Digital Computer Programming"Provides a general introduction to the entire field, with emphasis on the basic principles"--Preface |
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Page 79
... Square Root Loop The method commonly used to compute square roots illustrates that a loop need not be repeated a fixed number of times . It also brings in some of the points discussed in previous chapters , and is worth discussing in ...
... Square Root Loop The method commonly used to compute square roots illustrates that a loop need not be repeated a fixed number of times . It also brings in some of the points discussed in previous chapters , and is worth discussing in ...
Page 111
... square root must be found , or a cosine evaluated , or a group of numbers sorted , or a system of simul- taneous ... square root . The number whose square root is to be taken is placed in the MQ before jumping from the main program over ...
... square root must be found , or a cosine evaluated , or a group of numbers sorted , or a system of simul- taneous ... square root . The number whose square root is to be taken is placed in the MQ before jumping from the main program over ...
Page 118
... square root is located starting at 1050 ; the number whose square root is to be taken is placed in the MQ , and the square root is placed there by the subroutine . Write a program to evaluate y = √x + a + √ x2 + a x is in 200 , a in ...
... square root is located starting at 1050 ; the number whose square root is to be taken is placed in the MQ , and the square root is placed there by the subroutine . Write a program to evaluate y = √x + a + √ x2 + a x is in 200 , a in ...
Contents
Computing Fundamentals | 1 |
Coding Fundamentals | 13 |
Binary and Octal Number Systems | 30 |
Copyright | |
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00 Halt-jump 01 Un jump 11 Add Loc 33 Long right 40 Store acc 41 Store address 42 Load MQ 43 Store MQ Acc plus jump Acc zero jump accumulator and MQ arithmetic operations arithmetic registers binary calculation calling sequence Chapter checkout Clear add Loc code number CODE OPERATION ABBREVIATION decimal digit decimal point divide stop double precision effective address error evaluate example executed exponent Fl add floating point flow chart fractional function index register input instruction register integer interpretive jump instruction jump table load program LOCATION CODE OPERATION machine magnetic magnetic drum magnetic tape main program Mem to ind method multiply octal OPERATION ABBREVIATION ADDRESS operation code OPERATION LOCATION CODE output parity bit possible problem punched cards routine scale factor Set ind jump shift simply specified square root steps storage stored program subroutine subtract tion TYDAC Univac written