Fundamentals of Digital Logic and Microcomputer DesignRafi Systems, Incorporated, 1999 - 828 sayfa |
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80 sonuçtan 1-3 arası sonuçlar
Sayfa 233
... determined by the capabilities of the microprocessor . Its clock frequency determines the speed of the microcomputer ... determine how convenient and easy it is to program this microprocessor . We first describe the most basic types of ...
... determined by the capabilities of the microprocessor . Its clock frequency determines the speed of the microcomputer ... determine how convenient and easy it is to program this microprocessor . We first describe the most basic types of ...
Sayfa 421
... determine the number of bytes required by the program . The easiest to use the offset address for the last line of code ( usually the last instruction will be INT 3 ) , and then add 1 to it . This number is stored in register CX using ...
... determine the number of bytes required by the program . The easiest to use the offset address for the last line of code ( usually the last instruction will be INT 3 ) , and then add 1 to it . This number is stored in register CX using ...
Sayfa 645
... determine which kind of comparison to employ . If the programmer wishes to have the bounds evalu- ated as signed values , the arithmetically smaller value should be the lower bound . If the bounds are to be evaluated as unsigned values ...
... determine which kind of comparison to employ . If the programmer wishes to have the bounds evalu- ated as signed values , the arithmetically smaller value should be the lower bound . If the bounds are to be evaluated as unsigned values ...
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