About the Book
Please note that the content of this book primarily consists of articles available from Wikipedia or other free sources online. Pages: 90. Chapters: AiCache, Aloaha FAX Suite, Apache Avalon, Apcupsd, Application server, Authentication server, BDII, BitTorrent tracker, BluOnyx, Camping (computing), CardDAV, Cisco Unified Computing System, Client server model, Coadunation, CoDeeN, Colocation centre, Common Gateway Interface, Communications server, Comparison of CalDAV and CardDAV implementations, Compile farm, Connectify, Daemon (computing), Database server, Data center, Data furnace, DHCPD, Dynamo Application Server, Enhydra Server, Fax server, File server, Forking proxy, FTPmail, FTP servlet, GNUstepWeb, Gunicorn (HTTP server), Home server, Hypervisor, IBM LAN Server, Include vulnerability, IP Virtual Server, Kestrel (software), Koha (software), Linux Terminal Server Project, Liquid Computing, List of UPnP AV media servers and clients, Load balancing (computing), Logitech Media Server, Looking Glass servers, Managed dedicated server, MANOC, Media Object Server, Naming scheme, Network service, Network UPS Tools, Physicalization, Pixo Mobile Download Server, Print server, Private server, Pvserver, RedDwarf Server, Redundant Array of Inexpensive Servers, Remote Database Access, SafeSquid, Sambar Server, Sealed server, Secondary database server, Server-side, ServerNet, Server (computing), Server administrator, Server change number, Server farm, Server log, Server proxy, Server room, SnapStream, SnapStream TV monitoring software, Sound server, Squirrel (DHT), Standalone server, Stateless protocol, Sunsite, Super-server, TelecityGroup, Terminology server, Time Capsule (Apple), TNAPS Application Server, TwonkyMedia server, Ultravox (software), Universal Plug and Play, UOX, Uploading and downloading, Virtual private server, Web server, Windows Home Server, Workflow engine, WWW Interactive Multipurpose Server, X Font Server, YDecode, YProxy. Excerpt: A data center or computer centre (also datacenter) is a facility used to house computer systems and associated components, such as telecommunications and storage systems. It generally includes redundant or backup power supplies, redundant data communications connections, environmental controls (e.g., air conditioning, fire suppression) and security devices. Large data centers are industrial scale operations using as much electricity as a small town and sometimes are a significant source of air pollution in the form of diesel exhaust. Indiana University Data Center. Bloomington, IndianaData centers have their roots in the huge computer rooms of the early ages of the computing industry. Early computer systems were complex to operate and maintain, and required a special environment in which to operate. Many cables were necessary to connect all the components, and methods to accommodate and organize these were devised, such as standard racks to mount equipment, elevated floors, and cable trays (installed overhead or under the elevated floor). Also, a single mainframe required a great deal of power, and had to be cooled to avoid overheating. Security was important computers were expensive, and were often used for military purposes. Basic design guidelines for controlling access to the computer room were therefore devised. During the boom of the microcomputer industry, and especially during the 1980s, computers started to be deployed everywhere, in many cases with little or no care about operating requirements. However, as information technology (IT) operations started to grow in complexity, companies grew aware of the need to control IT resources. With the advent of client-server computing, during the 1990s, microcomputers (now called "servers") started to find their places in the old computer rooms. The availability of inexpensive networking equipment, coupled with new standards for network structured cabling, made it possible to use a hierarchical design that put the
