Sunday, January 24, 2016

Tent Data Center


In my previous blog i wrote about Microsoft Azure data center. It was a huge data center in terms of size, money and all other aspects. The topic for this blog came from professor William Slater's lecture 2 notes. There are many aspects one has to keep in mind while constructing a data center and one of them is cooling the servers or to maintain appropriate temperature so that servers can run efficiently. Two employee of Microsoft Christian Belady, principal power and cooling architect and Sean James, facility program manager went out of the box and showed that little water, uncontrolled temperature and even leaves sucked inside server fan may have no effects on server.



They setup a tent outside and ran 5 previously used but spare HP DL585 servers in the tent. There were few incidents that had unexpected outcomes.


  • Water came inside the tent and fall into racks but server continued to run.
  • Windstorm blew a section of the tent but still server continued to run.
  • A leaf was sucked onto server fascia and the servers still continued to run.
   
                                               
This approach has much lower PUE around 1.0(Power usage effectiveness) than compared to other data centers. After this experiment the question rises is this approach should be implemented in order to reduce cost related in constructing a data center. From the above outcomes the servers are quite rough and tough as they sustained water and wind. As the PUE was around 1.0 so data center should use outside air to cool the data center through economization process. Since cold environment will not be available throughout the year so the temperature range of servers should be enough so as need to provide mechanical cooling is minimum. Also according to Christian offline UPS technologies should be used. Most UPS are online, in that they rectify alternating current (AC) to battery-level direct current (DC) and then invert the battery-level DC to 120 or 240 volts AC) Although this process provides better power smoothing, the double conversion is inefficient. Offline UPSs eliminate this double conversion, thus providing greater UPS efficiency.
But before implementing this type of approach more experiment should be performed in order for more accurate outcomes. Intel Corp. conducted a test in which data center relied exclusively on outside air for cooling and installed no humidity controller and minimal air filters. They found that test environment had very similar failure as a traditional data center has and the changes could save $2.87 million annually for 10 MW data centers. Therefore such type of tests should be conducted frequently to come in a concrete conclusion.