:04] (current)
hmeij [Quotes Oct-2013]
@@ Line 155: / Line 155: @@
   * What is that in 2013 dollars (with cogen online in Pine Street)?
-Meeting with Peter 01Oct13 Summary
+We have measured 19 nodes power consumption (pulling one unit out) with a Kill-A-Watt meter over 775+ hours to arrive at a mean consumption rate of 418.4 watts. That totals to 109,956 KwH/year in power consumption ((watts/1000 Kw per hour) * 24 hours * 365 days * 30 servers), which is a low water mark as the racks in question also contain switches, two UPS units, and a disk array. (Note: Peter did a side calculation using  the 4 watt measurement on panel directly and came up with 126,000 KwH/year which can be considered the high water mark estimate).
-We have measured 19 nodes power consumption (pulling one unit out) with a Kill-A-Watt meter over 775+ hours to arrive at a mean consumption rate of 418.4 watts. That totals to 109,956 KwH/year in power consumption, which is a low water mark as the racks in question also contains switches, two UPS units, and a disk array. (Note: Peter did a side calculation using using the 4 watt measurement on panel and came up with 126,000 KwH/year which can be considered the high water mark estimate).
-Based on 12.5 cents per Kwh (this is an all inclusive cost including natural gas cost, heat recoup costs, distribution, maintenance etc) the hardware burns away $13,744.50 per year. Best guess is cooling costs are at least that (another possible low water mark) so the total cost for all power consumption is $27,489 per year.  If we run the hardware for another 3 years that total cost is $82,467.
-If we could replace, or approximate, the 30 compute nodes' computational power (0.6 teraflops) and job slots (240) with new hardware that consumes 50% less in power, our ROI is 6 years.
+Based on 12.5 cents per Kwh (this is an all inclusive cost including natural gas cost, heat recoup costs, distribution, maintenance etc) the hardware burns away $13,744.50 per year. Best guess is cooling costs are at least that (another possible low water mark) so the total cost for all power consumption is $27,489 per year. If we run the hardware for another 3 years that total cost is $82,467.
+If we could replace, or approximate, the 30 compute nodes' computational power (0.6 teraflops) and job slots (240 cores) with new hardware that consumes 50% less in power, our ROI is 6 years based on the low water mark numbers. When using the high water mark the ROI is 5 years.
+====== Quotes Oct-2013 ======
+For $82K one could get CPU-HPC wise ...
+  *[[http://download.intel.com/support/processors/xeon/sb/xeon_E5-2600.pdf|Intel Xeon Metrics]]
+    * E5-2650v2 "ivy" 128 gflops
+    * E5-2680v2 172.8 gflops
+^vendor^Tnodes^chip^ghz^cache^cores^Tcores^disk^ram^ram/core^Tram^pdu^eswitch^warr^watt^cost^gflops^
+|dell|30|X5355|2.66|4mb|8|240|80gb|4-16gb|0.5-2gb|340|Y|Y|N|12,552|na|670|
+|micro|14|2650v2|2.60|20mb|16|224|1tb|128gb|8gb|1,792gb|Y|Y|2|5,400|$77K|4,659|
+|advcl|10|2680v2|2.80|25mb|20|200|60gb|256gb|12.8gb|2,560gb|Y|Y|3|4,597|$84K|4,480|
+|exxct|12|2660v2|2.20|25mb|20|240|1tb|128gb|6.4gb|1,536gb|N|N|?|4,860|$60K|4,224|
+|hp| | | | | | | | | | | | | | | |

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