378:
17:
289:, Norway: Typographical workstation / typesetter; one of its four processors was a 16-bit microcoded calculation and transformation engine built from four 2901 slices and one 2910 address sequencer. The Sim-X machine used a 16-bit integer multiplier to optimize graphical transformations. The machine debuted in 1983 and the company shut down in 1987.
51:
technique, the Am2900 family was able to implement a CCU with data, addresses, and instructions to be any multiple of 4 bits by multiplying the number of ICs. One major problem with this modular technique was that it required a larger number of ICs to implement what could be done on a single CPU
72:
by an unusually large number of other manufacturers, starting with
Motorola and then Raytheon – both in 1975 – and also Cypress Semiconductor, National Semiconductor, NEC, Thomson, and Signetics. In the Soviet Union and later Russia the Am2900 family was manufactured
320:
2000, 6000, 8000, and 9000 were all based on 4 x Am2901 chips. The GEAC 9500 was based on the Am29101. The GEAC 2000 was used in pharmacies. The other models were used in library, banking, and insurance automation. The 2000 was a single processor unit. The 6000 and 8000 contained four processors,
64:
operations. The Am2909 was a 4-bit-slice address sequencer that could generate 4-bit addresses on a single chip, and by using n of them, it was able to generate 4n-bit addresses. It had a stack that could store a microprogram counter up to 4 nest levels, as well as a stack pointer.
121:
Attitude and
Articulation Control Computer System and some Navy aircraft had a 16-register, 16-bit word width assembled from 4-bit-wide 2900 series processors. Four special instructions were added to the Galileo version of the ATAC, and later some chips were replaced with
292:
Eventide H949 Harmonizer; four Am2901 chips (and several microcode PROMs) are used to generate addresses and generate reference voltages for the DAC system – audio was not processed in the 2901 ALU
177:
minicomputers: 4060, 4150, 4160 (four Am2901 each, 16-bit ALU), and 4090 and all 418x and 419x systems (eighteen Am2901 each, 32-bit integer ALU or 8-bit exponent, 64-bit Double
Precision floating point
361:
Amperif
Systems Cache Controllers for Sperry+Univac 1100 & 2200 series and IBM 370 series mainframes used the AMD 2900 products to create the microcontroller for these cache subsystems.
321:
each dedicated to one of comms, disk, tape, or program processing. The 8000 had local processor memory whereas the 6000 did not. The 9000 and 9500 were AMP systems with up to 8 CPU modules.
327:
C20 Multiuser Word
Processors. AES of Montreal designed a series of modules and systems based on their AES-800 bit-slice processors. 8- 12- and 16-bit buses were part of the design.
314:
Metheus / Barco Omega 400 and 500 Series graphics systems; four Am2901 chips (and eight microcode PROMs) were used to perform graphics operations on this 1982 display processor.
358:(later just Centurion), a Texas based company from the late 1970s to the 1980s. The Am2909 and Am2911 microprogram sequencers and the Am2901 ALU were used in the CPU6 variant.
1453:
1431:
1706:
1486:
1143:
2057:
1593:
604:
587:
1194:
1008:
114:
74:
1394:
Downing, J. Philip; Ghest, R.C.; Holbrook, Anthony B.; McConnell, Robert; Mick, John R.; Simonsen, Sven; Springer, John (11 February 2009).
345:
334:
e.g. the 700F and 700G, used Am2901 devices, as did as some of the A700 peripheral channel controllers for e.g. hard and floppy disc drives
924:
1613:
1598:
1459:
1384:
1210:
1153:
1096:
1061:
643:
1112:
1544:
1539:
1534:
1529:
762:
1689:
1395:
1371:
60:
slices, and was the "core" of the series. It could count using 4 bits and implement binary operations as well as various
1684:
1581:
1571:
898:
831:
217:, Soviet clone of PDP-11, used Soviet clone of Am2901 (4 ICs in the CPU and 16 ICs in the FPU) perhaps also used in others.
1694:
1679:
1576:
1551:
1524:
933:
301:
135:
132:
4, which obtained 16-bit word width using four Am2901 ALUs in parallel. The floating point board has 15 Am2901 ALUs on it.
729:
2117:
1566:
1561:
1479:
244:
2069:
1586:
609:
355:
250:
36:
1039:
1769:
1761:
805:
981:
1556:
1519:
1514:
317:
276:, the first commercial game featuring filled polygons, included a math processor built around four Am2901 chips.
43:
topology, and were designed to be used as modular components each representing a different aspect of a computer
2122:
1774:
1786:
1701:
1472:
1403:
1509:
1495:
1235:
599:
32:
880:
401:
390:
272:
53:
1337:
1185:
351:
324:
1603:
1293:
541:
530:
463:
279:
256:
118:
1004:
511:
308:
861:
1258:
1216:
444:
394:
123:
57:
28:
2074:
1954:
1380:
1206:
1149:
1092:
947:
639:
537:
408:
221:
129:
1973:
1888:
1865:
1819:
1626:
1250:
1198:
563:
78:
1425:
Introduction to
Designing with the Am2900 Family of Microprogramable Bipolar Devices Vol 2
1424:
1419:
Introduction to
Designing with the Am2900 Family of Microprogramable Bipolar Devices Vol 1
1418:
267:
174:
152:
100:
1065:
1254:
1120:
498:
479:
331:
239:
207:
200:
193:
104:
809:
2111:
1310:
229:
225:
69:
103:
Tern family: DN460, DN660 and DSP160. All used the same system board emulating the
1987:
1838:
1262:
1220:
504:
167:
44:
902:
839:
684:
95:
There are probably many more, but here are some known machines using these parts:
2064:
1959:
776:
614:
583:
492:
485:
473:
365:
263:
235:
189:
48:
40:
1202:
685:"Soviet microprocessors, microcontrollers, FPU chips and their western analogs"
2047:
2009:
2004:
1927:
737:
420:
163:
707:
2014:
1992:
1982:
1942:
1937:
368:
utilized Am2900 devices in the ALU of their 3200 series supermini computers.
338:
61:
377:
1922:
1031:
1170:
254:
both used four Am2901 ICs in their "math box" auxiliary circuit boards.
83:
16:
2031:
2026:
1999:
1794:
1726:
1671:
973:
297:
214:
156:
1447:
1276:
659:
2021:
1969:
1932:
1917:
1912:
1907:
1828:
1815:
1666:
1661:
1645:
1640:
1635:
1315:
182:
146:
139:
142:
models PDP-11/34 FP11-A and PDP-11/44 FP11-F floating-point options.
1711:
710:[Nomenclature of domestic integrated circuits] (in Russian)
1949:
1902:
1897:
1884:
1874:
1833:
1742:
1736:
1731:
1721:
1716:
1622:
1407:(Interview). Interviewed by David Laws. Mountain View, California.
376:
15:
1464:
1119:. Russian Supercomputer Software Department. 1998. Archived from
1843:
784:
736:(in Russian). Voronezh: OAO "VZPP-S". p. 20. Archived from
286:
111:
1468:
1460:
1113:"Part VII: Advanced Micro Devices Am2901, a few bits at a time"
1440:
569:
Am2960 – Cascadable 16-bit Error
Detection and Correction Unit
304:
used for industrial control were built using the 2900 series.
1234:
Rolund, M. W.; Beckett, J. T.; Harms, D. A. (January 1983).
1338:"The Am2900 Family Data Book with Related Support Circuits"
901:. University of Sydney School of Psychology. Archived from
572:
Am2961/Am2962 – 4-bit Error
Correction Multiple Bus Buffers
550:
Am2948/Am2949 – Octal 3-State Bidirectional Bus Transceiver
547:
Am2946/Am2947 – Octal 3-State Bidirectional Bus Transceiver
763:"apollo :: brochures :: DN440 460 Brochure 1983"
159:
model A600 used four Am2901 ALUs for its 16-bit processor
926:
VAX-11/730 Central Processing Unit Technical Description
1456: – an introduction to the Am2900 family
886:. DEC. November 1979. p. 5-4. EK-FP11F-TM-002.
1195:
1983 IEEE 6th Symposium on Computer Arithmetic (ARITH)
948:"A New Series of High-Performance Real-Time Computers"
348:
to execute a subset of the IBM 360/370 instructions.
2040:
1968:
1883:
1863:
1856:
1814:
1807:
1785:
1754:
1654:
1621:
1612:
1502:
1396:"AMD 2900 Microprocessor Family Oral History Panel"
881:"FP11-F Floating-point Processor Technical Manual"
869:. DEC. May 1978. p. 7-1. EK-FP11A-TM-002.
781:Distributed Computing On Board Voyager and Galileo
806:"Data General NOVA4/X recovered from Bakersfield"
68:The 2901 and some other chips in the family were
1294:"Microprocessors in Physics Experiments at SLAC"
1187:An IEEE floating point arithmetic implementation
1089:Справочник по электронной вычислительной технике
863:FP11-A Floating-point Processor Technical Manual
341:, a user-microcodable minicomputer running Unix.
777:"Computers in Spaceflight: The NASA Experience"
87:) which was known to be in production in 2016.
1030:Klaus Michael Indlekofer (November 11, 2002).
344:The 168/E, developed in the late 1970s at the
1480:
1117:Great Microprocessors of the Past and Present
553:Am2950/Am2951 – 8-bit Bidirectional I/O Ports
162:The Xerox Dandelion, the machine used in the
8:
1450: – photos of 2900 Family ICs
517:Am2927/Am2928 – Quad 3-State Bus Transceiver
469:Am2919 – Instruction Register, Quad Register
1091:(in Russian). Машиностроение. p. 124.
578:Am2965/Am2966 – Octal Dynamic Memory Driver
282:, 4 Channel Processors each with 4 Am2900's
1860:
1811:
1618:
1487:
1473:
1465:
1311:"Welcome to the Centurion Computer wiki!"
520:Am2929 – Schottky 3-State Quad Bus Driver
73:as the 1804 series (with e.g. the Am2901
1087:Семененко, В.А.; Ступин, Ю.В. (1993).
706:Козак, Виктор Романович (24 May 2014).
626:
605:List of AMD Am2900 and Am29000 families
192:P-machine processor designed at NCR by
91:Computers made with Am2900-family chips
1454:Bit-Slice Design: Controllers and ALUs
708:"Номенклатура отечественных микросхем"
636:Computer Architecture and Organization
450:Am2914 – Priority Interrupt Controller
437:Am2911 – 4-bit-slice address sequencer
431:Am2909 – 4-bit-slice address sequencer
413:Am2904 – Status and Shift Control Unit
149:, which used eight Am2901s in the CPU.
936:. 1982. p. 1-4. EK-KA730-TO-001.
660:"AMD 2901 bit-slice processor family"
459:Am2917 – Quad 3-State Bus Transceiver
456:Am2916 – Quad 3-State Bus Transceiver
453:Am2915 – Quad 3-State Bus Transceiver
366:PerkinElmer Computer Systems Division
115:Advanced Technology Airborne Computer
7:
526:Am2932 – Main Memory Program Control
523:Am2930 – Main Memory Program Control
428:Am2908 – Bus Transceiver with Parity
425:Am2907 – Bus Transceiver with Parity
346:SLAC National Accelerator Laboratory
2097:indicates an upcoming architecture.
1277:"Orion A High Performance Computer"
385:The Am2900 Family Data Book lists:
1255:10.1002/j.1538-7305.1983.tb04390.x
808:. January 17, 2005. Archived from
575:Am2964 – Dynamic Memory Controller
35:(AMD). They were constructed with
14:
1370:Mick, John; Brick, James (1980).
1243:The Bell System Technical Journal
1042:from the original on 17 July 2011
1011:from the original on 19 July 2011
984:from the original on 18 July 2011
434:Am2910 – 12-bit address sequencer
354:, an 8-bit minicomputer built by
339:High Level Hardware Limited Orion
1245:. 1.1.2 Data manipulation unit.
1145:Encyclopedia of Video Games: M-Z
1064:. March 28, 1988. Archived from
1062:"Field Information Bulletin 113"
52:IC. The Am2901 chip included an
1427:Bitsavers' PDF document archive
1421:Bitsavers' PDF document archive
1373:Bit-Slice Microprocessor Design
1236:"3B20D Central Processing Unit"
978:Nathan's Toasty Technology page
556:Am2954/Am2955 – Octal Registers
407:Am2903 – 4-bit-slice ALU, with
311:used eight Am2901's in its ALU.
1347:. Advanced Micro Devices. 1979
582:Many of these chips also have
531:Direct Memory Addressing (DMA)
419:Am2906 – Bus Transceiver with
1:
1433:Am29C300/29300 1988 Data Book
934:Digital Equipment Corporation
559:Am2956/Am2957 – Octal Latches
136:Digital Equipment Corporation
1005:"GEC 4000 series processors"
566:/Line Drivers/Line Receivers
536:Am2942 – Programmable Timer/
373:Members of the Am2900 family
610:List of AMD microprocessors
381:AMD Am2903: 4-bit-slice ALU
356:Warrex Computer Corporation
20:AMD Am2901: 4-bit-slice ALU
2139:
1203:10.1109/ARITH.1983.6158083
899:"Production PDP-11 Models"
732:[Product catalog]
497:Am2924 – 3-Line to 8-Line
285:Simulation Excel (Sim-X),
2089:
389:Am2901 – 4-bit bit-slice
318:Geac Computer Corporation
210:graphics system computer.
31:(ICs) created in 1975 by
1142:Mark J. P. Wolf (2012).
1088:
1032:"Computer Architectures"
961:(2): 3–6. February 1984.
440:Am2912 – Bus Transceiver
416:Am2905 – Bus Transceiver
330:Later iterations of the
1404:Computer History Museum
1148:. Bloomsbury Academic.
1003:Andrew Gabriel (1997).
955:Hewlett-Packard Journal
634:HAYES, JOHN P. (1978).
514:3-State Quad Bus Driver
600:Advanced Micro Devices
562:Am2958/Am2959 – Octal
382:
173:Several models of the
82:
33:Advanced Micro Devices
21:
1184:Kari Johnson (1983).
380:
224:computer designed at
54:arithmetic logic unit
19:
1197:. pp. 130–135.
586:numbers such as the
507:Generator and Driver
464:Instruction Register
280:Pixar Image Computer
47:(CCU). By using the
2118:AMD microprocessors
1171:"I-Robot Tech Page"
836:CPU museum web site
832:"Photo of DEC11-34"
117:(ATAC) used on the
56:(ALU) and 16 4-bit
29:integrated circuits
1614:Microarchitectures
1599:Microarchitectures
443:Am2913 – Priority
395:processor register
383:
332:Ferranti Argus 700
260:had no "math box."
124:radiation-hardened
58:processor register
22:
2105:
2104:
2085:
2084:
1852:
1851:
1803:
1802:
1036:K.M.I. - the site
972:Nathan Lineback.
730:"Каталог изделий"
491:Am2923 – 8-Input
484:Am2922 – 8-Input
466:, Quad D Register
409:hardware multiply
130:Data General Nova
2130:
1861:
1812:
1808:Current products
1762:Bobcat (aka 14h)
1755:x86-64 low-power
1619:
1489:
1482:
1475:
1466:
1444:
1438:
1408:
1400:
1390:
1378:
1357:
1356:
1354:
1352:
1342:
1334:
1328:
1327:
1325:
1323:
1307:
1301:
1300:
1298:
1290:
1284:
1283:
1281:
1273:
1267:
1266:
1240:
1231:
1225:
1224:
1192:
1181:
1175:
1174:
1166:
1160:
1159:
1139:
1133:
1132:
1130:
1128:
1123:on June 16, 2009
1109:
1103:
1102:
1084:
1078:
1077:
1075:
1073:
1058:
1052:
1051:
1049:
1047:
1027:
1021:
1020:
1018:
1016:
1000:
994:
993:
991:
989:
969:
963:
962:
952:
944:
938:
937:
931:
921:
915:
914:
912:
910:
894:
888:
887:
885:
877:
871:
870:
868:
858:
852:
851:
849:
847:
838:. Archived from
828:
822:
821:
819:
817:
802:
796:
795:
793:
791:
773:
767:
766:
759:
753:
752:
750:
748:
742:
735:
726:
720:
719:
717:
715:
703:
697:
696:
694:
692:
681:
675:
674:
672:
670:
656:
650:
649:
631:
478:Am2921 – 1-to-8
474:D-Type Flip-Flop
402:Look-Ahead Carry
352:Warrex Centurion
325:AES Data Systems
300:Teleperm and S5
242:arcade machines
107:instruction set.
2138:
2137:
2133:
2132:
2131:
2129:
2128:
2127:
2123:Bit-slice chips
2108:
2107:
2106:
2101:
2100:
2081:
2036:
1964:
1879:
1848:
1799:
1781:
1750:
1650:
1608:
1498:
1493:
1436:
1430:
1415:
1398:
1393:
1387:
1379:. McGraw-Hill.
1376:
1369:
1366:
1364:Further reading
1361:
1360:
1350:
1348:
1340:
1336:
1335:
1331:
1321:
1319:
1309:
1308:
1304:
1296:
1292:
1291:
1287:
1279:
1275:
1274:
1270:
1238:
1233:
1232:
1228:
1213:
1190:
1183:
1182:
1178:
1168:
1167:
1163:
1156:
1141:
1140:
1136:
1126:
1124:
1111:
1110:
1106:
1099:
1090:
1086:
1085:
1081:
1071:
1069:
1060:
1059:
1055:
1045:
1043:
1029:
1028:
1024:
1014:
1012:
1002:
1001:
997:
987:
985:
971:
970:
966:
950:
946:
945:
941:
929:
923:
922:
918:
908:
906:
905:on 25 July 2011
896:
895:
891:
883:
879:
878:
874:
866:
860:
859:
855:
845:
843:
830:
829:
825:
815:
813:
812:on 17 July 2011
804:
803:
799:
789:
787:
775:
774:
770:
761:
760:
756:
746:
744:
740:
733:
728:
727:
723:
713:
711:
705:
704:
700:
690:
688:
683:
682:
678:
668:
666:
658:
657:
653:
646:
638:. p. 371.
633:
632:
628:
623:
596:
472:Am2920 – Octal
375:
270:arcade machine
268:raster graphics
240:vector graphics
175:GEC 4000 series
166:and Xerox 1108
153:Hewlett-Packard
101:Apollo Computer
93:
77:as KR1804VS1 /
27:is a family of
12:
11:
5:
2136:
2134:
2126:
2125:
2120:
2110:
2109:
2103:
2102:
2099:
2098:
2091:
2090:
2087:
2086:
2083:
2082:
2080:
2079:
2078:
2077:
2067:
2062:
2061:
2060:
2050:
2044:
2042:
2038:
2037:
2035:
2034:
2029:
2024:
2019:
2018:
2017:
2007:
2002:
1997:
1996:
1995:
1990:
1979:
1977:
1966:
1965:
1963:
1962:
1957:
1952:
1947:
1946:
1945:
1940:
1930:
1925:
1920:
1915:
1910:
1905:
1900:
1894:
1892:
1881:
1880:
1878:
1877:
1871:
1869:
1858:
1854:
1853:
1850:
1849:
1847:
1846:
1841:
1836:
1831:
1825:
1823:
1809:
1805:
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1801:
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1739:
1734:
1729:
1724:
1719:
1714:
1709:
1699:
1698:
1697:
1692:
1687:
1682:
1674:
1669:
1664:
1658:
1656:
1655:x86-64 desktop
1652:
1651:
1649:
1648:
1643:
1638:
1632:
1630:
1616:
1610:
1609:
1607:
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1579:
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1549:
1548:
1547:
1542:
1537:
1532:
1522:
1517:
1506:
1504:
1500:
1499:
1496:AMD processors
1494:
1492:
1491:
1484:
1477:
1469:
1463:
1462:
1457:
1451:
1445:
1428:
1422:
1414:
1413:External links
1411:
1410:
1409:
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1285:
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328:
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309:AT&T 3B20D
305:
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233:
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208:Tektronix 4052
204:
201:MAI Basic Four
197:
194:Joel McCormack
186:
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133:
127:
108:
105:Motorola 68010
92:
89:
70:second sourced
39:devices, in a
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2033:
2032:A-series APUs
2030:
2028:
2025:
2023:
2020:
2016:
2013:
2012:
2011:
2008:
2006:
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2001:
1998:
1994:
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1810:
1806:
1796:
1795:K12 (aka 12h)
1793:
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1776:
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1672:K10 (aka 10h)
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1212:0-8186-0034-9
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1098:5-217-02090-3
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1068:on 2011-07-07
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897:John Holden.
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842:on 2011-07-08
841:
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743:on 2020-09-15
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664:cpu-world.com
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645:0-07-027363-4
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230:Niklaus Wirth
227:
223:
219:
216:
212:
209:
205:
202:
198:
195:
191:
187:
184:
181:The DEC KS10
180:
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26:
18:
2094:
2052:
1857:Discontinued
1839:Threadripper
1741:
1432:
1402:
1372:
1349:. Retrieved
1344:
1332:
1322:February 20,
1320:. Retrieved
1314:
1305:
1288:
1271:
1246:
1242:
1229:
1186:
1179:
1164:
1144:
1137:
1125:. Retrieved
1121:the original
1116:
1107:
1082:
1070:. Retrieved
1066:the original
1056:
1044:. Retrieved
1035:
1025:
1013:. Retrieved
998:
986:. Retrieved
977:
974:"Xerox Star"
967:
958:
954:
942:
925:
919:
907:. Retrieved
903:the original
892:
875:
862:
856:
844:. Retrieved
840:the original
835:
826:
814:. Retrieved
810:the original
800:
788:. Retrieved
780:
771:
757:
745:. Retrieved
738:the original
724:
712:. Retrieved
701:
689:. Retrieved
679:
667:. Retrieved
663:
654:
635:
629:
581:
505:System Clock
384:
271:
255:
249:
243:
199:A number of
168:Lisp machine
94:
67:
62:bit-shifting
45:control unit
24:
23:
1864:Early x86 (
1690:Steamroller
1169:Dan Boris.
687:. CPU-world
615:Bit slicing
584:7400 series
486:Multiplexer
190:UCSD Pascal
126:2901 chips.
49:bit slicing
2112:Categories
1685:Piledriver
1510:Processors
1249:(1): 193.
790:August 26,
669:August 26,
621:References
590:/ Am2960.
397:set (1975)
245:Battlezone
226:ETH Zürich
164:Xerox Star
147:VAX 11/730
75:designated
1983:Athlon 64
1695:Excavator
1680:Bulldozer
1646:Athlon/K7
1448:CPU-World
1345:AM-PUB003
544:Generator
533:Generator
529:Am2940 –
510:Am2926 –
503:Am2925 –
462:Am2918 –
445:Interrupt
404:Generator
400:Am2902 –
251:Red Baron
203:machines.
84:КР1804ВС1
41:bit-slice
1960:AMD Élan
1604:Chipsets
1127:July 11,
1072:July 11,
1046:July 11,
1040:Archived
1015:July 11,
1009:Archived
988:July 11,
982:Archived
909:July 11,
846:July 11,
816:July 11,
714:24 March
691:24 March
594:See also
512:Schottky
447:Expander
293:section.
273:I, Robot
157:A-series
145:The DEC
2095:Italics
2070:Alchemy
2065:Am29000
2027:Opteron
2000:Sempron
1707:1st gen
1582:Opteron
1572:Sempron
1443:. 1988.
1263:8952660
1221:8258925
765:. 1983.
588:74F2960
564:Buffers
538:Counter
499:Decoder
480:Decoder
298:Siemens
257:Tempest
215:SM-1420
119:Galileo
79:Russian
37:bipolar
2075:MIPS32
2053:Am2900
2048:Am9080
2010:Phenom
2005:Turion
1974:64-bit
1970:x86-64
1933:Athlon
1928:K6-III
1908:Am5x86
1889:32-bit
1866:16-bit
1829:Athlon
1820:64-bit
1816:x86-64
1770:Jaguar
1727:Zen 3+
1627:32-bit
1577:Turion
1552:Phenom
1525:Athlon
1383:
1351:May 6,
1316:GitHub
1261:
1219:
1209:
1152:
1095:
747:30 May
642:
421:Parity
222:Lilith
185:model.
183:PDP-10
140:PDP-11
138:(DEC)
25:Am2900
2041:Other
1955:Geode
1950:Duron
1903:Am486
1898:Am386
1885:IA-32
1875:Am286
1834:Ryzen
1787:ARM64
1743:Zen 6
1737:Zen 5
1732:Zen 4
1722:Zen 3
1717:Zen 2
1623:IA-32
1567:Duron
1562:Ryzen
1503:Lists
1437:(PDF)
1399:(PDF)
1377:(PDF)
1341:(PDF)
1297:(PDF)
1280:(PDF)
1259:S2CID
1239:(PDF)
1217:S2CID
1191:(PDF)
951:(PDF)
930:(PDF)
884:(PDF)
867:(PDF)
741:(PDF)
734:(PDF)
488:(MUX)
296:Many
264:Atari
236:Atari
178:ALU).
155:1000
2058:list
1923:K6-2
1844:Epyc
1775:Puma
1766:16h
1712:Zen+
1676:15h
1594:APUs
1587:Epyc
1381:ISBN
1353:2022
1324:2023
1207:ISBN
1150:ISBN
1129:2011
1093:ISBN
1074:2011
1048:2011
1017:2011
990:2011
911:2011
848:2011
818:2011
792:2014
785:NASA
749:2016
716:2016
693:2016
671:2014
640:ISBN
393:and
364:The
337:The
307:The
302:PLCs
287:Oslo
248:and
220:The
213:The
206:The
188:The
112:Itek
110:The
99:The
1702:Zen
1441:AMD
1251:doi
1199:doi
542:DMA
493:MUX
391:ALU
266:'s
238:'s
228:by
2114::
2022:FX
2015:II
1993:II
1988:X2
1943:MP
1938:XP
1918:K6
1913:K5
1667:K9
1662:K8
1641:K6
1636:K5
1557:FX
1545:II
1540:X2
1535:64
1530:XP
1520:K6
1515:K5
1439:.
1401:.
1343:.
1313:.
1257:.
1247:62
1241:.
1215:.
1205:.
1193:.
1115:.
1038:.
1034:.
1007:.
980:.
976:.
959:35
957:.
953:.
932:.
834:.
783:.
779:.
662:.
81::
1976:)
1972:(
1891:)
1887:(
1868:)
1822:)
1818:(
1629:)
1625:(
1488:e
1481:t
1474:v
1389:.
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794:.
751:.
718:.
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648:.
540:/
232:.
196:.
170:.
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.
