Computer Architecture |
From inside the book
Results 1-3 of 34
Page 5
... represent the radix itself . It is always represented by the combination : 10 . Thus the figure pair we usually call " ten " can represent 2 , 3 or " one more than nine . " To eliminate confusion , we will subscript numbers with their ...
... represent the radix itself . It is always represented by the combination : 10 . Thus the figure pair we usually call " ten " can represent 2 , 3 or " one more than nine . " To eliminate confusion , we will subscript numbers with their ...
Page 16
... represent the exponent , and finally several more bits to represent the mantissa , so scaled that it lies between one - half and one * . Thus the number , is represented by ± m . 2x ± , x , m where x is adjusted so that the first bit of ...
... represent the exponent , and finally several more bits to represent the mantissa , so scaled that it lies between one - half and one * . Thus the number , is represented by ± m . 2x ± , x , m where x is adjusted so that the first bit of ...
Page 21
... represent the number 1. Following this through , we will have 7 states unassigned , any one of which may be chosen to represent the number 9. The total number of codes that exist for representing the decimal digits in 4 bits is the ...
... represent the number 1. Following this through , we will have 7 states unassigned , any one of which may be chosen to represent the number 9. The total number of codes that exist for representing the decimal digits in 4 bits is the ...
Contents
THE REPRESENTATION OF INFORMATION | 1 |
PUTTING THE BITS TOGETHER | 4 |
GATES AND ELEMENTARY LOGIC | 27 |
Copyright | |
11 other sections not shown
Other editions - View all
Common terms and phrases
accumulator adder Address Bus address field binary numbers bit pattern black box block byte called chapter circuit Clear comparand copy core Data Bus data channel decimal device digit drive strap drum effective address element example execute exponent FETCH cycle flip-flop four gates index registers INDIGO input combination instruction register integer load logical machine magnetic main store mantissa Memory Address Register Memory Buffer Register minus modular arithmetic modulo negative numbers notation nsec octal one's complement op-code operand operation output parametron possible program counter pulse pushdown stack Question radix complement register group represent the number reset Residue Number System responders response store S₁ scratch pad sense line shift register shown in Fig shows sign bit signal specify speed storage subroutine subtract Suppose symbols tape tion transfer truth table TWO's complement wire word write XXXX ZERO