Microprocessors: Theory and Applications (Intel and Motorola)Prentice Hall, 1992 - 468 sayfa |
Kitabın içinden
45 sonuçtan 1-3 arası sonuçlar
Sayfa 202
... vector $ 19 for 0 0 1 Level 2 ← Interrupt vector $ 1A for 0 1 0 Level 3 - Interrupt vector $ 1B for 0 1 1 Level 4 ← Interrupt vector $ 1C for 1 0 0 Level 5 - Interrupt vector $ 1D for 1 0 1 Level 6 - Interrupt vector $ 1E for 1 1 0 ...
... vector $ 19 for 0 0 1 Level 2 ← Interrupt vector $ 1A for 0 1 0 Level 3 - Interrupt vector $ 1B for 0 1 1 Level 4 ← Interrupt vector $ 1C for 1 0 0 Level 5 - Interrupt vector $ 1D for 1 0 1 Level 6 - Interrupt vector $ 1E for 1 1 0 ...
Sayfa 203
... Vector Suppose that the user decides to write a service routine starting at location $ 123456 using autovector 1 ... vector address using autovectoring . In the case of I / O1 , line 5 of the priority encoder is activated to initiate the ...
... Vector Suppose that the user decides to write a service routine starting at location $ 123456 using autovector 1 ... vector address using autovectoring . In the case of I / O1 , line 5 of the priority encoder is activated to initiate the ...
Sayfa 228
... vector base register ( VBR ) is used in interrupt vector computation . For example , in the 68000 , the interrupt address vector is obtained by multiplying an 8 - bit vector by 4. In the 68020 , on the other hand , the interrupt address ...
... vector base register ( VBR ) is used in interrupt vector computation . For example , in the 68000 , the interrupt address vector is obtained by multiplying an 8 - bit vector by 4. In the 68020 , on the other hand , the interrupt address ...
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
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 |