Dividend DS 6 Divisor DS 3 Temp DS 3 BitCount DS 1 ;********************************************************************** ; ;48 BY 23 BIT UNSIGNED DIVISION (Non-restoring method) ; ;********************************************************************** ; ; Input: Dividend, 6 bytes (Dividend+0 MSB, ... , Dividend+5 LSB) ; Divisor, 3 bytes (Divisor+0 MSB, ... , Divisor+2 LSB) ; ; Output: Dividend, 6 bytes (Dividend = Dividend / Divisor) ; Z - division by zero ; NZ - okay ; ; Temporary: Temp, 3 bytes - remainder ; BitCount, 1 byte - counter ; ; Size: 52 instructions ; ;Max timing: 3+5+6+28*48-2+7+3=1366 cycles ; ;********************************************************************** DIVIDE_48by23 ; Test for zero division mov W, Divisor or W, Divisor+1 or W, Divisor+2 snz ret ; divisor = zero, not possible to calculate - ; return with set zero flag (Z) ; clear remainder clr Temp clr Temp+1 clr Temp+2 mov W, #48 ; initialize bit counter mov BitCount, W stc ; set carry to perform subtraction ; first in the following loop DIVIDE_LOOP_48by23 ; shift in next result bit and ; shift out next bit of dividend rl Dividend+5 rl Dividend+4 rl Dividend+3 rl Dividend+2 rl Dividend+1 rl Dividend ; shift in highest bit from dividend through carry in temp rl Temp+2 rl Temp+1 rl Temp mov W, Divisor+2 ; load w with LSB of divisor ; to use it in subtraction or ; addition afterwards ; If previous result bit was set (subtraction was performed ; without borrow or addition made the remainder positive), ; subtract divisor from remainder, ; else add divisor to remainder sb Dividend+5.0 jmp Div48by23_add ; subtract 23 bit divisor from 24 bit temp, ; divisor LSB is in w sub Temp+2, W ; subtract LSB mov W, Divisor+1 ; get middle byte sc ; if overflow ( from prev. subtraction ) movsz W, ++Divisor+1 ; incresase source sub Temp+1, W ; and subtract from dest. mov W, Divisor ; get top byte sc ; if overflow ( from prev. subtraction ) movsz W, ++Divisor ; increase source sub Temp, W ; and subtract from dest. jmp DIVIDE_NEXT_48by23 ; jump to loop end Div48by23_add ; add 23 bit divisor to 24 bit temp ; divisor LSB is in w add Temp+2, W ; add LSB mov W, Divisor+1 ; middle byte snc ; check carry for overflow from previous addition movsz W, ++Divisor+1 ; if carry set we add 1 to the source add Temp+1, W ; and add it if not zero mov W, Divisor ; MSB byte snc ; check carry for overflow from previous addition movsz W, ++Divisor add Temp, W ; add DIVIDE_NEXT_48by23 ; carry contains next result bit decsz BitCount ; decrement loop counter (carry not influenced) jmp DIVIDE_LOOP_48by23 ; another run ; finally shift in the last carry rl Dividend+5 rl Dividend+4 rl Dividend+3 rl Dividend+2 rl Dividend+1 rl Dividend clz ; done, clear zero flag (NZ) and ret ; return ;**********************************************************************
file: /Techref/scenix/lib/math/div/48by23ng_sx.htm, 3KB, , updated: 2004/6/10 13:40, local time: 2024/11/22 04:50,
owner: NG--944,
18.117.166.193:LOG IN
|
©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions? <A HREF="http://ecomorder.com/techref/scenix/lib/math/div/48by23ng_sx.htm"> SX Microcontroller Math Method - Divide 48 bit int by 23 bit int to 48 bit int</A> |
Did you find what you needed? |
Welcome to ecomorder.com! |
Welcome to ecomorder.com! |
.