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Line 1: {{~~Unreferenced~~More references\|date=August 2007}} {{Computer architecture bit widths}} In [[computer architecture]], '''48-bit''' [[integer (computer science)\|integer]]s can represent 281,474,976,710,656 (2<sup>48</sup> or 2.814749767×10<sup>14</sup>) discrete values. This allows an [[Unsigned integer\|unsigned]] binary integer range of 0 through 281,474,976,710,655 (2<sup>48</sup> − 1) or a [[Signed number representations\|signed]] [[two's complement]] range of ~~-140~~−140,737,488,355,328 (-2−2<sup>47</sup>) through 140,737,488,355,327 (2<sup>47</sup> − 1). A 48-bit [[memory address]] can directly address every byte of 256 [[~~Terabyte\|terabytes~~terabyte]]s of storage. 48-bit can refer to any other [[Data (computing)\|data]] unit that consumes 48 [[bit]]s (6 [[octet (computing)\|octets]]) in width. Examples include 48-bit [[Central processing unit\|CPU]] and [[Arithmetic logic unit\|ALU]] [[computer architecture\|architecture]]s ~~are those~~ that are based on [[processor register\|register]]s, [[address bus]]es, or [[Bus (computing)\|data bus]]es of that size.▼ ~~{{short description\|discrete values integer in computer architecture}}~~ ▲In [[computer architecture]], '''48-bit''' [[integer (computer science)\|integer]]s can represent 281,474,976,710,656 (2<sup>48</sup> or 2.814749767×10<sup>14</sup>) discrete values. This allows an [[Unsigned integer\|unsigned]] binary integer range of 0 through 281,474,976,710,655 (2<sup>48</sup> − 1) or a [[Signed number representations\|signed]] [[two's complement]] range of -140,737,488,355,328 (-2<sup>47</sup>) through 140,737,488,355,327 (2<sup>47</sup> − 1). A 48-bit [[memory address]] can directly address every byte of 256 [[Terabyte\|terabytes]] of storage. 48-bit can refer to any other [[Data (computing)\|data]] unit that consumes 48 [[bit]]s (6 [[octet (computing)\|octets]]) in width. Examples include 48-bit [[Central processing unit\|CPU]] and [[Arithmetic logic unit\|ALU]] [[computer architecture\|architecture]]s are those that are based on [[processor register\|register]]s, [[address bus]]es, or [[Bus (computing)\|data bus]]es of that size. ==Word size== Computers with 48-bit [[Word (data type)\|words]] include the [[AN/FSQ-32]], [[Control Data Corporation\|CDC]] 1604/[[CDC 3000\|upper-3000 series]], [[~~BESM#BESM-6\|~~BESM-6]], [[Ferranti]] [[Atlas (computer)\|Atlas]], [[Philco]] [[Philco Transac S-2000\|TRANSAC S-2000]] and [[Burroughs large systems]].{{efn\|The B5000, B5500 and B5700 took 3 bits in control words and numeric data for use as a tag; alphanumeric data and instruction syllables were stored in the full 48 bits and had no tags.}}{{efn\|The B5900-B8xxx additionally had a 3- or 4-bit type tag.}} The Honeywell [[DATAmatic 1000]], [[Honeywell 800\|H-800]], the [[MANIAC II]], the [[MANIAC III]], the [[Brookhaven National Laboratory]] Merlin,<ref> [http://ed-thelen.org/comp-hist/BRL61-m.html#MERLIN "MERLIN"]. </ref> the [[Philco computers#CXPQ\|Philco CXPQ]], the [[Ferranti Orion]], the [[Telefunken Rechner TR 440]], the [[ICT 1301]], and many other early transistor-based and vacuum tube computers<ref> [https://retrocomputingforum.com/t/in-search-of-48-bit-computers/898 "In search of 48 bit computers"]. </ref> used 48-bit words. ==Addressing== Line 22 ⟶ 37: ==Notes== {{Notelist}} ==References== {{Reflist}} {{CPU technologies}}