소련의 마이크로프로세서 목록

List of Soviet microprocessors

여기에 구소련마이크로컨트롤러마이크로프로세서(비트슬라이스 프로세서 및 DSP 포함)가 모두 나열되어 있다.러시아, 벨로루시, 우크라이나의 최신 기기는 소련의 집적회로 명칭에 따라 라벨을 붙이면 여기에 나열된다.

소비에트 시리즈 서양 등가물 단어 크기(비트) 기술 유형 명령 집합 언급
145 CMOS,[1] PMOS, 기타 통제관 к145는 서로 다른 IC 기술 및 목적 14145 и1801807[2][3][1][4] 가진 복합 시리즈다.
532 4n CMOS 비트의 엘렉트로니카 NC 나중에 587년으로[5] 이름이 바뀌었다.
536 8n 피모스 비트의 엘렉트로니카 S5 К536ИК9[5][6][7][8]
580 인텔 8080 8 NMOS 프로세서 КР580ВМ80А[3][5][4][6][9][10][11][12]
581 웨스턴 디지털 MCP-1600 16 NMOS 프로세서 PDP-11 КР581ИК1[3][4][6][10][11]
582 텍사스 인스트루먼트 SBP0400 4n I²L 비트의 КР582ИК1[5][11]
583 8n I²L 비트의 К583ВС1А[3][5][4][11]
584 텍사스 인스트루먼트 SBP0400 4n I²L 비트의 К584ВМ1[5][4][6][11]
585 인텔 3000 2n 쇼츠키 TTL 비트의 К585ИК02[11][13][14]
586 16 NMOS 프로세서 엘렉트로니카 S5 (элерррара C5) К586ВЕ1[3][6][8][11][13][15]
587 4n CMOS 비트의 엘렉트로니카 NC(эе ррррара и) КР587ИК1[5][4][6][11][13]
588 16 CMOS 프로세서 PDP-11 КР588ВС2А[3][5][4][6][9][11][12][13][16][17]
589 인텔 3000 2n 쇼츠키 TTL 비트의 К589ИК02[3][4][6][10][11][13]
602 MCS 65C02 8 CMOS 프로세서 К602ВМ1[18]
1005 파나소닉 MN1405 4 NMOS 통제관 КР1005ВЕ1[19]
1011 피모스 통제관 К1011ВГ101[2][3]
1013 16 CMOS 프로세서 PDP-11 КА1013ВМ1[19]
1582 질로그 Z84C00 8 CMOS 프로세서 КМ1582ВМ2[5]
1800 모토로라 MC10800 4n ECL 비트의 к1800вC1[3][5][4][6][9][10][12][20]
1801 16 NMOS 통제관 엘렉트로니카 NC К1801ВЕ1[20][21]
16 NMOS 프로세서 PDP-11 1801BMx[3][5][6][9][12][20][22]
1802 8n 쇼츠키 TTL 비트의 КР1802ВС1[3][5][6][9][12][13][14][20][22]
1803 4 피모스 통제관 КР1803ВЕ1[20]
1804 AMD 암2900 4n 쇼츠키 TTL 비트의 КР1804ВС1[3][6][9][10][12][13][20][22][23]
1805 4n CMOS 비트의 КБ1805ВС1-1[3][20]
1806 4 CMOS 통제관 КР1806ВЕ1[3][5][20]
1806 16 CMOS 프로세서 PDP-11 1806ВМ2[3][5][13][20][24]
1807 12월 T-11일 16 NMOS 프로세서 PDP-11 КР1807ВМ1[3][10][20]
DEC MicroVAX 32 NMOS 프로세서 벡스 КЛ1807ВМ3[3][5][10][20]
1808 8 I²L 통제관 КА1808ВМ1[3][20][22]
1810 인텔 8086 16 NMOS 프로세서 x86 К1810ВМ86[3][5][6][9][10][12][20][22]
인텔 8088 16 NMOS 프로세서 x86 К1810ВМ88
1811 DEC F-11 16 NMOS 프로세서 PDP-11 КН1811ВМ1[3][5][10][12][20][22][25]
1813 인텔 2920 24 NMOS DSP КМ1813ВЕ1А[2][3][10][12][20][22]
1814 텍사스 인스트루먼트 TMS1000 4 피모스 통제관 КР1814ВЕ2[2][3][5][9][10][20][22]
1815 16 I²L DSP К1815ИА1[3][26]
1816 인텔 8048 8 NMOS 통제관 MCS-48 КМ1816ВЕ48[2][3][5][9][10][12][22][26]
인텔 8051 8 NMOS 통제관 MCS-51 КР1816ВЕ51[3][5][10][12][26]
1817 8n 쇼츠키 TTL 비트의 1817ВС11А[3][5]
1818 시그니처 8X300 8 쇼츠키 TTL 프로세서 КМ1818ВМ01[3][26]
1819 4n CMOS 비트의 1819ИК2[3][13]
1820 국가반도체 COP400 4 NMOS 통제관 КР1820ВЕ1[2][3][9][10][26][17]
CMOS 통제관 КР1820ВЕ3[17]
1821 인텔 80C85 8 CMOS 프로세서 ИМ1821ВМ85А[3][10][12][13][26][27]
1822 8n 비트의 1822ВС1[3]
1824 16 CMOS 프로세서 PDP-11 1824ВС21[3][5]
1825 16 / 32 CMOS 프로세서 Б1825ВС1-2[3][5][13][24][28][29][30]
1826 8 CMOS 프로세서 1826ВМ1А[3]
1827 16 NMOS 통제관 엘렉트로니카 S5 К1827ВЕ1[3][5][13][26]
16 NMOS DSP КМ1827ВЕ3[3][12][13][26]
1829 NEC μPD7500 4 CMOS 통제관 КА1829ВМ1[3][26]
1830 인텔 80C48 8 CMOS 통제관 MCS-48 КР1830ВЕ48[3][5][10][26]
인텔 80C51 8 CMOS 통제관 MCS-51 КМ1830ВЕ751[3][5][10][13][24][26][31]
1831 DEC J-11 16 CMOS 프로세서 PDP-11 КН1831ВМ1[3][5][10][26]
1832 16 쇼츠키 TTL DSP КН1832ИА1[3][5][26]
1833 6 CMOS 통제관 КР1833ВЕ1[3][5][26]
1834 인텔 80C86 16 CMOS 프로세서 x86 КР1834ВМ86[3][5][10][26]
1835 16 CMOS 통제관 КФ1835ВЕ3[3][32]
인텔 80C48 8 CMOS 통제관 MCS-48 КР1835ВЕ49[3][26][33]
인텔 80C51 8 CMOS 통제관 MCS-51 КР1835ВЕ51[3][26]
인텔 80C86 16 CMOS 프로세서 x86 КР1835ВМ86[3][26][34]
1836 16 CMOS 프로세서 PDP-11 Н1836ВМ3[5][13]
1838 AMD 암29500 8n 쇼츠키 TTL 비트의 1838ВС1[3][5]
1839 32 CMOS 프로세서 벡스 Л1839ВМ1[3][5][13][26][35]
1843 AMD Am29C300 32 CMOS 프로세서 КА1843ВС1[3][12][26]
1845 32 CMOS 프로세서 КА1845ВС1[3][26]
1847 인텔 80C286 16 CMOS 프로세서 x86 КР1847ВМ286[3][10][26]
1850 인텔 8048 8 NMOS 통제관 MCS-48 КР1850ВЕ48[3][5][10][26][36]
1851 8 CMOS 통제관 1851ВЕ51У[24]
1858 질로그 Z80 8 NMOS 프로세서 КР1858ВМ1[3][5][10][26]
질로그 Z84C00 8 CMOS 프로세서 КР1858ВМ3[3][5][10][37]
1865 16 CMOS 프로세서 К1865ВМ1[12]
1867 텍사스 인스트루먼트 TMS320 16 CMOS DSP Л1867ВМ2[3][5][13][24][26][31]
1868 파나소닉 MN1500 4 CMOS 통제관 КЛ1868ВЕ1[3][5][26]
1869 미쓰비시 M50959 8 CMOS 통제관 КФ1869ВЕ1[26][38]
4 CMOS 통제관 КФ1869ВЕ2[3][26][39]
1871 4 CMOS 통제관 КН1871ВЕ1[3][26][40]
1874 인텔 80C196 16 CMOS 통제관 MCS-96 Л1874ВЕ36[5][13][24][26][31]
1875 인텔 80C186 16 CMOS 프로세서 x86 1875ВД1Т[24]
인텔 80386EXTB 32 CMOS 프로세서 x86 1875ВД2Т[13][41]
1876 MIPS R3000 32 CMOS 프로세서 MIPS Л1876ВМ1[3][5][13][42][43][44]
1878 8 CMOS 통제관 테세우스 КР1878ВЕ1[3][24][26][45]
1879 32 CMOS DSP 1879ВМ1[13][24][46]
32 CMOS 프로세서 + DSP 1879ВЯ1Я[46]
1880 인텔 80C51 8 CMOS 통제관 MCS-51 1880ВЕ51Р[3][13][16][24]
1881 16 CMOS 통제관 1881ВЕ2Т[13][16][24]
1882 8 CMOS 통제관 MCS-51 1882ВЕ53У[13][24][31]
1883 ZMD U830C 8n NMOS 비트의 PDP-11 U830C[5][6]
1886 마이크로칩 PIC17C756A 8 CMOS 통제관 PIC17 К1886ВЕ2У[5][13][24][47][48]
1887 인피니온 C166 16 CMOS 통제관 C166 1887ВЕ3Т[13][24][31]
아트멜 AT메가 8 CMOS 통제관 AVR 1887ВЕ4У[13][24][31]
1888 32 CMOS 컨트롤러 + DSP К1888ВС018[46]
32 CMOS 프로세서 + DSP 파워PC 1888ТХ018[46]
1890 32 CMOS 프로세서 MIPS 1890ВМ1Т[5][13][24][49]
1890 64 CMOS 프로세서 MIPS 1890ВМ5Ф[5][13][24][49]
1891 32 CMOS 프로세서 SPARC 1891ВМ3[13][24][50]
1891 CMOS 프로세서 엘브루스 2000 1891ВМ4Я[13][24][50]
1892 32 CMOS 프로세서 + DSP MIPS 1892ВМ2Я[13][24][51]
32 CMOS 프로세서 + DSP 1892ВМ14Я[51]
1894 16 CMOS 통제관 TF-16 К1894ВГ1Т[13][24][52][53][54]
1899 32 CMOS 프로세서 1899ВМ1Т[13][24]
1900 32 CMOS 프로세서 MIPS 1900ВМ2Т[13][24][49]
1901 텍사스 인스트루먼트 TMS320 32 / 16 컨트롤러 + DSP 1901ВЦ1Т[47][55]
1902 CMOS DSP 1902ВЦ1Я[13]
1903 텍사스 인스트루먼트 MSP430F149 16 통제관 MSP 430 1903ВЕ91Т[56][57]
1904 32 CMOS 통제관 MIPS 1904ВЕ1Т[24][30][58]
1905 통제관 К1905ВМ1Я[59]
1906 레온4 32 CMOS 프로세서 SPARC 1906Bм016년[24][60]
1907 32 CMOS 프로세서 MIPS 1907ВМ014[24][49]
1907 64 CMOS 프로세서 MIPS 1907ВМ028[24][49]
1910 텍사스 인스트루먼트 TMS320C546 16 CMOS DSP 1910ВМ1Т[24][30][58]
1913 16 CMOS 통제관 TF-16 1913ВА015[54][61]
1914 32 CMOS 프로세서 1914ВМ014[30][58]
1917 32 통제관 К1917ВА014[62]
1921 32 CMOS 통제관 К1921ВК01Т[31]
1923 32 통제관 1923ВК014[47]
1931 32 CMOS 통제관 RISC-V 1931ВА018[14]
1938 32 통제관 KVARC 1938ВМ014[14]
1967 텍사스 인스트루먼트 TMS320C546 16 CMOS DSP 1967ВЦ1Т[13][24]
아날로그 장치 타이거샤르시 32 CMOS DSP 1967ВЦ3Т[24][47][63]
1986 32 CMOS 통제관 1986ВЕ9х[13][24][47][64][65]
1990 32 CMOS 프로세서 MIPS 1990ВМ2Т[13][24]
1990 64 CMOS 프로세서 MIPS 1990ВМ3Т[13][24][49]
5001 32 CMOS 통제관 КА5001ВК1А[66]
5004 8 CMOS 통제관 테세우스 КБ5004ВЕ1[26][67]
5023 32 CMOS 통제관 5023ВС016[24][68]
5400 8 CMOS 통제관 MCS-51 5400ВК015[69][70]
32 CMOS 통제관 RISC-V 5400ТР194[70]
5510 32 CMOS 통제관 RISC-V 5510ТС018[14]
5512 32 CMOS 통제관 KVARC К5512БП1Ф[71][72]
32 CMOS 통제관 MIPS К5512БП2Ф[72]
5534 16 CMOS 통제관 MSP 430 5534ТХ014[73]
5539 32 CMOS 통제관 KVARC 5539ТР016[74]
5550 8 통제관 5550ХТ015[14]
5701 인텔 80C51 8 CMOS 통제관 MCS-51 УМ5701ВЕ51[75]
5890 32 CMOS 프로세서 MIPS 5890ВЕ1Т[13][24][49]

참조

  1. ^ a b "145 серия - Музей электронных раритетов".
  2. ^ a b c d e f Варламов, И.В. (1989). Микропроцессоры в бытовой технике (in Russian). Радио и связь. ISBN 5256004794.
  3. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj Козак, Виктор Романович (24 May 2014). "Номенклатура и аналоги отечественных микросхем". www.inp.nsk.su (in Russian). Retrieved 24 March 2016.
  4. ^ a b c d e f g h i Шахнова, В. А. (1988). Микропроцессоры и микропроцессорные комплекты интегральных микросхем: Справочник. В 2-х т. Том 1 [Microprocessors and microprocessor chip sets: A reference. In 2 volumes. Vol. 1] (in Russian). Moscow: Радио и связь. ISBN 5-256-00371-2. Retrieved 20 October 2017.
  5. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar "Активные элементы". www.155la3.ru (in Russian). Музей электронных раритетов. Retrieved 24 March 2016.
  6. ^ a b c d e f g h i j k l m n Нестеров, П. В. (1986). Микропроцессоры. В 3-х книгах. Книга 1. Архитектура и проектирование микро-ЭВМ. Организация вычислительных процессов [Microprocessors. In 3 volumes. Volume 1. Architecture and design of microcomputers. Organization of computing processes.] (in Russian). Moscow: ВЫСШАЯ ШКОЛА.
  7. ^ Нефедов, А.В. (2001). Интегральные микросхемы и их зарубежные аналоги. Том 04. Серии К507-К543 [Integrated circuits and their foreign equivalents. Volume 04. Series K507-K543.] (in Russian). Moscow: ИП РадиоСофт. ISBN 5-93037-020-6. Retrieved 4 October 2016.
  8. ^ a b М. П. Гальперин, В. Я. Кузнецов, Ю. А. Маслеников, В. Е. Панкин, В. П. Цветов, А. И. Боровской. (1980). Микро-ЭВМ "Электроника С5" и их применение [The microcomputer "Elektronika S5" and its application]. Массовая библиотека инженера «Электроника» (in Russian). Moscow: Советское радио.{{cite book}}: CS1 maint : 복수이름 : 작성자 목록(링크)
  9. ^ a b c d e f g h i j Ниссельсон, Л.И. (1989). Цифровые и аналоговые интегральные микросхемы (in Russian). Радио и связь. ISBN 5256002597.
  10. ^ a b c d e f g h i j k l m n o p q r s t u v w "Soviet microprocessors, microcontrollers, FPU chips and their western analogs". www.cpu-world.com. Retrieved 24 March 2016.
  11. ^ a b c d e f g h i j Нефедов, А.В. (2002). Интегральные микросхемы и их зарубежные аналоги. Том 06. Серии К565-К599 [Integrated circuits and their foreign equivalents. Volume 06. Series K565-K599.] (in Russian). Moscow: ИП РадиоСофт. ISBN 5-93037-039-7. Retrieved 4 October 2016.
  12. ^ a b c d e f g h i j k l m n o Титов М.А., Веревкин А.Ю., Валерьянов В.И. (1994). Изделия электронной техники. Микропроцессоры и однокристальные микроЭВМ [Electronic products. Microprocessors and single-chip microcomputers] (in Russian). Moscow: Радио и связь. ISBN 5-256-01144-8.{{cite book}}: CS1 maint : 복수이름 : 작성자 목록(링크)
  13. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao "Микросхемы вычислительных средств, включая микропроцессоры, микроЭВМ, цифровые процессоры обработки сигналов и контроллеры" [Integrated circuits for computing devices, including microprocessors, microcomputers, digital signal processors, and controllers]. promvpk.ru (in Russian). Promelektronika VPK. Archived from the original on 28 March 2017. Retrieved 25 October 2017.
  14. ^ a b c d e f "Микросхемы ПАО Микрон 2020" [Integrated Circuits PAO Mikron 2020] (PDF) (in Russian). Mikron. Retrieved 16 February 2021.
  15. ^ "К586ВЕ1" [K586VE1] (PDF). silirium.ru (in Russian). Retrieved 20 December 2018.
  16. ^ a b c "Микроконтроллеры и супервизоры питания Серии 1880; 1881; 1842; 588; 1345; 5518АП1ТБМ" [Microcontrollers and Power Supervisors Series 1880; 1881; 1842; 588; 1345; 5518AP1TBM]. integral.by (in Russian). Minsk: OAO "Integral". Retrieved 6 January 2017.
  17. ^ a b c "Руководства" [Manuals]. transistor.by (in Russian). Minsk: "Transistor" branch of OAO "Integral". Archived from the original on 27 March 2015. Retrieved 1 May 2020.
  18. ^ "Музей электронных раритетов - Актив - 4.К602ВМ1".
  19. ^ a b Нефедов, А.В. (2000). Интегральные микросхемы и их зарубежные аналоги. Том 07. Серии К700-К1043 [Integrated circuits and their foreign equivalents. Volume 07. Series K700-K1043.] (in Russian). Moscow: ИП РадиоСофт. ISBN 5-93037-003-6. Retrieved 21 October 2016.
  20. ^ a b c d e f g h i j k l m n o p Нефедов, А.В. (2001). Интегральные микросхемы и их зарубежные аналоги. Том 11. Серии К1564-К1814 [Integrated circuits and their foreign equivalents. Volume 11. Series K1564-K1814.] (in Russian). Moscow: ИП РадиоСофт. ISBN 5-93037-049-4. Retrieved 21 October 2016.
  21. ^ "К1801ВЕ1 Однокристальная микро-ЭВМ" [Single-chip microcontroller K1801VE1] (PDF). ic-info.ru (in Russian). Retrieved 20 October 2017.
  22. ^ a b c d e f g h i Шахнова, В. А. (1988). Микропроцессоры и микропроцессорные комплекты интегральных микросхем: Справочник. В 2-х т. Том 2 [Microprocessors and microprocessor chip sets: A reference. In 2 volumes. Vol. 2] (in Russian). Moscow: Радио и связь. ISBN 5-256-00373-9. Retrieved 20 October 2017.
  23. ^ "Каталог изделий 2020" [Product catalog 2020] (PDF). vzpp-s.ru (in Russian). Voronezh: OAO "VZPP-S". Retrieved 29 March 2021.
  24. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai "Изделия отечественного производства" [Domestic products]. spels.ru (in Russian). Moscow: AO "ENPO SPELS". Retrieved 1 September 2016.
  25. ^ "The Electronika MK1 red3 PDP-11 Chipset and Tetris". cpushack.com. 6 September 2015. Retrieved 12 April 2017.
  26. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af Нефедов, А.В. (2001). Интегральные микросхемы и их зарубежные аналоги. Том 12. Серии К1815-К6501 [Integrated circuits and their foreign equivalents. Volume 12. Series K1815-K6501.] (in Russian). Moscow: ИП РадиоСофт. ISBN 5-93037-053-2. Retrieved 21 October 2016.
  27. ^ "Микропроцессорный комплект М1821" [Microprocessor system M1821]. nzpp.ru (in Russian). Novosibirsk: AO NZPP. Retrieved 31 May 2016.
  28. ^ "Продукция" [Products]. sapfir.ru (in Russian). Moscow: PAO NPP "Sapfir". Retrieved 31 May 2016.
  29. ^ "Спецстойкие КМОП КНС СБИС Каталог 2016" [Hardened silicon-on-sapphire CMOS VLSI catalog 2016] (PDF). angstrem.ru (in Russian). Zelenograd: Angstrem. Retrieved 7 March 2018.
  30. ^ a b c d "Микропроцессоры и микроконтроллеры" [Microprocessors and microcontrollers]. mvc-nn.ru (in Russian). Nizhny Novgorod: MVC. 2014. Archived from the original on 10 May 2017. Retrieved 20 October 2017.
  31. ^ a b c d e f g "Интегральные микросхемы" [Integrated circuits]. niiet.ru (in Russian). Voronezh: OAO "NIIET". Retrieved 30 March 2021.
  32. ^ "КФ1835ВЕ3 – универсальный 16-разрядный микроконтроллер". Радиолюбитель (in Russian). July 1998. pp. 41–43. Retrieved 19 April 2016.
  33. ^ "МикроЭВМ КА/КР1835ВЕ39(49)". Радиолюбитель (in Russian). May 1993. p. 47. Retrieved 19 April 2016.
  34. ^ "Микропроцессор КР1835ВМ86". Радиолюбитель (in Russian). May 1993. p. 46. Retrieved 19 April 2016.
  35. ^ "32-разрядный VAX-11/750-совместимый микропроцессорный комплект" [32-bit VAX-11/750-compatible microprocessor series]. angstrem.ru (in Russian). Zelenograd: Angstrem. Retrieved 7 March 2018.
  36. ^ "Микроконтроллеры" [Microcontrollers]. nzpp.ru (in Russian). Novosibirsk: AO NZPP. Retrieved 2021-03-19.
  37. ^ "КР1858ВМ3" [KR1858VM3]. transistor.by (in Russian). Minsk: "Transistor" branch of OAO "Integral". Archived from the original on 27 March 2015. Retrieved 1 May 2020.
  38. ^ "Микросхема КФ1869ВЕ1" [The integrated circuit KF1869VE1]. Радиолюбитель (in Russian). November 1994. pp. 46–48. Retrieved 7 November 2016.
  39. ^ "Универсальная 4-разрядная микро-ЭВМ КФ1869ВЕ2 для бытовой аппаратуры". Радиолюбитель (in Russian). July 1994. pp. 46–47. Retrieved 27 March 2016.
  40. ^ "КН1871ВЕ1" [KN1871VE1] (PDF). chipfind.ru (in Russian). Zelenograd: Angstrem. Retrieved 28 March 2016.
  41. ^ "Каталог продукции" [Product catalog]. svetpol.ru (in Russian). Saint Petersburg: ZAO Svetlana Semiconductors. Retrieved 30 May 2016.
  42. ^ "Л1876" [L1876] (PDF). chipfind.ru (in Russian). Zelenograd: Angstrem. Retrieved 28 March 2016.
  43. ^ "32-разрядный RISC микропроцессорный комплект" [32-bit microprocessor family]. angstrem.ru (in Russian). Zelenograd: Angstrem. Archived from the original on 7 July 2011. Retrieved 22 November 2016.
  44. ^ "Разработка микропроцессоров" [Microprocessor development]. niisi.ru (in Russian). Moscow: NIISI. Archived from the original on 21 February 2001. Retrieved 12 September 2016.
  45. ^ "8-разрядный микроконтроллер с архитектурой Тесей" [8-bit microcontroller architecture Theseus]. angstrem.ru (in Russian). Zelenograd: Angstrem. Retrieved 7 March 2018.
  46. ^ a b c d "Микроэлектроника" [Microelectronics] (in Russian). NTC Module. Retrieved 20 April 2020.
  47. ^ a b c d e "Каталог продукции группы компаний "Миландр" 2017" [Product catalog of the Milandr Group 2017] (PDF). milandr.ru (in Russian). Moscow: PKK Milandr. Archived from the original (PDF) on 27 October 2017. Retrieved 4 March 2019.
  48. ^ "Milandr K1886VE: The PIC That Went to Russia". cpushack.com. 10 March 2016. Retrieved 21 July 2016.
  49. ^ a b c d e f g "Разработка СБИС - Развитие микропроцессоров с архитектурой КОМДИВ" [VLSI development - Development of microprocessors using the KOMDIV architecture]. niisi.ru (in Russian). Moscow: NIISI. Retrieved 6 September 2016.
  50. ^ a b "Микропроцессоры и СБИС" [Microprocessors and VLSI]. mcst.ru (in Russian). Moscow: MCST. Retrieved 11 April 2016.
  51. ^ a b "Микросхемы" [Integrated circuits]. multicore.ru (in Russian). Zelenograd: Elvees Multicore. Retrieved 10 April 2016.
  52. ^ "Микроконтроллеры" [Microcontrollers]. zntc.ru (in Russian). Zelenograd: ZNTC. Retrieved 20 October 2017.
  53. ^ "16-bit Microcontrollers". www.idm-plus.ru. Zelenograd: IDM-PLUS. Archived from the original on 16 November 2016. Retrieved 21 October 2017.
  54. ^ a b "Российская технологическая платформа МЕМС, разработка и производство СБИС для интеллектуальных датчиков" [A Russian MEMS technology platform; development and production of VLSI IC for intelligent sensors] (PDF). mes-conference.ru (in Russian). Zelenograd: ZNTC. 2016. Retrieved 20 October 2017.
  55. ^ "Двухъядерный микроконтроллер компании "Миландр" для высоконадёжных применений" [Dual-core microcontroller from Company "Milandr" for high-reliability applications] (PDF). milandr.ru (in Russian). Moscow: PKK Milandr. Retrieved 21 October 2017.
  56. ^ "1903ВЕ91Т НИИЭТ 16-разрядные микроконтроллер" [16-bit microcontroller 1903VE91T from NIIET]. chip.tomsk.ru (in Russian). Catalog Tomsk. Retrieved 28 November 2016.
  57. ^ "Новые разработки ИМС" [Newly developed ICs]. niiet.ru (in Russian). Voronesh: NIIET. Archived from the original on 18 March 2009. Retrieved 28 November 2016.
  58. ^ a b c "Радиационно стойкие процессоры" [Radiation-resistant processors] (in Russian). Nizhny Novgorod: NIIIS. Retrieved 28 April 2020.
  59. ^ "GLONASS module Geos-3 : Weekend die-shot". zeptobars.com. Zeptobars. 24 March 2013. Retrieved 12 May 2017.
  60. ^ "Радиационно-стойкий 32-разрядный микропроцессор на базе ядра SPARC LEON4 V8" [Radiation-proof 32-bit microprocessor based on the SPARC LEON4 V8 core]. niiet.ru (in Russian). Voronezh: OAO "NIIET". Retrieved 21 August 2017.
  61. ^ "IDM+". www.idm-plus.ru. Zelenograd: IDM-PLUS. Archived from the original on 14 April 2018. Retrieved 1 May 2020.
  62. ^ "СБИС К1917ВА014" [VLSI K1917VA014]. mri-progress.ru (in Russian). Moscow: Progress. Retrieved 29 December 2016.
  63. ^ "Микросхема процессора цифровой обработки сигналов с ОЗУ 12 Мбит и тактовой частотой 300 МГц 1967ВЦ3Т" [Digital signal processor with 12 MBit RAM and 300 MHz clock 1967VTs3T] (PDF). milandr.ru (in Russian). Moscow: PKK Milandr. Archived from the original (PDF) on 27 April 2016. Retrieved 16 January 2017.
  64. ^ "Микросхема 32-разрядного однокристального микро-ЭВМ с памятью Flash-типа 1986ВЕ9ху" [32-bit single-chip microcomputer with Flash memory 1986VE9xy] (PDF). terraelectronica.ru (in Russian). Moscow: PKK Milandr. Retrieved 21 October 2017.
  65. ^ "Milandr K1986VE91T – The ARM of Russia". cpushack.com. 19 February 2017. Retrieved 12 April 2017.
  66. ^ "МИКРОСХЕМА ИНТЕГРАЛЬНАЯ КА5001ВК1А - Руководство пользователя" [Integrated circuit KA5001VK1A - User's manual] (PDF) (in Russian). Voronezh: OAO "NIIET". Retrieved 31 March 2021.
  67. ^ "КБ5004ВЕ1 Микроконтроллер интеллектуальной карты" [Microcontroller for intelligent cards KB5004VE1]. angstrem.ru (in Russian). Zelenograd: Angstrem. Retrieved 7 March 2018.
  68. ^ "НОВЫЕ ИЗДЕЛИЯ - Каталог 2018" [New products - catalog 2018] (PDF). angstrem.ru (in Russian). Zelenograd: Angstrem. Retrieved 23 May 2018.
  69. ^ "Микроконтроллеры" [Microcontrollers] (in Russian). Zelenograd: AO Design Centre Soyuz. Retrieved 24 April 2020.
  70. ^ a b "Каталог продукции 2021" [Product catalog 2021] (PDF) (in Russian). Zelenograd: AO Design Centre Soyuz. Retrieved 2021-03-15.
  71. ^ "KVARC 32bit MPU with Android KitKat and Linux". km211.com. Zelenograd: KM211. Archived from the original on 24 July 2017. Retrieved 1 May 2020.
  72. ^ a b Yu. Zavalin (2015). "ПОЛУЗАКАЗНЫЕ СнК – ОСНОВА МЕЛКОСЕРИЙНОГО ПРОИЗВОДСТВА СБИС СПЕЦИАЛЬНОГО НАЗНАЧЕНИЯ" [Semi-custom SoC for the production of small-volume VLSI for special applications] (PDF). Electronics ЭЛЕКТРОНИКА (in Russian). No. 9. Technosphera. ISSN 1992-4178. Retrieved 12 March 2021.
  73. ^ "ОСВАИВАЕМЫЕ МИКРОСХЕМЫ" [Integrated circuits to be developed]. sktbes.com (in Russian). Voronesh: SKTB ES. Retrieved 29 March 2018.
  74. ^ "5539ТР026 и 5539ТР016" [5539TR026 and 5539TR016] (in Russian). Progress. Retrieved 23 April 2020.
  75. ^ "Однокристальные микро-эвм" [Single-chip microcomputers]. krystall.net.ua (in Russian). Kiev: Kristall. Archived from the original on 30 May 2012. Retrieved 5 January 2017.

참고 항목