Fundamentals of Digital Logic and Microcomputer DesignRafi Systems, Incorporated, 1999 - 828 sayfa |
Kitabın içinden
85 sonuçtan 1-3 arası sonuçlar
Sayfa 263
... languages can typically be divided into three main types : 1. Machine language 2. Assembly language 3. High - level language A machine language program consists of either binary or hexadecimal op - codes . Programming a microcomputer ...
... languages can typically be divided into three main types : 1. Machine language 2. Assembly language 3. High - level language A machine language program consists of either binary or hexadecimal op - codes . Programming a microcomputer ...
Sayfa 277
... language corresponds to a number of assembly or machine language instructions . For example , consider the statement F A + B written in a high- level language called FORTRAN . This single statement adds the contents of A with B and ...
... language corresponds to a number of assembly or machine language instructions . For example , consider the statement F A + B written in a high- level language called FORTRAN . This single statement adds the contents of A with B and ...
Sayfa 278
... language programs written in 8086 and 68000 in Chapters 9 and 10. C language is a popular high - level language , the C ++ language , based on C , is also very popular , and Java , developed by Sun Microsystems , is gaining wide ...
... language programs written in 8086 and 68000 in Chapters 9 and 10. C language is a popular high - level language , the C ++ language , based on C , is also very popular , and Java , developed by Sun Microsystems , is gaining wide ...
İçindekiler
INTRODUCTION TO DIGITAL SYSTEMS | 1 |
NUMBER SYSTEMS AND CODES | 31 |
BOOLEAN ALGEBRA AND DIGITAL LOGIC GATES | 67 |
Telif Hakkı | |
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16 bits 32 bits adder address register addressing modes arithmetic assembly language assembly language program Assume binary number block Boolean bus cycle byte cache chip clock cycle complement consider contains contents control unit data bus decimal decoder digits display DSACK1 DTACK EPROM example execution flags flip-flop floating-point full adder function hardware hexadecimal implemented index register input instruction set integer Intel interface interrupt K-map latch loaded logic diagram m₁ main memory memory address memory location microcomputer microprocessor microprogram minterms Motorola MOVE.W multiplication offset on-chip op-code operand output Pentium perform physical address pins pipeline pointer port PowerPC processor program counter provides reset result RISC sequence sequential circuit shown in Figure signal specified stack stored subroutine synchronous transistor truth table typical unsigned vector word zero