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{{amd title|Am2900}} | {{amd title|Am2900}} | ||
− | The '''AMD Am2900''' is a [[microprocessor family|family]] of [[4-bit architecture|4-bit]] [[bit-slice microprocessor|bit-slice]] chips designed by [[Advanced Micro Devices]] and introduced to the market in August 1975. Each component represents an individual unit in a microprocessor. Designed to be flexible and expandable, those chips were capable of emulating a large number of existing systems. Made in bipolar technology allowed for higher speeds ( | + | {{ic family |
+ | | title = AMD Am2900 | ||
+ | | image = Ic-photo-AMD--AM2903ADCB-(AM2900).png | ||
+ | | caption = Am2903 Enhanced ALU | ||
+ | | developer = AMD | ||
+ | | manufacturer = AMD | ||
+ | | type = microprocessors | ||
+ | | production start = 1975 | ||
+ | | production end = 1998 | ||
+ | | arch = 4-bit bit-slice | ||
+ | | word = 4 bit | ||
+ | | proc = <!-- process, e.g. "8 μm" --> | ||
+ | | tech = Bipolar | ||
+ | | clock min = 1 MHz | ||
+ | | clock max = 31 MHz | ||
+ | | package = DIP40 | ||
+ | | package 2 = FP42 | ||
+ | }} | ||
+ | The '''AMD Am2900''' is a [[microprocessor family|family]] of [[4-bit architecture|4-bit]] [[bit-slice microprocessor|bit-slice]] chips designed by [[Advanced Micro Devices]] and introduced to the market in August [[1975]]. Each component represents an individual unit in a microprocessor. Designed to be flexible and expandable, those chips were capable of emulating a large number of existing systems. Made in bipolar technology allowed for higher speeds (1-20Mhz, later up to 32). Its flexibility, higher speed, unusually large amount of 2nd sources, and good marketing allowed AMD to dominate the [[bit-slice microprocessor|bit-slice]] market. The Am2900 family became very popular then and was used as the de facto baseline for bit-slice design. | ||
− | {| class="wikitable" style=" | + | == Design == |
− | ! colspan="2" | Family Members | + | The family includes two {{arch|4}} [[ALU]]s - ''2901'' and a ''2903''. The {{amd|AM2901}}/{{amd|AM2901A|A}} was the original chip designed, supporting 8 different basic operations. The {{amd|AM2903}}/{{amd|AM2903A|A}} was an enhanced version designed a bit later to provide a more sophisticated 3-port, 3-address architecture, including 7 additional operations to support multiplication and division. The slices can be stacked to produce any multiple of 4-bit wide data path (8, 12, 16, 32, etc. bits) and memory address for use in larger systems. |
+ | |||
+ | {{expand section}} | ||
+ | |||
+ | == 2nd sources == | ||
+ | The ''Am2900'' had a large number of 2nd sources: | ||
+ | |||
+ | {| class="wikitable" style="border-collapse:collapse;" | ||
+ | ! 75 || 76 || 77 || 78 || 79 || 80 || 81 || 82 || 83 || 84 || 85 || 86 || 87 || 88 || 89 || 90 || 91 || 92 || 93 || 94 || 95 || 96 | ||
+ | |- | ||
+ | | colspan="9" style="background: #E8E8E8;" | [[Motorola]] | ||
+ | |- | ||
+ | | colspan="22" style="background: #E8E8E8;" | [[Thomson-CSF]] | ||
+ | |- | ||
+ | | colspan="7" style="background: #E8E8E8;" | [[Raytheon]] | ||
+ | |- | ||
+ | | colspan="2" style="border: none;" | || colspan="15" style="background: #E8E8E8;" | [[National]] | ||
+ | |- | ||
+ | | colspan="3" style="border: none;" | || colspan="6" style="background: #E8E8E8;" | [[Fairchild]] | ||
+ | |- | ||
+ | | colspan="3" style="border: none;" | || colspan="3" style="background: #E8E8E8;" | [[Signetics]] | ||
+ | |- | ||
+ | | colspan="3" style="border: none;" | || colspan="6" style="background: #E8E8E8;" | [[NEC]] | ||
+ | |- | ||
+ | | colspan="5" style="border: none;" | || colspan="2" style="background: #E8E8E8;" | [[OKI]] | ||
+ | |- | ||
+ | | colspan="10" style="border: none;" | || colspan="7" style="background: #E8E8E8;" | [[Cypress]] | ||
+ | |- | ||
+ | | colspan="11" style="border: none;" | || colspan="3" style="background: #E8E8E8;" | [[Vitesse]] | ||
+ | |- | ||
+ | | colspan="11" style="border: none;" | || colspan="11" style="background: #E8E8E8;" | [[ВЗПП (VZPP-USSR)]] | ||
+ | |} | ||
+ | |||
+ | == Members == | ||
+ | {| class="wikitable" | ||
+ | ! colspan="3" | Family Members | ||
+ | |- | ||
+ | ! Part !! Description !! Pin count | ||
+ | |- | ||
+ | | {{\|AM2901}}<br />{{\|AM2901A}}<br />{{\|AM2901B}} || [[4-bit architecture|4-bit]] [[ALU]] || 40, 42 | ||
+ | |- | ||
+ | | {{\|AM2901C}} || [[4-bit architecture|4-bit]] [[ALU]], internal [[ECL]] circuitry, ultrafast plug-in replacement for the {{amd|AM2901B|2901B}} || 40, 42, 44 | ||
+ | |- | ||
+ | | {{\|AM2902}} || [[Carry-lookahead generator]] || 16, 20 | ||
+ | |- | ||
+ | | {{\|AM2903}}<br />{{\|AM2903A}} || [[4-bit architecture|4-bit]] [[ALU]], enhanced version of the {{amd|AM2901|2901}} || 48, 52 | ||
+ | |- | ||
+ | | {{\|AM29203}} || [[4-bit architecture|4-bit]] [[ALU]], enhanced version of the {{amd|AM2903|2903}} supporting BCD arithmetics || 48, 52 | ||
+ | |- | ||
+ | | {{\|AM2904}} || Status and shift control unit || 40, 42, 44 | ||
+ | |- | ||
+ | | {{\|AM2905}} || Quad 2-input bus transceiver || 24 | ||
+ | |- | ||
+ | | {{\|AM2906}} || Quad 2-input bus transceiver with parity || 24 | ||
+ | |- | ||
+ | | {{\|AM2907}}<br />{{\|AM2908}} || Quad bus transceiver with interface logic || 20 | ||
+ | |- | ||
+ | | {{\|AM2909}}<br />{{\|AM2909A}} || 4-bit slice cascadable microprogram address sequencer || 28 | ||
+ | |- | ||
+ | | {{\|AM2910}}<br />{{\|AM2910A}} || 12-bit microprogram address sequencer and controller || 40, 42, 44 | ||
+ | |- | ||
+ | | {{\|AM2911}}<br />{{\|AM2911A}} || 4-bit slice cascadable microprogram address sequencer || 20 | ||
+ | |- | ||
+ | | {{\|AM2912}} || Quad bus transceiver || 16 | ||
|- | |- | ||
− | + | | {{\|AM2913}} || Priority [[interrupt]] expander || 20 | |
|- | |- | ||
− | | {{ | + | | {{\|AM2914}} || Vectored priority [[interrupt]] controller || 40, 42, 44 |
|- | |- | ||
− | | {{ | + | | {{\|AM2915}}<br />{{\|AM2915A}}<br />{{\|AM2916}}<br />{{\|AM2916A}} || Quad 3-state registered bus transceiver with 2-port input || 24 |
|- | |- | ||
− | | {{ | + | | {{\|AM2917}}<br />{{\|AM2917A}} || Quad 3-state registered bus transceiver || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2918}}<br />{{\|AM29LS18}} || Quad D register with standard and 3-state outputs || 16, 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2919}} || Quad D register with dual 3-state outputs || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2920}} || Octal D [[flip-flop]] register with 3-state control || 22, 24, 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2921}} || 1-to-8 [[decoder]] with 3-state outputs || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2922}} || 8-input multiplexer ([[MUX]]) with control register || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2923}} || 8-input multiplexer ([[MUX]]) || 16, 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2924}} || 3-to-8 [[decoder]]/[[demultiplexer]] || 16, 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2925}} || [[clock generator|Clock generator]] and [[microcycle]] length controller || 24, 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2926}}<br />{{\|AM2929}} || 3-state quad bus driver and receiver || 16 |
|- | |- | ||
− | | {{ | + | | {{\|AM2927}}<br />{{\|AM2928}} || Quad 3-state bus transceiver || 20, 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2930}} || Program control unit, 4-bit slice address controller for memories || 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2932}} || Program control unit with push/pop stack, 4-bit slice address controller for memories || 20, 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2940}} || [[direct memory access|DMA]] address generator, cascadable 8-bit slice || 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2942}} || Programmable [[timer]]/[[counter]] or [[direct memory access|DMA]] address generator || 22, 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2946}}<br />{{\|AM2947}}<br />{{\|AM2948}}<br />{{\|AM2949}} || Octal 3-state bidirectional bus transceiver || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2950}}<br />{{\|AM2951}} || 8-bit bidirectional I/O port with handshake, back-to-back registers || 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM2952}}<br />{{\|AM2953}} || 8-bit bidirectional I/O port, back-to-back registers || 24 |
|- | |- | ||
− | | {{ | + | | {{\|AM2954}}<br />{{\|AM2955}} || Octal registers || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2956}}<br />{{\|AM2957}} || Octal latches || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2958}}<br />{{\|AM2959}} || Octal buffer || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2960}}<br />{{\|AM2960A}} || Cascadable 16-bit error detection and correction unit || 48, 52, 68 |
|- | |- | ||
− | | {{ | + | | {{\|AM2961}}<br />{{\|AM2962}} || 4-bit error correction multiple bus buffer || 24 |
|- | |- | ||
− | | {{ | + | | {{\|AM2964}}<br />{{\|AM2964B}} || Dynamic memory controller supporting 16K and 64K [[mosfet|MOS]] dynamic [[random access memory|RAM]] || 40, 44 |
|- | |- | ||
− | | {{ | + | | {{\|AM2965}}<br />{{\|AM2966}} || Octal dynamic memory driver || 20 |
|- | |- | ||
− | | {{ | + | | {{\|AM2968A}} || Dynamic memory controller supporting 16K, 64K and 256K [[mosfet|MOS]] dynamic [[random access memory|RAM]] || 48, 68 |
|- | |- | ||
− | | {{ | + | | {{\|AM2969}} || Memory timing controller with [[error detection and correction|EDC]] timing control, supporting 64K, 256K, 1M and 4M [[mosfet|MOS]] dynamic [[random access memory|RAM]] || 48, 68 |
|- | |- | ||
− | | {{ | + | | {{\|AM2970}} || Memory timing controller supporting 64K, 256K, 1M and 4M [[mosfet|MOS]] dynamic [[random access memory|RAM]] || 24 |
|- | |- | ||
− | | {{ | + | | {{\|AM2971}}<br />{{\|AM2971A}} || Programmable event generator of 12 simultaneous timing sequences || 24, 44 |
|- | |- | ||
− | | {{ | + | | {{\|AM29700}}<br />{{\|AM29701}} || 16-word by 4-bit Schottky [[random access memory|RAM]] || 16 |
|- | |- | ||
− | | {{ | + | | {{\|AM29702}}<br />{{\|AM29703}} || 16-word by 4-bit Schottky [[random access memory|RAM]] || 16 |
|- | |- | ||
− | | {{ | + | | {{\|AM29704}}<br />{{\|AM29705}}<br />{{\|AM29705A}} || 16-word by 4-bit, 2-port [[random access memory|RAM]] || 28 |
|- | |- | ||
− | | {{ | + | | {{\|AM29707}} || 16-word by 4-bit, 2-port [[random access memory|RAM]] for use with {{\|AM29203}} || 28 |
+ | |- | ||
+ | | {{\|AM29720}}<br />{{\|AM29721}} || 256-word by 1-bit low-power Schottky [[random access memory|RAM]] || 16 | ||
+ | |- | ||
+ | | {{\|AM29750A}}<br />{{\|AM29751A}} || 32-word by 8-bit bipolar [[programmable read-only memory|PROM]] || 16 | ||
+ | |- | ||
+ | | {{\|AM29760A}}<br />{{\|AM29761A}} || 256-word by 4-bit bipolar [[programmable read-only memory|PROM]] || 16 | ||
+ | |- | ||
+ | | {{\|AM29770}}<br />{{\|AM29771}} || 512-word by 4-bit bipolar [[programmable read-only memory|PROM]] || 16 | ||
+ | |- | ||
+ | | {{\|AM29774}}<br />{{\|AM29775}} || 512-word by 8-bit bipolar [[programmable read-only memory|PROM]] with register || 22 | ||
+ | |- | ||
+ | | {{\|AM29803A}} || 16-way branch control unit for use with {{\|AM2909A}} || 16 | ||
+ | |- | ||
+ | | {{\|AM29811A}} || Next address control unit for use with {{\|AM2911A}} || 16 | ||
|} | |} | ||
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− | |||
+ | == Documents == | ||
+ | === Databooks === | ||
+ | * [[:File:The Am2900 Family Data Book With Related Support Circuits (1979).pdf|The Am2900 Family Data Book With Related Support Circuits (1979)]] | ||
− | |||
− | |||
[[Category:AMD microprocessors]] | [[Category:AMD microprocessors]] | ||
[[Category:4-bit microprocessors]] | [[Category:4-bit microprocessors]] | ||
[[Category:1975 microprocessors]] | [[Category:1975 microprocessors]] | ||
[[Category:microprocessor families]] | [[Category:microprocessor families]] | ||
− | [[ | + | [[Category:AMD Am2900 family]] |
Latest revision as of 21:55, 18 June 2019
The AMD Am2900 is a family of 4-bit bit-slice chips designed by Advanced Micro Devices and introduced to the market in August 1975. Each component represents an individual unit in a microprocessor. Designed to be flexible and expandable, those chips were capable of emulating a large number of existing systems. Made in bipolar technology allowed for higher speeds (1-20Mhz, later up to 32). Its flexibility, higher speed, unusually large amount of 2nd sources, and good marketing allowed AMD to dominate the bit-slice market. The Am2900 family became very popular then and was used as the de facto baseline for bit-slice design.
Design[edit]
The family includes two 4-bit ALUs - 2901 and a 2903. The AM2901/A was the original chip designed, supporting 8 different basic operations. The AM2903/A was an enhanced version designed a bit later to provide a more sophisticated 3-port, 3-address architecture, including 7 additional operations to support multiplication and division. The slices can be stacked to produce any multiple of 4-bit wide data path (8, 12, 16, 32, etc. bits) and memory address for use in larger systems.
This section requires expansion; you can help adding the missing info. |
2nd sources[edit]
The Am2900 had a large number of 2nd sources:
75 | 76 | 77 | 78 | 79 | 80 | 81 | 82 | 83 | 84 | 85 | 86 | 87 | 88 | 89 | 90 | 91 | 92 | 93 | 94 | 95 | 96 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Motorola | |||||||||||||||||||||
Thomson-CSF | |||||||||||||||||||||
Raytheon | |||||||||||||||||||||
National | |||||||||||||||||||||
Fairchild | |||||||||||||||||||||
Signetics | |||||||||||||||||||||
NEC | |||||||||||||||||||||
OKI | |||||||||||||||||||||
Cypress | |||||||||||||||||||||
Vitesse | |||||||||||||||||||||
ВЗПП (VZPP-USSR) |
Members[edit]
Family Members | ||
---|---|---|
Part | Description | Pin count |
AM2901 AM2901A AM2901B |
4-bit ALU | 40, 42 |
AM2901C | 4-bit ALU, internal ECL circuitry, ultrafast plug-in replacement for the 2901B | 40, 42, 44 |
AM2902 | Carry-lookahead generator | 16, 20 |
AM2903 AM2903A |
4-bit ALU, enhanced version of the 2901 | 48, 52 |
AM29203 | 4-bit ALU, enhanced version of the 2903 supporting BCD arithmetics | 48, 52 |
AM2904 | Status and shift control unit | 40, 42, 44 |
AM2905 | Quad 2-input bus transceiver | 24 |
AM2906 | Quad 2-input bus transceiver with parity | 24 |
AM2907 AM2908 |
Quad bus transceiver with interface logic | 20 |
AM2909 AM2909A |
4-bit slice cascadable microprogram address sequencer | 28 |
AM2910 AM2910A |
12-bit microprogram address sequencer and controller | 40, 42, 44 |
AM2911 AM2911A |
4-bit slice cascadable microprogram address sequencer | 20 |
AM2912 | Quad bus transceiver | 16 |
AM2913 | Priority interrupt expander | 20 |
AM2914 | Vectored priority interrupt controller | 40, 42, 44 |
AM2915 AM2915A AM2916 AM2916A |
Quad 3-state registered bus transceiver with 2-port input | 24 |
AM2917 AM2917A |
Quad 3-state registered bus transceiver | 20 |
AM2918 AM29LS18 |
Quad D register with standard and 3-state outputs | 16, 20 |
AM2919 | Quad D register with dual 3-state outputs | 20 |
AM2920 | Octal D flip-flop register with 3-state control | 22, 24, 28 |
AM2921 | 1-to-8 decoder with 3-state outputs | 20 |
AM2922 | 8-input multiplexer (MUX) with control register | 20 |
AM2923 | 8-input multiplexer (MUX) | 16, 20 |
AM2924 | 3-to-8 decoder/demultiplexer | 16, 20 |
AM2925 | Clock generator and microcycle length controller | 24, 28 |
AM2926 AM2929 |
3-state quad bus driver and receiver | 16 |
AM2927 AM2928 |
Quad 3-state bus transceiver | 20, 28 |
AM2930 | Program control unit, 4-bit slice address controller for memories | 28 |
AM2932 | Program control unit with push/pop stack, 4-bit slice address controller for memories | 20, 28 |
AM2940 | DMA address generator, cascadable 8-bit slice | 28 |
AM2942 | Programmable timer/counter or DMA address generator | 22, 28 |
AM2946 AM2947 AM2948 AM2949 |
Octal 3-state bidirectional bus transceiver | 20 |
AM2950 AM2951 |
8-bit bidirectional I/O port with handshake, back-to-back registers | 28 |
AM2952 AM2953 |
8-bit bidirectional I/O port, back-to-back registers | 24 |
AM2954 AM2955 |
Octal registers | 20 |
AM2956 AM2957 |
Octal latches | 20 |
AM2958 AM2959 |
Octal buffer | 20 |
AM2960 AM2960A |
Cascadable 16-bit error detection and correction unit | 48, 52, 68 |
AM2961 AM2962 |
4-bit error correction multiple bus buffer | 24 |
AM2964 AM2964B |
Dynamic memory controller supporting 16K and 64K MOS dynamic RAM | 40, 44 |
AM2965 AM2966 |
Octal dynamic memory driver | 20 |
AM2968A | Dynamic memory controller supporting 16K, 64K and 256K MOS dynamic RAM | 48, 68 |
AM2969 | Memory timing controller with EDC timing control, supporting 64K, 256K, 1M and 4M MOS dynamic RAM | 48, 68 |
AM2970 | Memory timing controller supporting 64K, 256K, 1M and 4M MOS dynamic RAM | 24 |
AM2971 AM2971A |
Programmable event generator of 12 simultaneous timing sequences | 24, 44 |
AM29700 AM29701 |
16-word by 4-bit Schottky RAM | 16 |
AM29702 AM29703 |
16-word by 4-bit Schottky RAM | 16 |
AM29704 AM29705 AM29705A |
16-word by 4-bit, 2-port RAM | 28 |
AM29707 | 16-word by 4-bit, 2-port RAM for use with AM29203 | 28 |
AM29720 AM29721 |
256-word by 1-bit low-power Schottky RAM | 16 |
AM29750A AM29751A |
32-word by 8-bit bipolar PROM | 16 |
AM29760A AM29761A |
256-word by 4-bit bipolar PROM | 16 |
AM29770 AM29771 |
512-word by 4-bit bipolar PROM | 16 |
AM29774 AM29775 |
512-word by 8-bit bipolar PROM with register | 22 |
AM29803A | 16-way branch control unit for use with AM2909A | 16 |
AM29811A | Next address control unit for use with AM2911A | 16 |
Documents[edit]
Databooks[edit]
designer | AMD + |
full page name | amd/am2900 + |
instance of | microprocessor family + |
main designer | AMD + |
manufacturer | AMD + |
name | AMD Am2900 + |
package | DIP40 + and FP42 + |
technology | Bipolar + |
word size | 4 bit (0.5 octets, 1 nibbles) + |