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Line 14: The [[Jargon File]] defines ''server'' in the common sense of a process performing service for requests, usually remote,<ref>[http://www.catb.org/jargon/html/S/server.html server]</ref> with the 1981 version reading:<ref>{{Cite web\| title=JARGON.TXT recovered from Fall 1981 RSX-11 SIG tape by Tim Shoppa \| url=http://www.catb.org/jargon/oldversions/jarg110.txt \| archive-url=https://web.archive.org/web/20041021195648/http://www.catb.org:80/jargon/oldversions/jarg110.txt \| archive-date=2004-10-21}}</ref> {{quote \|SERVER n. A kind of [[Daemon (computing)\|DAEMON]] which performs a service for the requester, which often runs on a computer other than the one on which the server runs.}} The average utilization of a server in the early 2000s was 5 to 15%, but with the adoption of virtualization this figure started to increase ~~to reduce~~ the number of servers needed.<ref>{{cite web \| url=https://semiengineering.com/chip-aging-accelerates/ \| title=Chip Aging Accelerates \| date=14 February 2018 }}</ref> == Operation == Line 39: \|[[Catalog server]] \|Maintains an index or table of contents of information that can be found across a large distributed network, such as computers, users, files shared on file servers, and web apps. [[Directory server]]s and [[name server]]s are examples of catalog servers. \|Any computer program that needs to find something on the network, such as a [[Windows ___domain\|Domain member]] attempting to log in, an [[email client]] looking for an email address, or a user looking for a file \|- \|[[Communications server]] Line 138: * Automation capabilities such as [[Daemon (computer software)\|daemons]] in UNIX and [[Windows service\|services]] in Windows * Tight system security, with advanced user, resource, data, and memory protection. * Advanced detection and alerting on conditions such as overheating, processor and disk failure.<ref>{{cite web\|title=Server Oriented Operating System\|url=http://www.ingelec.uns.edu.ar/rts/soos/\|access-date=2010-05-25\|archive-url=http://web.archive.org/web/20110531174040/http://www.ingelec.uns.edu.ar/rts/soos/\|archive-date=31 May 2011}}</ref> In practice, today many desktop and server operating systems share similar [[code base]]s, differing mostly in configuration. == Energy consumption == In ~~2010~~2024, data centers (servers, cooling, and other electrical infrastructure) consumed 415 [[Kilowatt-hour\|terawatt-hours]] of electrical energy, and were responsible for roughly 1~~.1–1~~.5% of electrical energy consumption worldwide,<ref>{{Cite ~~and~~web ~~1.7–2.2%~~\|last=magazine in\|first=Sophia ~~the~~Chen, ~~United~~Nature ~~States.<ref>{{cite~~\|title=Data Centers Will Use Twice as Much Energy by 2030—Driven by ~~news~~AI \|url=https://www.~~nytimes~~scientificamerican.com/~~2011/08/01/technology~~article/ai-will-drive-doubling-of-data-~~centers~~center-~~using~~energy-~~less~~demand-~~power~~by-~~than~~2030/ \|access-~~forecast~~date=2025-~~report~~06-~~says.html?_r~~17 \|website=0Scientific American \|~~title~~language=~~Data~~en}}</ref> ~~Centers~~and ~~Using~~for ~~Less~~4.4% ~~Power~~in ~~Than~~the ~~Forecast,~~United ~~Report~~States.<ref>{{Cite ~~Says~~report \|~~date~~url=31https://escholarship.org/uc/item/32d6m0d1 ~~Jul~~\|title=2024 ~~2011~~United States Data Center Energy Usage Report \|~~newspaper~~last=~~[[NY~~Hamm ~~Times]]~~\|first=Geoff \|~~access-~~date=~~18 Jan 2013~~2025 \|~~first~~publisher=~~John~~Lawrence Berkely National Laboratory \|~~last~~doi=~~Markoff~~10.71468/p1wc7q}}</ref>~~{{Update inline\|date=November 2023}}~~ One estimate is that total energy consumption for information and communications technology saves more than 5 times its [[carbon footprint]]<ref>{{cite web \|url=http://www.smart2020.org/_assets/files/02_Smart2020Report.pdf \|archive-url=https://web.archive.org/web/20101122051650/http://www.smart2020.org/_assets/files/02_Smart2020Report.pdf \|archive-date=22 November 2010 \|title=SMART 2020: Enabling the low carbon economy in the information age \|date=6 Oct 2008 \|publisher=[[The Climate Group]] \|access-date=18 Jan 2013 }}</ref> in the rest of the economy by increasing efficiency. Global energy consumption is increasing due to the increasing demand of data and bandwidth. Global energy consumption is increasing due to the increasing demand of data and bandwidth. [[Natural Resources Defense Council]] (NRDC) states that data centers used 91 billion kilowatt hours (kWh) electrical energy in 2013 which accounts to 3% of global electricity usage.<ref>{{cite web \| url=https://lifelinedatacenters.com/data-center/reduce-data-center-carbon-footprints/ \| title=How to Reduce Data Center Carbon Footprints \| Lifeline Data Centers \| date=12 February 2015 }}</ref>{{Update inline\|date=November 2023}} [[Environmental groups]] have placed focus on the carbon emissions of data centers as it accounts to 200 million metric tons of [[carbon dioxide]] in a year.