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    FLOATING POINT HANDLING Search Results

    FLOATING POINT HANDLING Result Highlights (6)

    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
    TMPM4NRF15FG 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

    FLOATING POINT HANDLING Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    R3000A

    Abstract: functional diagram of ALU R3010A block alu IDT79R3081 R3081 2873 R3010A Integrated Device Technology CFC-1
    Text: R3010A Core RISC FLOATING POINT ACCELERATOR FPA CORE Integrated Device Technology, Inc. FEATURES: DESCRIPTION: • Hardware support of single- and double-precision operations: — Floating-Point Add — Floating-Point Subtract — Floating-Point Multiply


    Original     		PDF R3010A 50MHz R3000A 64-bit 32-bit R3010A functional diagram of ALU block alu IDT79R3081 R3081 2873 R3010A Integrated Device Technology CFC-1

    D-10

    Abstract: D-12 D-16 DSP96002 3F800000 DSP96002 APPLICATIONS DSP96002 fft
    Text: APPENDIX D D.1 FLOATING-POINT NUMBER STORAGE AND ARITHMETIC D.1.1 General The IEEE standard for binary floating point arithmetic provides for the compatibility of floating-point numbers across all implementations which use the standard by defining bit-level encoding of floating-point numbers.


    Original     		PDF 32-bit DSP96002 D-10 D-12 D-16 3F800000 DSP96002 APPLICATIONS DSP96002 fft

    C-15

    Abstract: C-16 DSP96002 DSP96002 fft
    Text: APPENDIX C IEEE ARITHMETIC C.1 FLOATING-POINT NUMBER STORAGE AND ARITHMETIC C.1.1 General The IEEE standard for binary floating point arithmetic provides for the compatibility of floating-point numbers across all implementations which use the standard by defining bit-level encoding of floating-point numbers.


    Original     		PDF 32-bit DSP96002 C-15 C-16 DSP96002 fft

    intel 8087 architecture

    Abstract: sahf instruction intel 8086 Arithmetic and Logic Unit -ALU 8087 coprocessor architecture 8086 instruction set 8086 opcode sheet free binary numbers multiplication 8088 instruction set intel 8086 opcode sheet procedure for converting to opcodes in 8086
    Text: Floating-Point Unit 31 The Intel Architecture Floating-Point Unit FPU provides high-performance floating-point processing capabilities. It supports the real, integer, and BCD-integer data types and the floatingpoint processing algorithms and exception handling architecture defined in the IEEE 754 and 854


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 375/456-MHz C674x

    SPRS591C

    Abstract: sprufe8 aa t 224 256kb nand flash JESD79-2A pru 10.64 TMS320C6746
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit) SPRS591C sprufe8 aa t 224 256kb nand flash JESD79-2A pru 10.64

    DDR2 sdram pcb layout guidelines

    Abstract: No abstract text available
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit) DDR2 sdram pcb layout guidelines

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit)

    0.5-4B

    Abstract: 2322 156 239 sprufe8
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit) 0.5-4B 2322 156 239 sprufe8

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit)

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 375/456-MHz C674x

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit)

    SPRS591C

    Abstract: 8038 ic tester circuit diagram RTC A250
    Text: TMS320C6746 SPRS591C – NOVEMBER 2009 – REVISED OCTOBER 2011 www.ti.com TMS320C6746 Fixed/Floating-Point DSP Check for Samples: TMS320C6746 1 TMS320C6746 Fixed/Floating-Point DSP 1.1 Features 12 • Highlights – 375/456-MHz C674x Fixed/Floating-Point


    Original     		PDF TMS320C6746 SPRS591C TMS320C6746 32-/40-Bit) 32-Bit Precision/32-Bit) Precision/64-Bit) SPRS591C 8038 ic tester circuit diagram RTC A250

    80960MC

    Abstract: C90FDAA2
    Text: Floating-Point Operation 7 CHAPTER 7 FLOATING-POINT OPERATION This chapter describes the floating-point processing capabilities of the 80960MC processor. The subjects discussed include the real number data types, the execution environment for floating-point operations, the floating-point instructions, and fault and exception handling.


    OCR Scan     		PDF 80960MC C90FDAA2

    i960TM

    Abstract: 400921FB
    Text: Floating-Point Operation 7 CHAPTER 7 FLOATING-POINT OPERATION This chapter describes the floating-point processing capabilities o f the i960 MC processor. The subjects discussed include the real number data types, the execution environment for floating-point operations, the floating-point instructions and fault and exception handling.


    OCR Scan     		PDF

    Untitled

    Abstract: No abstract text available
    Text: in te l CHAPTER 7 FLOATING-POINT UNIT The Intel Architecture Floating-Point Unit FPU provides high-performance floating-point processing capabilities. It supports the real, integer, and BCD-integer data types and the floating­ point processing algorithms and exception handling architecture defined in the IEEE 754 and


    OCR Scan     		PDF 01fl070fl

    tms390

    Abstract: L64811 L64814 TMS390C sun sparc pinout
    Text: LSI LOGIC L64814 Floating-Point Unit FPU Preliminary Description The L64814 Floating-Point Unit (FPU) is a highperformance, CMOS implementation of the SPARC (Scalable Processor ARChitecture) FPU. The FPU combines a floating-point controller w ith a high-throughput floating-point processor


    OCR Scan     		PDF L64814 tms390 L64811 TMS390C sun sparc pinout

    TMS34082

    Abstract: CID20 TMS34082A TMS34082B-40 MSA15-0 TMS34020 emulator
    Text: TMS34082A, TMS34082B GRAPHICS FLOATING-POINT PROCESSOR SCGS001A - D315Q, SEPTEMBER 1988 - REVISED SEPTEMBER 1992 • High-Performance Floating-Point RISC Processor Optimized for Graphics • TWo Operating Modes - Floating-Point Coprocessor for TMS34020 Graphics System Processor


    OCR Scan     		PDF TMS34082A, TMS34082B SCGS001A D315Q, TMS34020 TMS34082 TMS34082A-40, TMS34082B-40 CID20 TMS34082A MSA15-0 TMS34020 emulator

    am29325

    Abstract: H-14 AM29325GC WF023740 ScansUX970 TB000640
    Text: Am29325 32-Bit Floating-Point Processor • Single VLSI device performs high-speed floating-point arithmetic - Floating-point addition, subtraction, and multiplication in a single clock cycle - Internal architecture supports sum-of-products, Newton-Raphson division


    OCR Scan     		PDF Am29325 32-Bit 32-bit, 16-bit WF023790 WF023800 WF023810 16-Bit, H-14 AM29325GC WF023740 ScansUX970 TB000640

    DSP-3201

    Abstract: No abstract text available
    Text: ANALOG DEVICES 32-Bit IEEE Floating-Point Chipset ADSP-3201/ADSP-3202 FEATURES Complete Chipset Implementing Floating-Point Arithmetic Fully Compatible with IEEE Standard 754 Arithmetic Operations on Three Data Formats: 32-Bit Single-Precision Floating Point


    OCR Scan     		PDF 32-Bit ADSP-3211 ADSP-3221 240ns 750mW 144-Lead OOUT31 DSP-3201

    Untitled

    Abstract: No abstract text available
    Text: NOV 2 i « # 1 Am29C325 CMOS 32-Bit Floating-Point Processor > 3 DISTINCTIVE CHARACTERISTICS Single VLSI device performs high-speed single­ precision floating-point arithmetic Floating-point addition, subtraction, and multiplication in a single clock cycle


    OCR Scan     		PDF Am29C325 32-Bit 32-bit, 16-bit Am29325

    MC68020 Minimum System Configuration

    Abstract: MC68882 MC68881 M68000 64 pin MC68020 M68000 MC68000 MC68008 MC68010 MC68030
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MC68882 Technical Sum m ary HCMOS Enhanced Floating-Point Coprocessor The MC68882 floating-point coprocessor fully implements the IEEE Standard for Binary Floating-Point A rithm etic 754 for use with the Motorola M68000


    OCR Scan     		PDF MC68882 MC68882 M68000 MC68881, MC68881. MC68020/MC68030 32-bit 68-LEAD MC68020 Minimum System Configuration MC68881 M68000 64 pin MC68020 MC68000 MC68008 MC68010 MC68030

    Am29325

    Abstract: H-14
    Text: A m 29C 325 CMOS 32-Bit Floating-Point Processor FINAL DISTINCTIVE CHARACTERISTICS • • Single VLSI device performs high-speed single­ precision floating-point arithmetic Floating-point addition, subtraction, and multiplication in a single clock cycle


    OCR Scan     		PDF Am29C325 32-Bit 32-bit, 16-bit Am29325 H-14

    PD102

    Abstract: ncl 039 Am29C325 Am29325 AM29C33 pin diagram of amd am2 processor th02 H-14 AM27S43 Am29CPL14
    Text: A m 29C 325 CMOS 32-Bit Floating-Point Processor FINAL DISTINCTIVE CHARACTERISTICS • • Single VLSI device performs high-speed single­ precision floating-point arithmetic Floating-point addition, subtraction, and multiplication in a single clock cycle


    OCR Scan     		PDF Am29C325 32-Bit 32-bit, 16-bit Am29325 PD102 ncl 039 AM29C33 pin diagram of amd am2 processor th02 H-14 AM27S43 Am29CPL14