PIC18F452-I/PT Microchip Technology Inc., PIC18F452-I/PT Datasheet - Page 73

PIC18F452-I/PT

Manufacturer Part Number

PIC18F452-I/PT

Description

44 PIN, 32 KB FLASH, 1536 RAM, 34 I/O

Manufacturer

Microchip Technology Inc.

Datasheet

1.PIC18F452-IPT.pdf (332 pages)

Specifications of PIC18F452-I/PT

A/d Inputs

8-Channel, 10-Bit

Comparators

Cpu Speed

10 MIPS

Eeprom Memory

256 Bytes

Input Output

Interface

I2C/SPI/USART

Memory Type

Flash

Number Of Bits

Package Type

44-pin TQFP

Programmable Memory

32K Bytes

Ram Size

1.5K Bytes

Speed

40 MHz

Timers

1-8-bit, 3-16-bit

Voltage, Range

2-5.5 V

Lead Free Status / Rohs Status

RoHS Compliant part Electrostatic Device

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Current page: 73 of 332
Download datasheet (6Mb)

7.0

7.1

An 8 x 8 hardware multiplier is included in the ALU of

the PIC18FXX2 devices. By making the multiply a

hardware operation, it completes in a single instruction

cycle. This is an unsigned multiply that gives a 16-bit

result. The result is stored into the 16-bit product regis-

ter pair (PRODH:PRODL). The multiplier does not

affect any flags in the ALUSTA register.

TABLE 7-1:

7.2

Example 7-1 shows the sequence to do an 8 x 8

unsigned multiply. Only one instruction is required

when one argument of the multiply is already loaded in

the WREG register.

Example 7-2 shows the sequence to do an 8 x 8 signed

multiply. To account for the sign bits of the arguments,

each argument’s Most Significant bit (MSb) is tested

and the appropriate subtractions are done.

EXAMPLE 7-1:

MOVF

MULWF

16 x 16 unsigned

8 x 8 unsigned

16 x 16 signed

8 x 8 signed

Routine

8 X 8 HARDWARE MULTIPLIER

Introduction

Operation

ARG1, W

ARG2

PERFORMANCE COMPARISON

8 x 8 UNSIGNED

MULTIPLY ROUTINE

Without hardware multiply

;

; ARG1 * ARG2 ->

;

Hardware multiply

Multiply Method

PRODH:PRODL

Program

Memory

(Words)

Making the 8 x 8 multiplier execute in a single cycle

gives the following advantages:

• Higher computational throughput

• Reduces code size requirements for multiply

The performance increase allows the device to be used

in applications previously reserved for Digital Signal

Processors.

Table 7-1 shows a performance comparison between

enhanced devices using the single cycle hardware mul-

tiply, and performing the same function without the

hardware multiply.

EXAMPLE 7-2:

Example 7-3 shows the sequence to do a 16 x 16

unsigned multiply. Equation 7-1 shows the algorithm

that is used. The 32-bit result is stored in four registers,

RES3:RES0.

EQUATION 7-1:

RES3:RES0

MOVF

MULWF

BTFSC

SUBWF

MOVF

BTFSC

SUBWF

algorithms

Cycles

(Max)

242

254

ARG1,

ARG2

ARG2,

PRODH, F

ARG2,

ARG1,

PRODH, F

@ 40 MHz

24.2 s

25.4 s

100 ns

600 ns

6.9 s

9.1 s

2.4 s

3.6 s

ARG1H:ARG1L ARG2H:ARG2L

(ARG1H ARG2H 2

(ARG1H ARG2L 2

(ARG1L ARG2H 2

(ARG1L ARG2L)

8 x 8 SIGNED MULTIPLY

ROUTINE

16 x 16 UNSIGNED

MULTIPLICATION

ALGORITHM

PIC18FXX2

; ARG1 * ARG2 ->

; PRODH:PRODL

; Test Sign Bit

; PRODH = PRODH

;

; Test Sign Bit

; PRODH = PRODH

;

@ 10 MHz

102.6 s

27.6 s

36.4 s

96.8 s

14.4 s

400 ns

Time

9.6 s

2.4 s

DS39564C-page 71

- ARG1

- ARG2

) +

@ 4 MHz

242 s

254 s

69 s

91 s

24 s

36 s

1 s

6 s

PIC18F452-I/PT Microchip Technology Inc., PIC18F452-I/PT Datasheet - Page 73

PIC18F452-I/PT

Specifications of PIC18F452-I/PT

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