Fundamentals of Digital Logic and Microcomputer DesignJohn Wiley & Sons, 8 Tem 2005 - 848 sayfa Fundamentals of Digital Logic and Microcomputer Design, has long been hailed for its clear and simple presentation of the principles and basic tools required to design typical digital systems such as microcomputers. In this Fifth Edition, the author focuses on computer design at three levels: the device level, the logic level, and the system level. Basic topics are covered, such as number systems and Boolean algebra, combinational and sequential logic design, as well as more advanced subjects such as assembly language programming and microprocessor-based system design. Numerous examples are provided throughout the text. Coverage includes:
Fundamentals of Digital Logic and Microcomputer Design is an essential reference that will provide you with the fundamental tools you need to design typical digital systems. |
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58 sonuçtan 1-5 arası sonuçlar
Sayfa xi
... Interface to a Microcomputer 9.13.2 Hex Keyboard Interface to an 8086-Based Microcomputer Questions and Problems 10. MOTOROLA MC68000 10.1 10.2 10.3 10.4 Introduction 68000 Registers 68000 Memory Addressing 68000 Addressing Modes 10.4.1 ...
... Interface to a Microcomputer 9.13.2 Hex Keyboard Interface to an 8086-Based Microcomputer Questions and Problems 10. MOTOROLA MC68000 10.1 10.2 10.3 10.4 Introduction 68000 Registers 68000 Memory Addressing 68000 Addressing Modes 10.4.1 ...
Sayfa xii
... Interface 68000 I/O 10121 68000 Programmed [/0 1012.2 68000 Interrupt System 10.123 68000 DMA 68000 Exception Handling 68000/2732/61 16/6821-Based Microcomputer Multiprogessing with the 68000 Using the TAS Instruction and the AS Signal ...
... Interface 68000 I/O 10121 68000 Programmed [/0 1012.2 68000 Interrupt System 10.123 68000 DMA 68000 Exception Handling 68000/2732/61 16/6821-Based Microcomputer Multiprogessing with the 68000 Using the TAS Instruction and the AS Signal ...
Sayfa 7
... interface 330! LED Inverter Microcomputer light an LED either by grounding the cathode (if the. FIGURE 1.5 Microcomputer - LED interface via an inverter FIGURE 1.7 Seven-segment display configurations FIGURE 1.16 Furnace Temperature ...
... interface 330! LED Inverter Microcomputer light an LED either by grounding the cathode (if the. FIGURE 1.5 Microcomputer - LED interface via an inverter FIGURE 1.7 Seven-segment display configurations FIGURE 1.16 Furnace Temperature ...
Sayfa 8
... interface between a microcomputer and an LED is depicted in Figure 1.4. A microcomputer normally outputs 400 MA at a minimum voltage, VM = 2.4 volts for a HIGH. The red LED requires 10 mA at 1.7 volts. A buffer such as a transistor is ...
... interface between a microcomputer and an LED is depicted in Figure 1.4. A microcomputer normally outputs 400 MA at a minimum voltage, VM = 2.4 volts for a HIGH. The red LED requires 10 mA at 1.7 volts. A buffer such as a transistor is ...
İçindekiler
1 | |
23 | |
53 | |
4 COMBINATIONAL LOGIC DESIGN | 99 |
5 SEQUENTIAL LOGIC DESIGN | 135 |
6 MICROCOMPUTER ARCHITECTURE PROGRAMMING AND SYSTEM DESIGN CONCEPTS | 185 |
7 DESIGN OF COMPUTER INSTRUCTION SET AND THE CPU | 237 |
8 MEMORY IO AND PARALLEL PROCESSING | 299 |
APPENDIX CMOTOROLA 68000 and SUPPORT CHIPS | 649 |
APPENDIX D68000 EXECUTION TIMES | 661 |
APPENDIX EINTEL 8086 AND SUPPORT CHIPS | 671 |
APPENDIX F8086 INSTRUCTION SET REFERENCE DATA | 677 |
APPENDIX G68000 INSTRUCTION SET | 695 |
APPENDIX H8086 INSTRUCTION SET | 701 |
APPENDIX IVERILOG | 713 |
APPENDIX JVHDL | 757 |
9 INTEL 8086 | 367 |
10 MOTOROLA MC68000 | 457 |
11 INTEL AND MOTOROLA 32 64BIT MICROPROCESSORS | 543 |
APPENDIX AANSWERS TO SELECTED PROBLEMS | 627 |
APPENDIX BGLOSSARY | 633 |
BIBLIOGRAPHY | 807 |
CREDITS | 811 |
INDEX | 813 |
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Sık kullanılan terimler ve kelime öbekleri
16 bits 32 bits adder address register addressing mode arithmetic assembly language assembly language program binary number block Boolean bus cycle Bytes Coding Example cache chip complement configured contains contents data bus decimal decoder defined device downto DTACK EPROM execution external field figure first flip-flop floating-point full adder function gate hardware implemented initial input instruction set integer Intel interface interrupt K-map load logic diagram main memory mem/reg memory address memory location microcomputer microprocessor microprogram minterms module operand operation output overflow Pentium perform pins pointer port PowerPC processor program counter provides reset result RISC segment register sequence sequential circuit shown in Figure signal signed specified stack status register STD_LOGIC std_logic_vector stored subroutine subtraction transistor truth table typical unsigned vector Verilog VHDL word Write zero
Popüler pasajlar
Sayfa 33 - NUL SOH STX ETX EOT ENQ ACK BEL BS HT LF VT FF CR SO SI OLE DC1 DC2 DC3 DC4 NAK SYN ETB CAN EM SUB ESC FS GS RS US...
Sayfa 420 - The request/grant pins are used by other local bus masters to force the processor to release the local bus at the end of the processor's current bus cycle. Each pin is bidirectional with RQ/GT0 having higher priority than RQ/GT,.
Sayfa 664 - D-10 indicates the number of clock periods required for the jump, lump-tosubroutine, load effective address, push effective address, and move multiple registers Instructions. The number of bus read and write cycles is shown In parenthesis as (r/w). Table D-10.
Sayfa 376 - Load effective address Load pointer using DS Load pointer using ES FLAG TRANSFER LAHF SAHF PUSHF POPF Load AH register from flags Store AH register in flags Push flags onto stack Pop flags off stack Table 2.2-1 Arithmetic Group.
Sayfa 429 - This functional configuration provides a means for communicating with a peripheral device or structure on a single 8-bit bus for both transmitting and receiving data (bidirectional bus I/O). "Handshaking" signals are provided to maintain proper bus flow discipline in a similar manner to MODE 1. Interrupt generation and enable/disable functions are also available. MODE 2 Basic Functional Definitions: • Used in Group A only. • One 8-bit, bi-directional bus Port (Port A) and a 5-bit control Port...
Sayfa 662 - D-6 indicates the number of clock periods for the single operand instructions. The number of bus read and write cycles is shown in parenthesis as (r/w). The number of clock periods and the number of read and write cycles must be added respectively to those of the effective address calculation where indicated. Table D-6.