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    Integrated Device Technology Inc IDT49C402AG84

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    Integrated Device Technology Inc IDT49C402AJ

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    Quest Components IDT49C402AJ 1
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    IDT49C402A Datasheets Context Search

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    IDT49C402

    Abstract: 49c402 ex-nor IDT49C402B 2901c exnor IDT49C402A 2902a 49c40 alu circuit with transistor
    Text: IDT49C402 IDT49C402A IDT49C402B 16-BIT CMOS MICROPROCESSOR SLICE Integrated Device Technology, Inc. FEATURES: • Functionally equivalent to four 2901s and one 2902 • IDT49C402B is 60% faster than four 2901Cs and one 2902A • Expanded two-address architecture with independent, simultaneous access to two 64 x 16 register files


    Original     		PDF IDT49C402 IDT49C402A IDT49C402B 16-BIT 2901s IDT49C402B 2901Cs 84-pin 80-pin 68-pin IDT49C402 49c402 ex-nor 2901c exnor IDT49C402A 2902a 49c40 alu circuit with transistor

    2901s

    Abstract: 8 BIT ALU design by cmos 4 bit ALU USING VLSI 8 BIT ALU by 74181 alu 74181 functional diagram of ALU IDT49C402A register file 16 BIT ALU design with 74181
    Text:  TECHNICAL NOTE TN–03 USING THE IDT49C402A ALU Integrated Device Technology, Inc. by Michael J. Miller The MICROSLICE family consists of high-performance VLSI building blocks that provide such functions as ALUs, sequencers for building complex finite state machines, register files and support devices. The IDT49C402A is a member


    Original     		PDF IDT49C402A 16-bit 20MHz 2901s. 32-Bits IDT74FCT374A 2901s 8 BIT ALU design by cmos 4 bit ALU USING VLSI 8 BIT ALU by 74181 alu 74181 functional diagram of ALU register file 16 BIT ALU design with 74181

    circuit diagram of MUX 74151

    Abstract: 74151 datasheet datasheet of MUX 74151 MUX 74151 basic block diagram of bit slice processors 49C402 74151 74151 mux IDT49C402 multiplexor 74151
    Text: DUAL-PORT RAMs YIELD BIT-SLICE DESIGNS WITHOUT MICROCODE APPLICATION NOTE AN-09 Integrated Device Technology, Inc. By David C. Wyland ABSTRACT High-performance controller designs use bit-slice components for their speed and design flexibility. Speeds of 1020 million instructions per second MIPS are common and


    Original     		PDF AN-09 circuit diagram of MUX 74151 74151 datasheet datasheet of MUX 74151 MUX 74151 basic block diagram of bit slice processors 49C402 74151 74151 mux IDT49C402 multiplexor 74151

    2901c

    Abstract: IDT39C10 IDT39C60 idt39c10c IDT49C402 IDT49C402A idt71682 AN-06 IDT39C01C 8 BIT ALU design by cmos
    Text: 16-BIT CMOS SLICES — NEW BUILDING BLOCKS MAINTAIN MICROCODE COMPATIBILITY  YET INCREASE PERFORMANCE 16-BIT CMOS SLICES—NEW BUILDING BLOCKS MAINTAIN MICROCODE COMPATIBILTY YET INCREASE PERFORMANCE Integrated Device Technology, Inc. APPLICATION NOTE AN-06


    Original     		PDF 16-BIT AN-06 IDT39C000 IDT49C000 IDT74FCT374 IDT71682 2901c IDT39C10 IDT39C60 idt39c10c IDT49C402 IDT49C402A idt71682 AN-06 IDT39C01C 8 BIT ALU design by cmos

    transistor f151

    Abstract: control process block diagram IDT49C402A 74F151 F151 IDT74FCT374A IDT49C402 register file Signal Path Designer
    Text:  TECHNICAL NOTE TN–02 BUILD A 20 MIP DATA PROCESSING UNIT Integrated Device Technology, Inc. by Michael J. Miller INTRODUCTION BALANCED PATHS With the latest generation of CMOS devices from IDT, it is now possible for a user to design a data processing unit that


    Original     		PDF IDT74FCT374A IDT49C410A IDT49C402A IDT6167A transistor f151 control process block diagram IDT49C402A 74F151 F151 IDT74FCT374A IDT49C402 register file Signal Path Designer

    harvard architecture block diagram

    Abstract: multiplexor 74151 74151 mux circuit diagram of MUX 74151 MUX 74151 74151 datasheet 49C402 IDT49C402 IDT49C402A IDT74FCT161
    Text: APPLICATION NOTE AN-09 DUAL-PORT SRAMs YIELD BIT-SLICE DESIGNS WITHOUT MICROCODE By David C. Wyland Abstract Bit-Slice Versus RISC Architectrues High-performance controller designs use bit-slice components for their speed and design flexibility. Speeds of 10-20 million instructions per


    Original     		PDF AN-09 harvard architecture block diagram multiplexor 74151 74151 mux circuit diagram of MUX 74151 MUX 74151 74151 datasheet 49C402 IDT49C402 IDT49C402A IDT74FCT161

    49C402

    Abstract: 74151 mux ALU 74151 IDT49C402 MUX 74151 AN-09 basic block diagram of bit slice processors bit slice processors circuit diagram of MUX 74151 datasheet of MUX 74151
    Text: DUAL-PORT SRAMs YIELD BIT-SLICE DESIGNS WITHOUT MICROCODE APPLICATION NOTE AN-09 Integrated Device Technology, Inc. By David C. Wyland ABSTRACT High-performance controller designs use bit-slice components for their speed and design flexibility. Speeds of 1020 million instructions per second MIPS are common and


    Original     		PDF AN-09 49C402 74151 mux ALU 74151 IDT49C402 MUX 74151 AN-09 basic block diagram of bit slice processors bit slice processors circuit diagram of MUX 74151 datasheet of MUX 74151

    MUX 74151

    Abstract: 49C402 IDT49C402 bit-slice 74151 mux IDT49C402A IDT74FCT161 IDT74FCT273 of MUX 74151
    Text: APPLICATION NOTE AN-09 DUAL-PORT SRAMs YIELD BIT-SLICE DESIGNS WITHOUT MICROCODE By David C. Wyland Abstract Bit-Slice Versus RISC Architectrues High-performance controller designs use bit-slice components for their speed and design flexibility. Speeds of 10-20 million instructions per


    Original     		PDF AN-09 MUX 74151 49C402 IDT49C402 bit-slice 74151 mux IDT49C402A IDT74FCT161 IDT74FCT273 of MUX 74151

    Untitled

    Abstract: No abstract text available
    Text: IDT49C402 IDT49C402A IDT49C402B 16-BIT CMOS MICROPROCESSOR SLICE Integrated Device Technology, Inc. FEATURES: • Functionally equivalent to four 2901s and one 2902 • IDT49C402B is 60% faster than four 2901 Cs and one 2902A • Expanded tw o-address architecture with independent, si­


    OCR Scan     		PDF IDT49C402 IDT49C402A IDT49C402B 16-BIT 2901s IDT49C402B IDT49C402s IDT49C402/A/B MIL-STD-883,

    IDT49C402A

    Abstract: idt49C402
    Text: 16-BIT CM OS M ICRO PRO CESSO R SLICE FEATURES: IDT49C402 IDT49C402A IDT49C402B The IDT49C402S include all of the normal functions associated with standard 2901 bit-slice operation: a a 3-bit instruction field lo, H, |2 ) which controls the source operand


    OCR Scan     		PDF 16-BIT IDT49C402 IDT49C402A IDT49C402B IDT49C402S IDT49C402/A/B MIL-STD-883, 49C402 IDT49C402A idt49C402

    Untitled

    Abstract: No abstract text available
    Text: INTEGRATE] DEVIC E 5ÖE D 402 577 1 001 0 04 4 WÊ 457 • IDT IDT49C402 IDT49C402A IDT49C402B 16-BIT CMOS M ICROPROCESSOR SLICE - T FEATURES: The IDT49C402s include all of the normal functions associated with standard 2901 bit-slice operation: a) a 3-bit


    OCR Scan     		PDF IDT49C402 IDT49C402A IDT49C402B 16-BIT IDT49C402s

    Untitled

    Abstract: No abstract text available
    Text: IDT49C402 IDT49C402A IDT49C402B 16-BIT CMOS MICROPROCESSOR SLICE Integrated Device Technology, Inc. FEATURES: The IDT49C402s include all of the normal functions associated with standard 2901 bit-slice operation: a a 3-bit instruction field lo, l i , l2 ) which controls the source operand


    OCR Scan     		PDF IDT49C402 IDT49C402A IDT49C402B 16-BIT IDT49C402s

    Untitled

    Abstract: No abstract text available
    Text: 16-BIT CMOS MICROPROCESSOR SLICE IDT49C402 IDT49C402A IDT49C402B Integrated Device Technology, Inc. The IDT49C402S include all of the normal functions associated with standard 2901 bit-slice operation: a a 3-bit instruction field lo, h , |2 ) which controls the source operand


    OCR Scan     		PDF 16-BIT IDT49C402 IDT49C402A IDT49C402B IDT49C402S

    Untitled

    Abstract: No abstract text available
    Text: INTEGRATED DEVICE 3ÖE D • 4825771 D0D4T52 IIDT 4 :_— r~H9~ 17 ->s[ 16-BIT CMOS MICROPROCESSOR SLICE IDT49C402. IDT49C402A IDT49C402B In te g ra te d D evice T ech n o lo g y , Inc. FEATURES: • Functionally equivalent to four 2 9 01s and one 29 02


    OCR Scan     		PDF D0D4T52 16-BIT IDT49C402. IDT49C402A IDT49C402B IDT49C402/A/B SS771

    Untitled

    Abstract: No abstract text available
    Text: 16-BIT CMOS MICROPROCESSOR SLICE IDT49C402 id t 49C402A Inte3rated Device T e c h n o k ^ y Inc MIC R OSLICE PR OD UC T FEATURES: DESCRIPTION: • Functionally equivalent to four 2901s and one 2902 • ID T49C402A 4 5 % faster than four 2901s and one 2902A


    OCR Scan     		PDF 16-BIT IDT49C402 49C402A 2901s T49C402A IDT49C402S IL-STD-883,

    49c402

    Abstract: IDT49C402 IDT49C402B 2901c IDT 49C402 IDT49C402A 198S ore32 E3235 49c402a
    Text: INTEGRATED DEVICE - V - - • I ME : ÊT D • 4Ö25771 . •- - •. 16-BIT CMOS MICROPROCESSOR SLICE Integrated DeviceTechnofogy Inc. Q0GBflti7 Ô t.r, -". , IDT 49C402 IDT 49C402A IDT 49C402B M IC R O S U C E P R O D U C T DESCRIPTION: FEATURES:


    OCR Scan     		PDF 2S771 16-BIT 49C402 49C402A 49C402B 2901s IDT49C402B 68-pin 29010s IDT49C402 IDT49C402 2901c IDT 49C402 IDT49C402A 198S ore32 E3235