There comes a point where you cant physically transfer the energy using air any more - not less you wana break the laws a physics captin (couldn't resist sorry) - to your DX system, gas, then water, then in rack (expensive) cooling, water and CO2. Sooner or later we will sink the hole room in oil, much like they use to do with Cray's. Alternatively we might need to fit the engineers with crampons, climbing ropes and ice axes to stop them being blown over by the 70 mph winds in your datacenter as we try to shift the volumes of area necessary to transfer the energy back to the HVAC for heat pump exchange to remote chillers on the roof. In my humble experience, the problems are 1> Heat, 2> Backup UPS, 3> Backup Generators, 4> LV/HV Supply to building. While you will be very constrained by 4 in terms of upgrades unless spending a lot of money to upgrade - the practicalities of 1,2&3 mean that you will have spent a significant amount of money getting to the point where you need to worry about 4. Given you are not worried about 1, I wonder about the scale of the application or your comprehension of the problem. The bigger trick is planning for upgrades of a live site where you need to increase Air con, UPS and Generators. Economically, that 10,000KW of electricity has to be paid for in addition to any charge for the rack space. Plus margined, credit risked and cash flowed. The relative charge for the electricity consumption - which has less about our ability to deliver and cool it in a single rack versus the cost of having four racks in a 2,500KW datacenter and paying for the same amount of electric. Is the racking charge really the significant expense any more. For the sake of argument, 4 racks at £2500 pa in a 2500KW datacenter or 1 rack at £10,000 pa in a 10000KW datacenter - which would you rather have? Is the cost of delivering (and cooling) 10000KW to a rack more or less than 400% of the cost of delivering 2500KW per rack. I submit that it is more that 400%. What about the hardware - per mip / cpu horse power am I paying more or less in a conventional 1U pizza box format or a high density blade format - I submit the blades cost more in Capex and there is no opex saving. What is the point having a high density server solution if I can only half fill the rack. I think the problem is people (customers) on the whole don't understand the problem and they can grasp the concept of paying for physical space, but cant wrap their heads around the more abstract concept of electricity consumed by what you put in the space and paying for that to come up with a TCO for comparisons. So they simply see the entire hosting bill and conslude they have to stuff as many processors as possible into the rack space and if that is a problem is is one for the colo facility to deliver at the same price. I do find myself increasingly feeling that the current market direction is simply stupid and had far to much input from sales and marketing people. Let alone the question of is the customers business efficient in terms of the amount of CPU compute power required for their business to generate 1$ of customer sales/revenue. Just because some colo customers have cr*ppy business models delivering marginal benefit for very high computer overheads and an inability to pay for things in a manner that reflects their worth because they are incapable of extracting the value from them. Do we really have to drag the entire industry down to the lowest common denominator of f*ckwit. Surly we should be asking exactly is driving the demand for high density computing and in which market sectors and is this actually the best technical solution to solve them problem. I don't care if IBM, HP etc etc want to keep selling new shiny boxes each year because they are telling us we need them - do we really? ...? Kind Regards Ben -----Original Message----- From: owner-nanog@merit.edu [mailto:owner-nanog@merit.edu] On Behalf Of Valdis.Kletnieks@vt.edu Sent: 23 March 2008 02:34 To: Patrick Giagnocavo Cc: nanog@nanog.org Subject: Re: rack power question