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    PC111

    Abstract: No abstract text available
    Text: Revision 1.5 ColdFire Processor Family A Version 4 ColdFire Reference Design ColdFire Instruction Set Enhancements This appendix details the new opcodes implemented as part of the Revision B ISA_B enhancements to the basic ColdFire instruction set architecture. In some cases, the


    Original     		PDF

    8 BIT ALU

    Abstract: 4 bit right left shift register ics 8 bit full adder 32-bit adder 8 bit adder 8 bit carry select adder
    Text: B Compute Operations B.2.3 Shifter Operations Shifter operations are described in this section. Table B.6 summarizes the syntax and opcodes for the shifter operations. The succeeding pages provide detailed descriptions of each operation. The shifter operates on the register file’s 32-bit fixed-point fields bits 398 . Two-input shifter operations can take their y-input from the register


    Original     		PDF 32-bit R11-R8 F11-F8) R15-R12 F15-F12) 8 BIT ALU 4 bit right left shift register ics 8 bit full adder 32-bit adder 8 bit adder 8 bit carry select adder

    SERVICE MANUAL tv hyundai

    Abstract: SERVICE MANUAL tv TCL LABTOOL-48 cmos 4004 Intel 4001 64LQFP GMS81508 GMS81508A GMS81516 GMS81516A
    Text: GMS81508A GMS81516A USER’S MANUAL Revision History Rev 2.2 Dec. 1998 Add the package dimension for 64LQFP on page 3-1, 4-1. Rev 2.1 (Nov. 1998) Operating Temperature, -10~75°C is extended to -20~85°C. Add the unused port guidance on page 55. Correct errata for opcode of “EOR [dp+X], EOR [dp]+Y, EOR {X}” in “Instruction Set”.


    Original     		PDF GMS81508A GMS81516A 64LQFP GMS81516AT SERVICE MANUAL tv hyundai SERVICE MANUAL tv TCL LABTOOL-48 cmos 4004 Intel 4001 GMS81508 GMS81508A GMS81516 GMS81516A

    MC9S12DP256

    Abstract: sae j1850 pwm controller 68HC11 68HC12 HCS12 J1850 MC9S12DJ256
    Text: A FLASH MCU SOLUTION MC9S12DJ256 16-bit Microcontroller FEATURES BENEFITS HIGH-PERFORMANCE 16-BIT HCS12 CPU CORE • 25 MHz bus operation at 5V for 40 nsec minimum instruction cycle time TARGET APPLICATIONS • Opcode compatible with the 68HC11 and 68HC12


    Original     		PDF MC9S12DJ256 16-bit HCS12 68HC11 68HC12 68HC12ompiler MC9S12DP256 sae j1850 pwm controller 68HC12 J1850 MC9S12DJ256

    68hc11 Controller Area Network

    Abstract: 68HC11 68HC12 DG128 HCS12 MC9S12DG128 Motorola HCS12 Reference Manual
    Text: A FLASH MCU SOLUTION MC9S12DG128 16-bit Microcontroller FEATURES BENEFITS HIGH-PERFORMANCE 16-BIT HCS12 CPU CORE • 25 MHz bus operation at 5V for 40 nsec minimum instruction cycle time TARGET APPLICATIONS • Opcode compatible with the 68HC11 and 68HC12


    Original     		PDF MC9S12DG128 16-bit HCS12 68HC11 68HC12 68HC12 EB386/D 68hc11 Controller Area Network DG128 MC9S12DG128 Motorola HCS12 Reference Manual

    radix-2 dit fft flow chart

    Abstract: DSP56300 mac 226 40N160 40n220
    Text: Appendix C BENCHMARK PROGRAMS C-1 INTRODUCTION The following benchmarks illustrate the source code syntax and programming techniques for the DSP56300 Core. The assembly language source is organized into 6 columns as shown below. Label Opcode Operands X Bus Data Y Bus Data Comment


    Original     		PDF DSP56300 50MHz 60MHz radix-2 dit fft flow chart mac 226 40N160 40n220

    Untitled

    Abstract: No abstract text available
    Text: Features • • • • • • • • • • • • • • Compatible with an Embedded 32-bit Microcontroller Part of the Memory Controller Interface of the Flash Block with the 32-bit Internal Bus Increases Performance in ARM Thumb® Mode for Opcode Fetch


    Original     		PDF 32-bit 32-bit 6084AS

    opcode table for 8086

    Abstract: 8086 opcode table 8086 opcode 8086 opcode sheet 8086 opcode sheet free download 8086 mnemonic code 8086 mnemonic opcode intel 8086 opcode sheet imm32 intel 8086
    Text: X 60 X 60.1 XADD—Exchange and Add Opcode Instruction Description 0F C0/r XADD r/m8,r8 Exchange r8 and r/m8; load sum into r/m8. 0F C1/r XADD r/m16,r16 Exchange r16 and r/m16; load sum into r/m16. 0F C1/r XADD r/m32,r32 Exchange r32 and r/m32; load sum into r/m32.


    Original     		PDF r/m16 r/m16; r/m16. r/m32 r/m32; r/m32. Intel486 Virtual-8086 opcode table for 8086 8086 opcode table 8086 opcode 8086 opcode sheet 8086 opcode sheet free download 8086 mnemonic code 8086 mnemonic opcode intel 8086 opcode sheet imm32 intel 8086

    8-bit opcode

    Abstract: invalid opcode sahf instruction 0F21 0F20-0F24 BT 3713
    Text: Opcode Map 37 The opcode tables in this chapter are provided to aid in interpreting Intel Architecture object code. The instructions are divided into three encoding groups: 1-byte opcode encodings, 2-byte opcode encodings, and escape floating-point encodings. The 1- and 2-byte opcode encodings are used to


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    8086 opcode machine code

    Abstract: 8086 opcode sheet 8086 mnemonic code 8086 opcode sheet free download 8086 interrupt vector table 8086 mnemonic opcode 8086 opcode sheet int intel 8086 opcode sheet 8086 OPCODE DATA SHEET CACHE MEMORY FOR 8086
    Text: I 47 I 47.1 IDIV—Signed Divide Opcode Instruction Description F6 /7 IDIV r/m8 Signed divide AX where AH must contain signextension of AL by r/m byte. (Results: AL=Quotient, AH=Remainder) F7 /7 IDIV r/m16 Signed divide DX:AX (where DX must contain signextension of AX) by r/m word. (Results: AX=Quotient,


    Original     		PDF r/m16 r/m32 Virtual-8086 8086 opcode machine code 8086 opcode sheet 8086 mnemonic code 8086 opcode sheet free download 8086 interrupt vector table 8086 mnemonic opcode 8086 opcode sheet int intel 8086 opcode sheet 8086 OPCODE DATA SHEET CACHE MEMORY FOR 8086

    8086 opcode sheet

    Abstract: opcode table for 8086 8086 opcode 8086 opcode table intel 8086 INSTRUCTION SET 8086 opcode sheet free download intel 8086 opcode sheet 8086 flags 8086 OPCODE DATA SHEET segment register
    Text: V 58 V 58.1 VERR, VERW—Verify a Segment for Reading or Writing Opcode Instruction Description 0F 00 /4 VERR r/m16 Set ZF=1 if segment specified with r/m16 can be read 0F 00 /5 VERW r/m16 Set ZF=1 if segment specified with r/m16 can be written Description


    Original     		PDF r/m16 r/m16 16-bit Virtual-8086 8086 opcode sheet opcode table for 8086 8086 opcode 8086 opcode table intel 8086 INSTRUCTION SET 8086 opcode sheet free download intel 8086 opcode sheet 8086 flags 8086 OPCODE DATA SHEET segment register

    IBM25PPC750GX

    Abstract: IBM PPC750 EB02 IBM25PPC750 ppc750 ppc7
    Text: PowerPC 750 RISC Microprocessor Family Part Number Specific Information This supplement contains information pertinent to the IBM PowerPC 750TM RISC microprocessor family. Part Number Specific Information for Revision D and Revision E An electrical noise sensitivity during random opcode testing in the factory on some IBM25PPC750DB02660/


    Original     		PDF 750TM IBM25PPC750 DB02660/ EB02660 DB02330/IBM25PPC750 EB02330 IBM25PPC750GX IBM PPC750 EB02 ppc750 ppc7

    MC9S12C32FS

    Abstract: MC9S12C32 M68MOD912C32 bosch pump an2255 lqfp 52 68HC11 68HC12 9S12DP256BDGV2 HCS12
    Text: 16-bit Microcontrollers MC9S12C32 Target Applications > Automotive applications Features Benefits High-Performance 16-bit HCS12 CPU Core > Industrial control > 25 MHz bus operation at 3.3V to 5V for 40 ns minimum instruction cycle time > Opcode compatible with the 68HC11


    Original     		PDF 16-bit MC9S12C32 HCS12 68HC11 68HC12 68HC12 MC9S12C32FS MC9S12C32FS MC9S12C32 M68MOD912C32 bosch pump an2255 lqfp 52 68HC11 9S12DP256BDGV2

    HCS12

    Abstract: MC9S12DP256 68hc12 motorola linker 9S12DP256BDGV2 S12DP256PIMV2 USBMULTILINKBDM MC9S12DT256 Freescale 68HC11 SPI Block Guide 68HC11
    Text: 16-bit Microcontrollers MC9S12DT256 Target Applications Features > Automotive applications High-Performance 16-bit HCS12 CPU Core > Industrial control > 25 MHz bus operation at 5V for 40 ns minimum instruction cycle time Benefits > Opcode compatible with the 68HC11


    Original     		PDF 16-bit MC9S12DT256 HCS12 68HC11 68HC12 68HC12 MC9S12DT256 DT256 MC9S12DP256 68hc12 motorola linker 9S12DP256BDGV2 S12DP256PIMV2 USBMULTILINKBDM Freescale 68HC11 SPI Block Guide 68HC11

    Untitled

    Abstract: No abstract text available
    Text: P5CD072 Secure Dual Interface PKI Smart Card Controller Rev. 1.2 — 4 October 2004 Short Form Specification 1. General description 1.1 Family description Philips Semiconductors SmartMX Memory eXtension multiple interface option platform features a significantly enhanced smart card IC architecture. New powerful opcodes are


    Original     		PDF P5CD072 80C51

    Untitled

    Abstract: No abstract text available
    Text: P5SC036 Secure Smart Card Controller Rev. 1.2 — 2004 April 14 Short Form Specification 1. General description 1.1 Family description Philips Semiconductors SmartMX Memory eXtension multiple interface option platform features a significantly enhanced smart card IC architecture. New powerful opcodes are


    Original     		PDF P5SC036 80C51

    Untitled

    Abstract: No abstract text available
    Text: P5CC072 Secure PKI Smart Card Controller Rev. 1.0 — 14 April 2004 Short Form Specification 1. General description 1.1 Family description Philips Semiconductors SmartMX Memory eXtension multiple interface option platform features a significantly enhanced smart card IC architecture. New powerful opcodes are


    Original     		PDF P5CC072 80C51

    Philips Mifare

    Abstract: MIFARE Software
    Text: P5CD036 Secure Dual Interface PKI Smart Card Controller Rev. 1.1 — 2004 August 27 Short Form Specification 1. General description 1.1 Family description Philips Semiconductors SmartMX Memory eXtension multiple interface option platform features a significantly enhanced smart card IC architecture. New powerful opcodes are


    Original     		PDF P5CD036 80C51 Philips Mifare MIFARE Software

    microchip application note

    Abstract: motorola hc08 motorola hc08 datasheet DS00617 PIC18 c compiler sleep hc08 can bus AN617 DK-2750 HC08 PIC16
    Text: TB071 Converting from Motorola HC08 to Microchip Assembler: A Quick Reference Author: Rodger Richey Microchip Technology Inc. When migrating assembly language programs from one family of microcontrollers to another, the first question is almost always: “What’s the equivalent opcode?”


    Original     		PDF TB071 DK-2750 D-85737 DS91071A-page microchip application note motorola hc08 motorola hc08 datasheet DS00617 PIC18 c compiler sleep hc08 can bus AN617 HC08 PIC16

    qx25

    Abstract: No abstract text available
    Text: PIC16C9XX 15.0 INSTRUCTION SET SUMMARY Each PIC16CXXX instruction is a 14-bit word divided into an OPCODE which specifies the instruction type and one or more operands which further specify the operation of the instruction. The PIC16CXX instruction set summary in Table 15-2 lists byte-oriented, bit-oriented, and literal and control operations. Table 15-1


    OCR Scan     		PDF PIC16C9XX PIC16CXXX 14-bit PIC16CXX DS30444E qx25

    TL SK 100B

    Abstract: ORD 1114 PA-L19
    Text: 10 A l p h a I ns t r uc t i on S u m m a r y This section contains a sum m ary of all Alpha architecture instructions. All values are in hexadecimal radix. Table 51 describes the contents of the Format and Opcode columns that are in Table 52. T a b l e 51


    OCR Scan     		PDF 11-bit 16-bit 26-bit TL SK 100B ORD 1114 PA-L19

    ORD 1114

    Abstract: 7817A
    Text: 10 Alpha Instruction Summary This section contains a summary of all Alpha architecture instructions. All values are in hexadecim al radix Table 15 describes the contents of the Format and Opcode columns that are in Table 16. Table 15 Instruction Format and Opcode Notation


    OCR Scan     		PDF 11-bit 16-bit 26-bit ORD 1114 7817A

    OPC07

    Abstract: opcoa 1702D SVC 561 10 OPC02 BIC 1222 1702b SVC 561 -10 OB2223
    Text: 10 Alpha Instruction Summary This section contains a summary of all Alpha architecture instructions. All values are in hexadecimal radix. Table 15 describes the contents of the Format and Opcode col­ umns that are in Table 16. Table 15 Instruction Format and Opcode Notation


    OCR Scan     		PDF 11-bit 16-bit 26-bit OPC07 opcoa 1702D SVC 561 10 OPC02 BIC 1222 1702b SVC 561 -10 OB2223

    Untitled

    Abstract: No abstract text available
    Text: 10.0 Programming of the Keyboard Controller The PC87323 keyboard controller is 100% opcode compati­ ble with the 8042 microcontroller. It uses 93 instructions, most of which are single-byte instructions. The rest are 2byte instructions. Instruction execution times range from 1


    OCR Scan     		PDF PC87323 28-2F 98-9B 08-0B 88-8B 38-3B 14-F4