Microprocessors: Theory and Applications (Intel and Motorola)Prentice Hall, 1992 - 468 sayfa |
Kitabın içinden
17 sonuçtan 1-3 arası sonuçlar
Sayfa 57
... variable , the actual parameter of the main program does not receive this change . This is a desirable property for ... variables of the calling program is known as the side effect . It follows that there is no side effect with the call ...
... variable , the actual parameter of the main program does not receive this change . This is a desirable property for ... variables of the calling program is known as the side effect . It follows that there is no side effect with the call ...
Sayfa 78
... variable X. In a similar manner , a programmer can define a 16 - bit data by employing the DW ( define word ) directive . The purpose of the DS ( define storage ) directive is to reserve storage space for a variable or an array ...
... variable X. In a similar manner , a programmer can define a 16 - bit data by employing the DW ( define word ) directive . The purpose of the DS ( define storage ) directive is to reserve storage space for a variable or an array ...
Sayfa 126
... Variable port addressing allows up to 65,536 ports with addresses from 0000H to FFFFH . The port addresses in variable port addressing can be calcu- lated dynamically in a program . For example , as- sume that an 8086 - based ...
... Variable port addressing allows up to 65,536 ports with addresses from 0000H to FFFFH . The port addresses in variable port addressing can be calcu- lated dynamically in a program . For example , as- sume that an 8086 - based ...
İçindekiler
MICROCOMPUTER ARCHITECTURE | 9 |
MICROCOMPUTER SOFTWARE | 49 |
Questions and Problems | 59 |
Telif Hakkı | |
15 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Microprocessors: Theory and Applications (Intel and Motorola) Mohamed Rafiquzzaman Metin Parçacığı görünümü - 1992 |
Sık kullanılan terimler ve kelime öbekleri
16 bits 16-bit data A/D converter accumulator ADDRESS FIELD address register addressing mode assembly language binary buffer byte or word CALL CHARACTER chip circuit clock command contents coprocessor data bus data field data register data transfer decoding decremented digits disp8 display DMA controller DTACK enable EPROM example execution flags affected functions GPIB hardware hexadecimal HIGH I/O port index register input instruction set INTA Intel Corporation interface INTR jump keyboard latched loads logic low byte mem/reg memory address memory location memory-mapped I/O microcomputer microprocessor OP code operand operation output peripheral port 00 processor program counter register indirect RESET segment register service routine shown in Figure signal specified stack pointer status register stored subroutine TABLE tion typical vector voltage Write zero
Bu kitaba yapılan referanslar
Fundamentals of Digital Logic and Microcomputer Design Mohamed Rafiquzzaman Metin Parçacığı görünümü - 1999 |