Posted to PICList Mon, 3 Jul 2000 00:04:54 -0400
LIST P = 16C54, n = 66 ; ;******************************************************************* ; Double Precision Multiplication ; ; ( Optimized for Speed : straight Line Code ) ; ;*******************************************************************; ; Multiplication : ACCb(16 bits) * ACCa(16 bits) -> ACCb,ACCc (32bits ) ; (a) Load the 1st operand in location ACCaLO & ACCaHI ( 16bits ) ; (b) Load the 2nd operand in location ACCbLO & ACCbHI ( 16bits ) ; (c) CALL D_mpy ; (d) The 32 bit result is in location (ACCbHI,ACCbLO,ACCcHI,ACCcLO ) ; ; Performance : ; Program Memory : 240 ; Clock Cycles : 233 (282) ; ; Note : The above timing is the worst case timing, when the ; register ACCb = FFFF. The speed may be improved if ; the register ACCb contains a number ( out of the two ; numbers ) with less number of 1s. ; ; The performance specs are for Unsigned arithmetic (i.e, ; with "SIGNED equ FALSE "). ; ; Program: DBL_MPYF.ASM ; Revision Date: ; 1-13-97 Compatibility with MPASMWIN 1.40 ; ;*******************************************************************; ; ACCaLO equ 10 ACCaHI equ 11 ACCbLO equ 12 ACCbHI equ 13 ACCcLO equ 14 ACCcHI equ 15 ACCdLO equ 16 ACCdHI equ 17 temp equ 18 sign equ 19 ;---------------------- ; Inserted by RAVI PAILOOR loopctr equ 1A ;---------------------- ; include "p16c5x.inc" PIC54 equ 1FFH ; Define Reset Vector TRUE equ 1 FALSE equ 0 org 0 ;******************************************************************* SIGNED equ FALSE ; Set This To 'TRUE' if the routines ; ; for Multiplication & Division needs ; ; to be assembled as Signed Integer ; ; Routines. If 'FALSE' the above two ; ; routines ( D_mpy & D_div ) use ; ; unsigned arithmetic. ;******************************************************************* ; multiplication macro ; mulMac MACRO LOCAL NO_ADD ; rrf ACCdHI, F ;rotate d right rrf ACCdLO, F btfss STATUS,C ;need to add? goto NO_ADD ; no addition necessary movf ACCaLO,W ; Addition ( ACCb + ACCa -> ACCb ) addwf ACCbLO, F ;add lsb btfsc STATUS,C ;add in carry incf ACCbHI, F movf ACCaHI,W addwf ACCbHI, F ;add msb NO_ADD rrf ACCbHI, F rrf ACCbLO, F rrf ACCcHI, F rrf ACCcLO, F ; ENDM ; ;*******************************************************************; ; Double Precision Multiply ( 16x16 -> 32 ) ; ( ACCb*ACCa -> ACCb,ACCc ) : 32 bit output with high word ; in ACCb ( ACCbHI,ACCbLO ) and low word in ACCc ( ACCcHI,ACCcLO ). ; D_mpyF ;results in ACCb(16 msb's) and ACCc(16 lsb's) ; IF SIGNED CALL S_SIGN ENDIF ; call setup ; ; use the mulMac macro 16 times ; ;---------------------- ; inserted by RAVI PAILOOR movlw .16 movwf loopctr ;---------------------- loop mulMac ;---------------------- ; inserted by RAVI PAILOOR decfsz loopctr,f goto loop ;---------------------- ORIGNAL ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac ; mulMac IF SIGNED btfss sign,MSB retlw 0 comf ACCcLO ; negate ACCa ( -ACCa -> ACCa ) incf ACCcLO btfsc STATUS,Z decf ACCcHI comf ACCcHI btfsc STATUS,Z neg_B comf ACCbLO ; negate ACCb incf ACCbLO btfsc STATUS,Z decf ACCbHI comf ACCbHI retlw 0 ELSE retlw 0 ENDIF ; ;******************************************************************* ; setup movlw .16 ; for 16 shifts movwf temp movf ACCbHI,W ;move ACCb to ACCd movwf ACCdHI movf ACCbLO,W movwf ACCdLO clrf ACCbHI clrf ACCbLO retlw 0 ; ;******************************************************************* ; neg_A comf ACCaLO, F ; negate ACCa ( -ACCa -> ACCa ) incf ACCaLO, F btfsc STATUS,Z decf ACCaHI, F comf ACCaHI, F retlw 0 ; ;******************************************************************* ; Assemble this section only if Signed Arithmetic Needed ; IF SIGNED ; S_SIGN movf ACCaHI,W xorwf ACCbHI,W movwf sign btfss ACCbHI,MSB ; if MSB set go & negate ACCb goto chek_A ; comf ACCbLO ; negate ACCb incf ACCbLO btfsc STATUS,Z decf ACCbHI comf ACCbHI ; chek_A btfss ACCaHI,MSB ; if MSB set go & negate ACCa retlw 0 goto neg_A ; ENDIF ; ;******************************************************************* ; Test Program ;******************************************************************* ; Load constant values to ACCa & ACCb for testing ; loadAB movlw 1 movwf ACCaHI movlw 0FF ; loads ACCa = 01FF movwf ACCaLO ; movlw 07F movwf ACCbHI movlw 0FF ; loads ACCb = 7FFF movwf ACCbLO retlw 0 ; main nop ; call loadAB ; result of multiplying ACCb*ACCa->(ACCb,ACCc) call D_mpyF ; Here (ACCb,ACCc) = 00FF 7E01 ; self goto self ; org PIC54 goto main END ;**************************************************************** -- Ravi Pailoor
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file: /Techref/microchip/math/mul/16x16rp.htm, 6KB, , updated: 2010/3/30 07:29, local time: 2024/12/27 21:42,
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