Microprocessors: Theory and Applications (Intel and Motorola)Prentice Hall, 1992 - 468 sayfa |
Kitabın içinden
71 sonuçtan 1-3 arası sonuçlar
Sayfa 5
... assembly language , the programmer does not have to find the nu- merical OP codes from a table of the instruction set . Thus , programming efficiency with assembly language is significantly improved . There are two ways of converting an ...
... assembly language , the programmer does not have to find the nu- merical OP codes from a table of the instruction set . Thus , programming efficiency with assembly language is significantly improved . There are two ways of converting an ...
Sayfa 157
... assembly program to add fifty 16- bit numbers stored in consecutive memory loca- tions starting at displacement 0500H in DS = 0200H . Store the 16 - bit result onto the stack . 5-17 . Write an 8086 assembly program to find the min- imum ...
... assembly program to add fifty 16- bit numbers stored in consecutive memory loca- tions starting at displacement 0500H in DS = 0200H . Store the 16 - bit result onto the stack . 5-17 . Write an 8086 assembly program to find the min- imum ...
Sayfa 210
... assembly program to multiply a 16 - bit signed number in the low word of DO by an 8 - bit signed number in the highest byte ( bits 31-24 ) of DO . 6-13 . Write a 68000 assembly program to divide a 16- bit signed number in the high word ...
... assembly program to multiply a 16 - bit signed number in the low word of DO by an 8 - bit signed number in the highest byte ( bits 31-24 ) of DO . 6-13 . Write a 68000 assembly program to divide a 16- bit signed number in the high word ...
İçindekiler
MICROCOMPUTER ARCHITECTURE | 9 |
MICROCOMPUTER SOFTWARE | 49 |
Questions and Problems | 59 |
Telif Hakkı | |
15 diğer bölüm gösterilmiyor
Sık kullanılan terimler ve kelime öbekleri
accumulator active addressing mode affected assembly Assume branch buffer byte CALL carry CHARACTER chip circuit cleared clock command condition connected consider contains contents converter cycle designed device digits direction display enable example execution external field Figure flags functions hardware HIGH HOLD I/O port immediate indicates indirect Initialize input instruction Intel interface interrupt jump language latched lines loads logic mem/reg memory memory location microcomputer microprocessor mode MOVE Note operand operation output perform pointer port processor PUSH RESET result routine SAVE segment shift signal signed single specified stack status stored subroutine TABLE tion transfer typical unit Write zero
Bu kitaba yapılan referanslar
Fundamentals of Digital Logic and Microcomputer Design Mohamed Rafiquzzaman Metin Parçacığı görünümü - 1999 |