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    TWO BUTTERFLIES Search Results

    TWO BUTTERFLIES Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    LM103H-3.3/883 Rochester Electronics LLC Two Terminal Voltage Reference Visit Rochester Electronics LLC Buy
    LM103H-3.3 Rochester Electronics LLC Two Terminal Voltage Reference, 1 Output, 3.3V, BIPolar, MBCY2, HERMETIC SEALED, TO-46, METAL, CAN-2 Visit Rochester Electronics LLC Buy
    74FST3861Q Renesas Electronics Corporation 10-BIT, TWO PORT BUS/SWT Visit Renesas Electronics Corporation
    74FST3861P Renesas Electronics Corporation 10-BIT, TWO PORT BUS/SWT Visit Renesas Electronics Corporation
    74FST3861PG Renesas Electronics Corporation 10-BIT, TWO PORT BUS/SWT Visit Renesas Electronics Corporation

    TWO BUTTERFLIES Datasheets Context Search

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    radix-2 dit fft flow chart

    Abstract: 16 point DIF FFT using radix 4 fft 16 point DIF FFT using radix 2 fft 8 point fft radix-2 DIT FFT C code radix-2 Butterfly two butterflies ADSP-2100
    Text: 6 One-Dimensional FFTs 6.2.3 Radix-2 Decimation-In-Frequency FFT Algorithm In the DIT FFT, each decimation consists of two steps. First, a DFT equation is expressed as the sum of two DFTs, one of even samples and one of odd samples. This equation is then divided into two equations, one


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    PDF 10-bit radix-2 dit fft flow chart 16 point DIF FFT using radix 4 fft 16 point DIF FFT using radix 2 fft 8 point fft radix-2 DIT FFT C code radix-2 Butterfly two butterflies ADSP-2100

    YR13

    Abstract: PDSP16116
    Text: PDSP16116 16 X 16 Bit Complex Multiplier DS3707 The PDSP16116 contains four 16316 array multipliers, two 32-bit adder/subtractors and all the control logic required to support Block Floating Point Arithmetic as used in FFT applications. The PDSP16116A variant will multiply two complex 16116


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    PDF PDSP16116 DS3707 PDSP16116 32-bit PDSP16116A PDSP16318A, 20MHz 20-bit YR13

    FULL SUBTRACTOR using 41 MUX

    Abstract: PDSP16318A MIL-883 PDSP16116 PDSP16116A 32 bit barrel shifter circuit diagram using mux DIODE bfp 86 GC144 YR13
    Text: PDSP16116 16 X 16 Bit Complex Multiplier DS3707 The PDSP16116 contains four 16316 array multipliers, two 32-bit adder/subtractors and all the control logic required to support Block Floating Point Arithmetic as used in FFT applications. The PDSP16116A variant will multiply two complex 16116


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    PDF PDSP16116 DS3707 PDSP16116 32-bit PDSP16116A PDSP16318A, 20MHz 20-bit FULL SUBTRACTOR using 41 MUX PDSP16318A MIL-883 32 bit barrel shifter circuit diagram using mux DIODE bfp 86 GC144 YR13

    fft processor

    Abstract: XC2V6000 XC2V10000 PATHFINDER-2
    Text: Success Story Design Win Two Virtex-II FPGAs Deliver Fastest, Cheapest, Best High-Performance Image Processing System by Tom Dillon Dillon Engineering not only exceeded their client’s performance specifications, but they also delivered the solution under budget


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    PDF XC2V10000 fft processor XC2V6000 PATHFINDER-2

    parallel Multiplier Accumulator based on Radix-2

    Abstract: DS3707 PDSP16116 PDSP16116A PDSP16318A subtractor using TTL CMOS GG144 4 bit binary full adder and subtractor 32-bit adder block diagram for barrel shifter
    Text: PDSP16116 16 X 16 Bit Complex Multiplier Supersedes October 1996 version, DS3707 - 4.2 The PDSP16116 contains four 16316 array multipliers, two 32-bit adder/subtractors and all the control logic required to support Block Floating Point Arithmetic as used in FFT applications.


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    PDF PDSP16116 DS3707 PDSP16116 32-bit PDSP16116A PDSP16318A, 20MHz 20-bit parallel Multiplier Accumulator based on Radix-2 PDSP16318A subtractor using TTL CMOS GG144 4 bit binary full adder and subtractor 32-bit adder block diagram for barrel shifter

    Untitled

    Abstract: No abstract text available
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 By 16 Bit Complex Multiplier DS3858 - 3.0 June 2000 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s

    64 point radix 4 FFT

    Abstract: radix-2 16 point DFT butterfly graph 64 point FFT radix-4 16 point DIF FFT using radix 4 fft 64-point core i3 16-Point SB JY transistor YA
    Text: One-Dimensional FFTs 6 6.5 RADIX-4 FAST FOURIER TRANSFORMS Whereas a radix-2 FFT divides an N-point sequence successively in half until only two-point DFTs remain, a radix-4 FFT divides an N-point sequence successively in quarters until only four-point DFTs remain. An


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    PDF N/16-point 16-point 64-point 1024-point 64 point radix 4 FFT radix-2 16 point DFT butterfly graph 64 point FFT radix-4 16 point DIF FFT using radix 4 fft core i3 SB JY transistor YA

    32 bit adder

    Abstract: PDSP16116 MIL-883 PDSP16116A PDSP16318
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 by 16 Bit Complex Multiplier DS3858 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The data format is fractional two's complement.


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s 32 bit adder MIL-883 PDSP16318

    4 bit barrel shifter circuit for left shift

    Abstract: No abstract text available
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 by 16 Bit Complex Multiplier DS3858 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The data format is fractional two's complement.


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s 4 bit barrel shifter circuit for left shift

    ALU of 4 bit adder and subtractor

    Abstract: MIL-883 PDSP16116 PDSP16116A PDSP16318 logic diagram to setup adder and subtractor using
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 by 16 Bit Complex Multiplier DS3858 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The data format is fractional two's complement.


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s ALU of 4 bit adder and subtractor MIL-883 PDSP16318 logic diagram to setup adder and subtractor using

    logic diagram to setup adder and subtractor

    Abstract: YR10 FFT 1024 point implementing ALU with adder/subtractor PR11 MIL-883 PDSP16116 PDSP16116A PDSP16318 tag l9 230
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 by 16 Bit Complex Multiplier DS3858 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The data format is fractional two's complement.


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s logic diagram to setup adder and subtractor YR10 FFT 1024 point implementing ALU with adder/subtractor PR11 MIL-883 PDSP16318 tag l9 230

    subtractor using TTL CMOS

    Abstract: ALU of 4 bit adder and subtractor implementing ALU with adder/subtractor B.A pass course date sheet logic diagram to setup adder and subtractor m6 90 v-0 MIL-883 PDSP16116 PDSP16116A PDSP16318
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 by 16 Bit Complex Multiplier DS3858 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The data format is fractional two's complement.


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s subtractor using TTL CMOS ALU of 4 bit adder and subtractor implementing ALU with adder/subtractor B.A pass course date sheet logic diagram to setup adder and subtractor m6 90 v-0 MIL-883 PDSP16318

    Untitled

    Abstract: No abstract text available
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 by 16 Bit Complex Multiplier DS3858 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The data format is fractional two's complement.


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 PDSP16318s

    Untitled

    Abstract: No abstract text available
    Text: PDSP16116/A OCTOBER 1996 DS3707 - 4.2 PDSP16116/A 16 BY 16 BIT COMPLEX MULTIPLIER Supersedes version October 1995 verison, DS3707 - 3.0 The PDSP16116A will multiply two complex (16 + 16) bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The


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    PDF PDSP16116/A DS3707 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116

    144 pin pga

    Abstract: PDSP16116 PDSP16116A PDSP16318 diode b10
    Text: PDSP16116/A/MC PDSP16116/A/MC 16 By 16 Bit Complex Multiplier Supersedes July 1993 version, DS3858 - 1.0 DS3858 - 2.0 October 1998 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 144 pin pga PDSP16318 diode b10

    DSP56000

    Abstract: DSP56001 c code iir filter radix-2 DIT FFT C code radix-2 fft 64-point DSP56001R27
    Text: Freescale Semiconductor, Inc. Freescale Semiconductor, Inc. APPENDIX B BENCHMARK PROGRAMS Table B-1 and Table B-2 provide benchmark numbers for 18 common DSP programs. The two tables are identical except that Table B-1 is for the 20.5-MHz DSP56001 and Table B-2 is for the 27-MHz DSP56001. The following four code examples Figures B-1


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    PDF DSP56001 27-MHz DSP56001. 20-tap DSP56000/DSP56001 DSP56000 c code iir filter radix-2 DIT FFT C code radix-2 fft 64-point DSP56001R27

    FULL SUBTRACTOR using 41 MUX

    Abstract: DS3707 32 bit barrel shifter circuit diagram using multi bfp mark diode YI11 MT52L1G32D4PG-107 WT:B TR
    Text: MITEL PD SP16116 16 X 16 Bit Complex Multiplier SEMICONDUCTOR Supersedes O ctober 1996 version, DS3707 - 4.2 DS3707 - 5.3 O ctober 1997 The PDSP16116 contains four 16x16 array multipliers, two 32-bit adder/subtractors and all the control logic required to sup­


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    PDF SP16116 DS3707 PDSP16116 16x16 32-bit PDSP16116A PDSP16318A, 20MHz FULL SUBTRACTOR using 41 MUX 32 bit barrel shifter circuit diagram using multi bfp mark diode YI11 MT52L1G32D4PG-107 WT:B TR

    DS3707

    Abstract: No abstract text available
    Text: M ITEL PD SP16116 16 X 16 Bit Complex Multiplier SE M IC O N D U C T O R Supersedes October 1996 version, DS3707 - 4.2 DS3707 - 5.3 October 1997 The PDSP16116 contains four 1 6 x1 6 array multipliers, two 32-bit adder/subtractors and all the control logic required to sup­


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    PDF SP16116 DS3707 PDSP16116 32-bit PDSP16116A PDSP16318A, 20MHz 20-bit

    barrel shifter block diagram

    Abstract: parallel Multiplier Accumulator based on Radix-2 ALU of 4 bit adder and subtractor CD11N TTL ALU of 4 bit adder and subtractor radix-2 YIO 98 PDSP16116 PDSP16116A PDSP16318
    Text: PDSP16116/A/MC MITEL 16 By 16 Bit Complex Multiplier SEM ICON D UCTOR Supersedes July 1993 version, DS3858 - 1.0 DS3858 - 2.0 O ctober 1998 The PDSP16116A will multiply two complex 16 + 16 bit words every 50ns and can be configured to output the complete complex (32 + 32) bit result within a single cycle. The


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    PDF PDSP16116/A/MC DS3858 PDSP16116A PDSP16116/A PDSP16318, 10MHz PDSP16116 barrel shifter block diagram parallel Multiplier Accumulator based on Radix-2 ALU of 4 bit adder and subtractor CD11N TTL ALU of 4 bit adder and subtractor radix-2 YIO 98 PDSP16318

    bfp mark diode

    Abstract: 32-bit adder PS2187 PDSP16330 plessey logic diagram to setup adder and subtractor using PDSP16116 IC to design 2 by 2 binary multiplier PDSP1601 PDSP16318 YR13
    Text: APR IL 1989 < Ä j P L E S S E Y Sem iconductors. P D S P 1 6 1 1 6 16 BY 16 BIT COMPLEX MULTIPLIER SUPERSEDES EDITION IN JU L Y 1988 DSP 1C HANDBOOK The PDSP16116 will multiply two complex (16+16) bit words every 100ns and can be configured to output the


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    PDF PDSP16116 PDSP16116 100ns 16x16 PDSP16318, 10MHz PDSP16318 bfp mark diode 32-bit adder PS2187 PDSP16330 plessey logic diagram to setup adder and subtractor using IC to design 2 by 2 binary multiplier PDSP1601 YR13

    Untitled

    Abstract: No abstract text available
    Text: APRIL 1989 Ä PLESSEY W S em ico n d u cto rs. P D S P 16116 16 BY 16 BIT COMPLEX MULTIPLIER SUPERSEDES EDITION IN JULY 1988 DSP 1C HANDBOOK The PDSP16116 will multiply two complex (16+16) bit words every 100ns and can be configured to output the complete complex (32+32) bit result within a single cycle. The


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    PDF PDSP16116 100ns 16x16 PDSP16318, 10MHz PS2187

    bfp 11A diode

    Abstract: No abstract text available
    Text: Si GEC PLESSEY S I M I t O N I L C T O H S P D S P 1 6 1 1 6 /A 16 BY 16 BIT COMPLEX MULTIPLIER Supersedes version October 1995 verison, DS3707 - 3.0) The PQSP16116A will multiply two complex (1 6 + 1 6 ) bit words every 50ns and can be configured to output the


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    PDF DS3707 PQSP16116A PDSP16116/A PDSP16318, PDSP16116A 10MHz PDSP16116MC bfp 11A diode

    Untitled

    Abstract: No abstract text available
    Text: JANUARY 1990 PILE SSEY S E M IC O N D U C T O R S : P D S P 1 6 1 1 6 / 1 6 1 1 6 A 16 BY 16 BIT COMPLEX MULTIPLIER Supersedes April 1989 Edition The PDSP16116A will multiply two complex (16+16) bit words every 50ns and can be configured to output the com­


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    PDF PDSP16116A PDSP16116/A 16x16 PDSP16318A, 20MHz

    Untitled

    Abstract: No abstract text available
    Text: Si GEC P L E S S E Y OCTOBER 1997 S E M I C O N D U C T O R S DS3707 - 5.3 P D S P 16 116 16X16 BIT COMPLEX MULTIPLIER Supersedes October 1996 version, DS3707 - 4.2 The PDSP16116 contains four 1 6 x1 6 array multipliers, two 32-bit adder/subtractors and all the control logic required to sup­


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    PDF DS3707 16X16 PDSP16116 32-bit PDSP16116A PDSP16318A, 20MHz 20-bit