please dont rip this site

PIC Microcontoller Math Method

Multiply 16x16 bit from Ravi Pailoor

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

Comments:


file: /Techref/microchip/math/mul/16x16rp.htm, 6KB, , updated: 2010/3/30 07:29, local time: 2024/12/27 21:42,
TOP NEW HELP FIND: 
18.225.209.71: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?
Please DO link to this page! Digg it! / MAKE!

<A HREF="http://ecomorder.com/techref/microchip/math/mul/16x16rp.htm"> PIC Microcontoller Math Method Multiply 16x16 bit from Ravi Pailoor</A>

After you find an appropriate page, you are invited to your to this massmind site! (posts will be visible only to you before review) Just type a nice message (short messages are blocked as spam) in the box and press the Post button. (HTML welcomed, but not the <A tag: Instead, use the link box to link to another page. A tutorial is available Members can login to post directly, become page editors, and be credited for their posts.


Link? Put it here: 
if you want a response, please enter your email address: 
Attn spammers: All posts are reviewed before being made visible to anyone other than the poster.
Did you find what you needed?

 

Welcome to ecomorder.com!

 

Welcome to ecomorder.com!

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  .