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    BLOCK FLOATING POINT IMPLEMENTATION Search Results

    BLOCK FLOATING POINT IMPLEMENTATION Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM4GQF15FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP144-2020-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4GRF20FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP176-2020-0.40-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4KMFWAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4MMFWAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4NQF10FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP144-2020-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation

    BLOCK FLOATING POINT IMPLEMENTATION Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Block Floating Point Implementation

    Abstract: tms320c54x floating point processor a 69258 specifications block diagram of of TMS320C54X radix-4 DIT FFT C code 0C72 SPRA610 n5 st pt 2245 ym 238
    Text: Application Report SPRA610 - December 1999 A Block Floating Point Implementation on the TMS320C54x DSP Arun Chhabra and Ramesh Iyer Digital Signal Processing Solutions ABSTRACT Block floating-point BFP implementation provides an innovative method of floating-point


    Original     		PDF SPRA610 TMS320C54x Block Floating Point Implementation tms320c54x floating point processor a 69258 specifications block diagram of of TMS320C54X radix-4 DIT FFT C code 0C72 n5 st pt 2245 ym 238

    fft algorithm

    Abstract: 8point fft matlab fft implementation on tms320c55x Block Floating Point Implementation SPRA948 cfft32 radix-2 TMS320C55X TMS320C5000 5.1 audio processor using matlab
    Text: Application Report SPRA948 − September 2003 A Block Floating Point Implementation for an N-Point FFT on the TMS320C55x DSP David Elam and Cesar Iovescu TMS320C5000 Software Applications ABSTRACT A block floating-point BFP implementation provides an innovative method of floating-point


    Original     		PDF SPRA948 TMS320C55x TMS320C5000 TMS320C55x fft algorithm 8point fft matlab fft implementation on tms320c55x Block Floating Point Implementation cfft32 radix-2 5.1 audio processor using matlab

    16 point bfp fft verilog code

    Abstract: verilog code for single precision floating point multiplication IFFT verilog code for FFT 16 point verilog code for floating point adder VERILOG code for FFT 1024 point how to test fft megacore verilog code for FFT 256 point verilog code radix 4 multiplication verilog code for 64 point fft
    Text: FFT/IFFT Block Floating Point Scaling Application Note 404 October 2005, ver. 1.0 Introduction The Altera FFT MegaCore® function uses block-floating-point BFP arithmetic internally to perform calculations. BFP architecture is a trade-off between fixed-point and full floating-point architecture.


    Original     		PDF

    3B DAV

    Abstract: PDSP16256 PDSP16330 PDSP16350 PDSP16510 PDSP16510A PDSP16540
    Text: PDSP16510A PDSP16510A Stand Alone FFT Processor DS3475 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3475 PDSP16510 3B DAV PDSP16256 PDSP16330 PDSP16350 PDSP16510A PDSP16540

    3B DAV

    Abstract: dav datasheet PDSP16256 PDSP16330 PDSP16350 PDSP16510 PDSP16510A PDSP16540
    Text: PDSP16510A PDSP16510A Stand Alone FFT Processor DS3475 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3475 PDSP16510 3B DAV dav datasheet PDSP16256 PDSP16330 PDSP16350 PDSP16510A PDSP16540

    3B DAV

    Abstract: PDSP16256 PDSP16330 PDSP16350 PDSP16510 PDSP16510A PDSP16540
    Text: PDSP16510A PDSP16510A Stand Alone FFT Processor DS3475 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3475 PDSP16510 3B DAV PDSP16256 PDSP16330 PDSP16350 PDSP16510A PDSP16540

    ORELA 4500

    Abstract: toccata WOLA adaptive reference wola WDRC WOLA reference 4500 Series
    Text: AND8384/D Using Block Floating-Point in the WOLA Filterbank Coprocessor http://onsemi.com APPLICATION NOTE WOLA_Start macro, specifying the desired function as a parameter 0 for analysis, 1 for gain application and 2 for synthesis . Consequently, only a “start” macro execution is


    Original     		PDF AND8384/D ORELA 4500 toccata WOLA adaptive reference wola WDRC WOLA reference 4500 Series

    3B DAV

    Abstract: PDSP16256 PDSP16330 PDSP16350 PDSP16510 PDSP16510A PDSP16540
    Text: PDSP16510A PDSP16510A Stand Alone FFT Processor DS3475 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3475 PDSP16510 3B DAV PDSP16256 PDSP16330 PDSP16350 PDSP16510A PDSP16540

    PDSP16330

    Abstract: PDSP16510 PDSP16510A
    Text: PDSP16510A MA PDSP16510A MA Stand Alone FFT Processor Advance Information DS3762 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3762 PDSP16510 PDSP16330

    3B DAV

    Abstract: PDSP16510 timing PDSP16330 PDSP16510 PDSP16510A
    Text: PDSP16510A MA PDSP16510A MA Stand Alone FFT Processor Advance Information DS3762 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3762 PDSP16510 3B DAV PDSP16510 timing PDSP16330

    PDSP16330

    Abstract: PDSP16510 PDSP16510A DIS1024S
    Text: PDSP16510A MA PDSP16510A MA Stand Alone FFT Processor Advance Information DS3762 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3762 PDSP16510 PDSP16330 DIS1024S

    3B DAV

    Abstract: PDSP16330 PDSP16510 PDSP16510A
    Text: PDSP16510A MA PDSP16510A MA Stand Alone FFT Processor Advance Information DS3762 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3762 PDSP16510 3B DAV PDSP16330

    Untitled

    Abstract: No abstract text available
    Text: PDSP16510A MA PDSP16510A MA Stand Alone FFT Processor Advance Information DS3762 The PDSP16510 performs Forward or Inverse Fast Fourier Transforms on complex or real data sets containing up to 1024 points. Data and coefficients are each represented by 16 bits, with block floating point arithmetic for increased


    Original     		PDF PDSP16510A DS3762 PDSP16510

    BUTTERFLY DSP

    Abstract: WI13 IC5-H10 dar5 AN59 PDSP1601 PDSP16116 PDSP16116A PDSP16318 BR13
    Text: AN59 A High Resolution FFT Processor Application Note AN59 ISSUE 2.0 July 1993 The PDSP16116A has been designed with an integral Block Floating Point system which can be used, in conjunction with other Zarlink Semiconductor PDSP parts, to process FFTs with a combination of speed and accuracy previously unobtainable. All the


    Original     		PDF PDSP16116A 20MHz 259us 118us BUTTERFLY DSP WI13 IC5-H10 dar5 AN59 PDSP1601 PDSP16116 PDSP16318 BR13

    AN59

    Abstract: PDSP1601 PDSP16116 PDSP16116A PDSP16318 Application of dsp in sonar for m.sc i-C4H10
    Text: AN59 A High Resolution FFT Processor Application Note AN59 ISSUE 2.0 July 1993 The PDSP16116A has been designed with an integral Block Floating Point system which can be used, in conjunction with other Zarlink Semiconductor PDSP parts, to process FFTs with a combination of speed and accuracy previously unobtainable. All the


    Original     		PDF PDSP16116A 20MHz 259us 118us AN59 PDSP1601 PDSP16116 PDSP16318 Application of dsp in sonar for m.sc i-C4H10

    300-900MHz

    Abstract: sparc v8
    Text: TurboSPARC Highly Integrated 32-bit RISC Microprocessor DATASHEET NOVEMBER 1996 • The Fujitsu TurboSPARC Microprocessor is a high frequency, highly integrated single-chip CPU providing balanced integer and floating point performance. The TurboSPARC microprocessor is an implementation of the SPARC


    Original     		PDF 32-bit 300-900MHz sparc v8

    NVIDIA 8800

    Abstract: 8800 gtx XD2000i 42U Rack 256k gflops nvidia chip EP3S260 AMD OPTERON QUAD-CORE Nvidia GTX nVidia
    Text: White Paper FPGA Coprocessing Evolution: Sustained Performance Approaches Peak Performance FPGA architecture allows for many algorithm implementations where the sustained performance is much closer to the device’s peak performance when compared to quad-core CPUs or GPGPUs. The strong benchmarking results


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    2N3094 transistor

    Abstract: 2N3094 transistor diagram driver circuit for irs 2110 2N3094 equivalent TRANSISTOR 2N3094 2N3094 PD60276 2N3094 transistor on 1N4002 2N3906
    Text: Data Sheet No. PD60276 IRS20954S Protected Digital Audio Driver Features • • • • • • • • Product Summary Floating PWM input enables easy half bridge implementation Integrated programmable bi-directional over-current protection with self-reset function


    Original     		PDF PD60276 IRS20954S IRS20954 16-Lead IRS20954SPbF IRS20954STRPbF SO-16 2N3094 transistor 2N3094 transistor diagram driver circuit for irs 2110 2N3094 equivalent TRANSISTOR 2N3094 2N3094 PD60276 2N3094 transistor on 1N4002 2N3906

    TRANSISTOR 2N3094

    Abstract: 2N3094 transistor transistor 13001 TO 92 2N3094 IRS20955 2N3094 transistor diagram IRS20954SPBF BJT with V-I characteristics high voltage diodes mofet equivalents
    Text: Data Sheet No. PD60276 Not recommended for new designs. Please use IRS20955. IRS20954SPBF Protected Digital Audio Driver Features • • • • • • • • Product Summary Floating PWM input enables easy half bridge implementation Integrated programmable bi-directional over-current


    Original     		PDF PD60276 IRS20955. IRS20954SPBF 16-Lead IRS20954STRPbF SO-16 TRANSISTOR 2N3094 2N3094 transistor transistor 13001 TO 92 2N3094 IRS20955 2N3094 transistor diagram IRS20954SPBF BJT with V-I characteristics high voltage diodes mofet equivalents

    TRANSISTOR 2N3094

    Abstract: 2n3094 transistor 2N3094 transistor diagram 2N3094 diode zener 1n4002 driver circuit for irs 2110 2N3094 equivalent 13001 TRANSISTOR ZENER DIODE bjt high voltage
    Text: Data Sheet No. PD60276 IRS20954S Protected Digital Audio Driver Features • • • • • • • Product Summary Floating PWM input enables easy half bridge implementation Integrated programmable bi-directional over-current protection with self-reset function


    Original     		PDF PD60276 IRS20954S IRS20954 16-Lead IRS20954SPbF IRS20954STRPbF SO-16 TRANSISTOR 2N3094 2n3094 transistor 2N3094 transistor diagram 2N3094 diode zener 1n4002 driver circuit for irs 2110 2N3094 equivalent 13001 TRANSISTOR ZENER DIODE bjt high voltage

    Untitled

    Abstract: No abstract text available
    Text: 32/40-Bit IEEE Floating-Point DSP Microprocessor ADSP-21020 ANALOG DEVICES FUNCTIONAL BLOCK DIAGRAM FEATURES Superscalar IEEE Floating-Point Processor Off-Chip Harvard Architecture Maxim izes Signal Processing Performance 30 ns, 33.3 MIPS Instruction Rate, Single-Cycle


    OCR Scan     		PDF 32/40-Bit ADSP-21020 1024-Point 32-Bit 40-Bit 80-Bit 223-Lead

    PMD4m

    Abstract: pmd23 A0335 G03327 ADSP-21020 ADSP-2100 ADSP-21000 TSW161 PMD24 PMD32
    Text: . ANALOG DEVICES INC OßlbBOO 0033252 5 I ¡ANA 4LE ]> -r-V9-/z-û<? IEEE Floating-Point DSP Microprocessor ANALOG DEVICES FUNCTIONAL BLOCK DIAGRAM FEATURES Superscalar IEEE Floating-Point Processor Off-Chip Harvard Architecture Maximizes Signal Processing Performance


    OCR Scan     		PDF G0332S2 1024-Point 32-Bit 40-Bit 80-Bit ADSP-21020KG-80 223-Lead ADSP-21020KG-60 PMD4m pmd23 A0335 G03327 ADSP-21020 ADSP-2100 ADSP-21000 TSW161 PMD24 PMD32

    nec v70

    Abstract: NEC V60 NEC V20 hardware nec v30 PD70632 nec v20 32-bit microprocessor pipeline architecture 4 BIT ALU IC IEEE754 8 BIT ALU design by cmos
    Text: N E C ELECTRONICS INC 3QE D • b42?S25 002532b T ■ ¿/PD70632 V 70 3 2 -B it, High-lntegration CM OS M icroprocessor Z V liC . NEC Electronics Inc. Description Features The ixPD70632 (V70'") is the second implementation of NEC’s 32-bit V-Serles architecture. Like its predecessor,


    OCR Scan     		PDF 002532b uPD70632 ixPD70632 32-bit nPD70616 V60TM) Incream27525 0G25327 nec v70 NEC V60 NEC V20 hardware nec v30 PD70632 nec v20 32-bit microprocessor pipeline architecture 4 BIT ALU IC IEEE754 8 BIT ALU design by cmos

    upd70632

    Abstract: NEC V60 PD70616 NEC V20 hardware design and implementation of 32 bit floating point 132-PIN barrel shifter 32-bit implementation nec v70
    Text: N E C ELECTRONICS INC 30E D • bM27S25 002532b T ■ NEC //PD70632 V70 32-Bit, High-lntegration C M O S Microprocessor NEC Electronics Inc. r-H V iV -ja Description Features The |a P D 70632 (V 7 0 '") is the second implementation of N E C 's 32-bit V-Se rie s architecture. Like its predecessor,


    OCR Scan     		PDF bM27S25 002532b uPD70632 32-Bit, 32-bit 21-byte 18-bit 64-bit //PD70632 NEC V60 PD70616 NEC V20 hardware design and implementation of 32 bit floating point 132-PIN barrel shifter 32-bit implementation nec v70