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    DOUBLE THROUGH PUT MULTIPLY ACCUMULATE Search Results

    DOUBLE THROUGH PUT MULTIPLY ACCUMULATE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TPD4164K Toshiba Electronic Devices & Storage Corporation Intelligent power device / VBB=600V / Iout=2A/ Through hole type / HDIP30 Visit Toshiba Electronic Devices & Storage Corporation
    TPD4163K Toshiba Electronic Devices & Storage Corporation Intelligent power device / VBB=600V / Iout=1A/ Through hole type / HDIP30 Visit Toshiba Electronic Devices & Storage Corporation
    NFM15PC755R0G3D Murata Manufacturing Co Ltd Feed Through Capacitor, Visit Murata Manufacturing Co Ltd
    NFM15PC435R0G3D Murata Manufacturing Co Ltd Feed Through Capacitor, Visit Murata Manufacturing Co Ltd
    NFM15PC915R0G3D Murata Manufacturing Co Ltd Feed Through Capacitor, Visit Murata Manufacturing Co Ltd

    DOUBLE THROUGH PUT MULTIPLY ACCUMULATE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    STR G 6351

    Abstract: db16cyc cell broadband TH1000 TH1010 sfh 6176 CBEA
    Text: C/C+ Language Extensions for Cell Broadband Engine Architecture Version 2.6 CBEA JSRE Series Cell Broadband Engine Architecture Joint Software Reference Environment Series August 25, 2008 Copyright International Business Machines Corporation, Sony Computer Entertainment Incorporated, Toshiba


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    Untitled

    Abstract: No abstract text available
    Text: Application Note 601 Accelerating 16/32-Bit Math Operations with the DS80C390 www.maxim-ic.com OVERVIEW Performance advances in the 8051 microcontroller market have increasingly led users to consider 8-bit devices in applications that once required processing power only available from 16-bit devices. Some of


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    PDF 16/32-Bit DS80C390 16-bit DS80C390 40MHz AN601 40Mhz

    AN601

    Abstract: DIV32 DS80C390 IEEE754
    Text: Application Note 601 Accelerating 16/32-Bit Math Operations with the DS80C390 www.maxim-ic.com OVERVIEW Performance advances in the 8051 microcontroller market have increasingly led users to consider 8-bit devices in applications that once required processing power only available from 16-bit devices. Some of


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    PDF 16/32-Bit DS80C390 16-bit DS80C390 40Mov 40Mhz AN601 DIV32 IEEE754

    no44

    Abstract: R2000 mips R5000 mips RC32300 uPD72001 RC3000A 72001 MIPS R2000 cache MIPS r3000 MIPS R4000
    Text:            Version 3.0 December 1998 2975 Stender Way, Santa Clara, California 95054 Telephone: 800 345-7015 • TWX: 910-338-2070 • FAX: (408) 492-8674 Printed in U.S.A. 1998 Integrated Device Technology, Inc.


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    PDF RC36100 RC4600/RC4700/RC32364/RC5000 RC4600/RC4700 RC4600/RC4700/RC5000 no44 R2000 mips R5000 mips RC32300 uPD72001 RC3000A 72001 MIPS R2000 cache MIPS r3000 MIPS R4000

    DIV32

    Abstract: AF53 DS80C390 DS80C400
    Text: Maxim > App Notes > MICROCONTROLLERS Keywords: high speed microcontroller, DS80C390, DS80C400, CAN, controller area network, math accelerator, math acceleration, 16-bit math, special function registers, SFR, 16-bit multiply, 32-bit divide, code example, Dallas Semiconductor, microcontrollers


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    PDF DS80C390, DS80C400, 16-bit 32-bit 16/32-Bit DS80C390/ DS80C400 DS80C390/DS80C400 DIV32 AF53 DS80C390 DS80C400

    double through put multiply accumulate

    Abstract: arithmetic logic unit datasheet 8 BIT ALU Dynamic arithmetic shift DSP56K "saturation arithmetic"
    Text: SECTION 3 DATA ARITHMETIC LOGIC UNIT MOTOROLA DATA ARITHMETIC LOGIC UNIT 3-1 SECTION CONTENTS SECTION 3.1 DATA ARITHMETIC LOGIC UNIT . 3 SECTION 3.2 OVERVIEW AND DATA ALU ARCHITECTURE . 3 3.2.1 Data ALU Input Registers X1, X0, Y1, Y0 . 5


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    PDF 24-bit 56-bit double through put multiply accumulate arithmetic logic unit datasheet 8 BIT ALU Dynamic arithmetic shift DSP56K "saturation arithmetic"

    Architecture of TMS320C54X with diagram

    Abstract: TMS320C54X addressing modes with examples TMS320C54X addressing modes Architecture and features of TMS320C54X block diagram of of TMS320C54X Architecture of TMS320C54X dsp processor Architecture of TMS320C54X down features of tms320c54x dsp processor Architecture of TMS320C54X Instructions of TMS320C54X
    Text: TMS320C54x DSP Programming Environment APPLICATION BRIEF: SPRA182 M. Tim Grady Senior Member, Technical Staff Texas Instruments April 1997 IMPORTANT NOTICE Texas Instruments TI reserves the right to make changes to its products or to discontinue any semiconductor


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    PDF TMS320C54x SPRA182 Architecture of TMS320C54X with diagram TMS320C54X addressing modes with examples TMS320C54X addressing modes Architecture and features of TMS320C54X block diagram of of TMS320C54X Architecture of TMS320C54X dsp processor Architecture of TMS320C54X down features of tms320c54x dsp processor Architecture of TMS320C54X Instructions of TMS320C54X

    dsp processor Architecture of TMS320C54X

    Abstract: Architecture of TMS320C54X with diagram Architecture of TMS320C54X Architecture and features of TMS320C54X dsp processor Architecture of TMS320C54X down block diagram of of TMS320C54X TMS320C54X addressing modes features of tms320c54x TMS320C54X addressing modes with examples TMS320C54x family
    Text: TMS320C54x DSP Programming Environment APPLICATION BRIEF: SPRA182 M. Tim Grady Senior Member, Technical Staff Texas Instruments April 1997 IMPORTANT NOTICE Texas Instruments TI reserves the right to make changes to its products or to discontinue any semiconductor product or service without notice, and advises its customers to obtain the latest version of


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    PDF TMS320C54x SPRA182 dsp processor Architecture of TMS320C54X Architecture of TMS320C54X with diagram Architecture of TMS320C54X Architecture and features of TMS320C54X dsp processor Architecture of TMS320C54X down block diagram of of TMS320C54X TMS320C54X addressing modes features of tms320c54x TMS320C54X addressing modes with examples TMS320C54x family

    EE-149

    Abstract: fract32 fract16
    Text: Engineer To Engineer Note a EE-149 Technical Notes on using Analog Devices' DSP components and development tools Contact our technical support by phone: 800 ANALOG-D or e-mail: [email protected] Or visit our on-line resources http://www.analog.com/dsp and http://www.analog.com/dsp/EZAnswers


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    PDF EE-149 EE-149) EE-149 fract32 fract16

    EE-149

    Abstract: No abstract text available
    Text: a Engineer To Engineer Note EE-149 Technical Notes on using Analog Devices’ DSP components and development tools Phone: 800 ANALOG-D, FAX: (781) 461-3010, EMAIL: [email protected], FTP: ftp.analog.com, WEB: www.analog.com/dsp Tuning C Source Code for the Blackfin


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    PDF EE-149 16-bit EE-149

    DSP56300

    Abstract: No abstract text available
    Text: 3 3.1 DATA ARITHMETIC LOGIC UNIT DATA ALU ARCHITECTURE The Data ALU see Figure 3-1 performs all the arithmetic and logical operations on data operands in the DSP56300 Core. The Data ALU registers may be read or written over the XDB and the YDB as 24- or 48bit operands. The source operands for the Data ALU, which may be 24, 48, or 56 bits,


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    PDF DSP56300 48bit

    uPD72001 users manual

    Abstract: 32 bit mips processor MIPS R3000A uPD72001 manual mips r4000 IDT79R3041 PDP-11 disassembler R5000 mips R2000 mips processor R2000 mips
    Text: Integrated Device Technology, Inc. IDT MIPS Microprocessor Family Software Reference Manual Version 2.0 October 1996 2975 Stender Way, Santa Clara, California 95054 Telephone: 800 345-7015 • TWX: 910-338-2070 • FAX: (408) 492-8674 Printed in U.S.A. 1996 Integrated Device Technology, Inc.


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    PDF 2e101 2e-15 uPD72001 users manual 32 bit mips processor MIPS R3000A uPD72001 manual mips r4000 IDT79R3041 PDP-11 disassembler R5000 mips R2000 mips processor R2000 mips

    ARM946E-S

    Abstract: ARM v5te ARM946E-STM ARMv5TE ARM5 ARMv5TE instruction set ARM processor Armv4 ARM7 instruction set MRC 425 CP15
    Text: ARM946E-S Rev1 System-on-Chip DSP enhanced processor Product Overview Applications The ARM946E-S • The ARM946E-S™ is a synthesizable macrocell combining an ARM9E-S™ processor core with instruction and data caches, tightly-coupled instruction


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    PDF ARM946E-S ARM946E-STM ARM946E-STM 32-bit ARM946E-S ARM v5te ARMv5TE ARM5 ARMv5TE instruction set ARM processor Armv4 ARM7 instruction set MRC 425 CP15

    WB mark Diode

    Abstract: ASM30 pic30-gcc SIM30 WM Mark code pic30-as pic30-ar pic30 data sheet pic30-lm pic30-bin2hex
    Text: dsPIC30F Language Tools Quick Reference Card ASM30 MPLAB ASM30 Assembler Assembler Command Line Options pic30-as [options|sourcefiles]. Listing Output Option Description The -a option supports the following suboptions: Omit false conditionals Omit debugging directives


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    PDF dsPIC30F ASM30 ASM30 pic30-as 0x2800 0x8001 0x8000 0x2801 0x17FF 0x27FF WB mark Diode pic30-gcc SIM30 WM Mark code pic30-as pic30-ar pic30 data sheet pic30-lm pic30-bin2hex

    ASM30

    Abstract: SIM30 LINK30 pic30-lm
    Text: dsPIC30F Language Tools Quick Reference Card ASM30 MPLAB ASM30 Assembler Assembler Command Line Options pic30-as [options|sourcefiles]. Listing Output Option Description The -a option supports the following suboptions: Omit false conditionals Omit debugging directives


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    PDF dsPIC30F ASM30 ASM30 pic30-as 0x2800 0x8001 0x8000 0x2801 0x17FF 0x27FF SIM30 LINK30 pic30-lm

    ARM10TDMI

    Abstract: ARMv5T ARM9 instruction set VFP10 ARM processor Armv4 ARMv4 reference ARM1020T applications of ARM10TDMI processor ARM bus ARM7 instruction set
    Text: ARM10 Thumb®Family 300MHz low-power system-on-a-chip processor solutions delivered at a consumer price point Product Overview Applications • • Next-generation hand-held products: - Communicators - Smartphones - Subnotebook computers Digital consumer


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    PDF ARM10 300MHz ARM10TDMI ARMv5T ARM9 instruction set VFP10 ARM processor Armv4 ARMv4 reference ARM1020T applications of ARM10TDMI processor ARM bus ARM7 instruction set

    PIC16C738

    Abstract: LM324 IC KD 2107 6 PIN DC MOTOR SPEED CONTROL USING lm324 AN525 AN538 AN546 AN616 PIC16C54 PIC16C6X
    Text: AN616 Digital Signal Processing with the PIC16C74 Author: output sample, y n , is then converted back into the continuous-time signal, y(t), by the D/A converter and output low-pass filter. Darius Mostowfi Design Consultant The calculation of the output signal using a difference


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    PDF AN616 PIC16C74 DS00616A-page PIC16C738 LM324 IC KD 2107 6 PIN DC MOTOR SPEED CONTROL USING lm324 AN525 AN538 AN546 AN616 PIC16C54 PIC16C6X

    DSP48E1

    Abstract: XC6SLX16-2 XC7V585T-1 xilinx vhdl code for floating point square root fpga 4062 XC6SLX16 FIT rate vhdl code of 32bit floating point adder xilinx vhdl code for floating point square root o XC6VLX75-1 UG812
    Text: LogiCORE IP Floating-Point Operator v6.0 DS816 January 18, 2012 Product Specification Introduction LogiCORE IP Facts Table The Xilinx Floating-Point Operator core provides designers with the means to perform floating-point arithmetic on an FPGA device. The core can be customized for operation, wordlength, latency and interface.


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    PDF DS816 ZynqTM-7000, DSP48E1 XC6SLX16-2 XC7V585T-1 xilinx vhdl code for floating point square root fpga 4062 XC6SLX16 FIT rate vhdl code of 32bit floating point adder xilinx vhdl code for floating point square root o XC6VLX75-1 UG812

    weitek

    Abstract: weitek 1167
    Text: WEITEK Á WTL1164/WTL1165 64-BIT IEEE FLOATING POINT MULTIPLIER/ DIVIDER AND ALU a PRELIMINARY DATA Ju ly 1986 T h e W T L 1164 F lo a tin g P o in t M u ltip lie r and the W T L 1165 F lo a t­ in g P o in t A L U a re o p tim iz e d f o r flo a tin g p o int c o p ro c e s s o r a p p lic a ­


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    PDF WTL1164/WTL1165 64-BIT weitek weitek 1167

    weitek

    Abstract: ncl051 WTL1165-060-GC 80386 microprocessor pin out diagram floating point handling LT 5251 1N3062 68-PIN WTL1163 1164-060
    Text: WTL 1164/WTL 1165 64-BIT IEEE FLOATING POINT MULTIPLIER/ DIVIDER AND ALU PRELIMINARY DATA Features A COMPLETE FLOATING POINT ARITHMETIC SOLUTION FOR HIGH-SPEED PROCESSORS AND COPROCESSORS FULL 32-BIT AND 64-BIT FLOATING POINT FORMAT AN D OPERATIONS, CONFORMING TO


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    PDF 1164/WTL 64-BIT 32-BIT weitek ncl051 WTL1165-060-GC 80386 microprocessor pin out diagram floating point handling LT 5251 1N3062 68-PIN WTL1163 1164-060

    16 bit multiplier

    Abstract: No abstract text available
    Text: i ß '-!Pr ^ ¡O - L1010 HIGH SPEED 16 X 16-BIT CMOS MULTIPLIER/ACCUMULATOR ¡ o £ u i '& H L . p ^ :X ' , ' T kO A ‘ ex. ' ce FUNCTIONAL BLOCK DIAGRAM FEATURES ^ 1 6 x 1 6 M ULTIPLIER/ACCUMULATOR WITH X TC 2 r o RND DOUBLE PRECISION PRODUCT HIGH SPEED M ULTIPLY — ACCUMULATE


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    PDF L1010 16-BIT 35-BIT 1010J, 16 bit multiplier

    Untitled

    Abstract: No abstract text available
    Text: W4164 FLOATING-POINT PROCESSOR ADVANCE DATA July 1991 Chapter 1. Technical Overview 1.1. Features 64-BIT F L O A T IN G -PO IN T PROCESSO R H IG H -P E R F O R M A N C E A R C H IT E C T U R E Independent single- or double-precision floating-point ALU and multiplier/divider


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    PDF W4164 64-BIT 50-MHz 20-ns 64-word 32-bit W4164

    st Z321

    Abstract: B2011 acc 5w amp TLS14 TMS9
    Text: 3 îf& . TTLi*xi*«r B2011 Fixed-Point M ultiplier-Accum ulator •FEATURES »DESCRIPTION ■ 1 1 ns nominal clocked multiply-accumulate time ■ D ual 40 -b it accumulators and dual input registers for complex arithmetic and double precision pipelines ■ Full 4 0 -b it parallel output or multiplexed 16-bit


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    PDF 16x16 B2011 40-bit 16-bit accu00 B2011 st Z321 acc 5w amp TLS14 TMS9

    Untitled

    Abstract: No abstract text available
    Text: ADSP-8110/ADSP-3120 ADSP-7110/ADSP-7120 ANALOG ► DEVICES Floating Point Chip Set April, 1987 I FEATURES • Complete floating point and integer processor chip set supports the ANSI/IEEE STD.754and DEC F&G formats ■ Four data formats 64-bit floating point


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    PDF ADSP-8110/ADSP-3120 ADSP-7110/ADSP-7120 754and 64-bit 32-bit -8120JG ADSP-7110JG ADSP-7120JG