Microchip Technology ARD00385 Hoja De Datos
2009-2011 Microchip Technology Inc.
DS39957D-page 127
PIC18F87K90 FAMILY
9.0
8 x 8 HARDWARE MULTIPLIER
9.1
Introduction
All PIC18 devices include an 8 x 8 hardware multiplier
as part of the ALU. The multiplier performs an unsigned
operation and yields a 16-bit result that is stored in the
product register pair, PRODH:PRODL. The multiplier’s
operation does not affect any flags in the STATUS
register.
Making multiplication a hardware operation allows it to
be completed in a single instruction cycle. This has the
advantages of higher computational throughput and
reduced code size for multiplication algorithms and
allows PIC18 devices to be used in many applications
previously reserved for digital-signal processors. A
comparison of various hardware and software multiply
operations, along with the savings in memory and
execution time, is shown in
as part of the ALU. The multiplier performs an unsigned
operation and yields a 16-bit result that is stored in the
product register pair, PRODH:PRODL. The multiplier’s
operation does not affect any flags in the STATUS
register.
Making multiplication a hardware operation allows it to
be completed in a single instruction cycle. This has the
advantages of higher computational throughput and
reduced code size for multiplication algorithms and
allows PIC18 devices to be used in many applications
previously reserved for digital-signal processors. A
comparison of various hardware and software multiply
operations, along with the savings in memory and
execution time, is shown in
9.2
Operation
shows the instruction sequence for an 8 x 8
unsigned multiplication. Only one instruction is required
when one of the arguments is already loaded in the
WREG register.
when one of the arguments is already loaded in the
WREG register.
shows the sequence to do an 8 x 8 signed
multiplication. To account for the sign bits of the argu-
ments, each argument’s Most Significant bit (MSb) is
tested and the appropriate subtractions are done.
ments, each argument’s Most Significant bit (MSb) is
tested and the appropriate subtractions are done.
EXAMPLE 9-1:
8 x 8 UNSIGNED
MULTIPLY ROUTINE
MULTIPLY ROUTINE
EXAMPLE 9-2:
8 x 8 SIGNED MULTIPLY
ROUTINE
ROUTINE
TABLE 9-1:
PERFORMANCE COMPARISON FOR VARIOUS MULTIPLY OPERATIONS
MOVF
ARG1, W
;
MULWF
ARG2
; ARG1 * ARG2 ->
; PRODH:PRODL
MOVF
ARG1, W
MULWF
ARG2
; ARG1 * ARG2 ->
; PRODH:PRODL
BTFSC
ARG2, SB
; Test Sign Bit
SUBWF
PRODH, F
; PRODH = PRODH
; - ARG1
MOVF
ARG2, W
BTFSC
ARG1, SB
; Test Sign Bit
SUBWF
PRODH, F
; PRODH = PRODH
; - ARG2
Routine
Multiply Method
Program
Memory
(Words)
Cycles
(Max)
Time
@ 64 MHz
@ 48 MHz
@ 10 MHz
@ 4 MHz
8 x 8 Unsigned
Without Hardware Multiply
13
69
4.3
s
5.7
s
27.6
s
69
s
Hardware Multiply
1
1
62.5 ns
83.3 ns
400 ns
1
s
8 x 8 Signed
Without Hardware Multiply
33
91
5.6
s
7.5
s
36.4
s
91
s
Hardware Multiply
6
6
375 ns
500 ns
2.4
s
6
s
16 x 16
Unsigned
Unsigned
Without Hardware Multiply
21
242
15.1
s
20.1
s
96.8
s
242
s
Hardware Multiply
28
28
1.7
s
2.3
s
11.2
s
28
s
16 x 16 Signed
Without Hardware Multiply
52
254
15.8
s
21.2
s
101.6
s
254
s
Hardware Multiply
35
40
2.5
s
3.3
s
16.0
s
40
s