MPC8313CZQADDC Freescale Semiconductor, MPC8313CZQADDC Datasheet - Page 356

MPC8313CZQADDC

Manufacturer Part Number

MPC8313CZQADDC

Description

Microprocessors - MPU 8313 REV2.2 PB NO EN EXT

Manufacturer

Freescale Semiconductor

Datasheet

1.MPC8313CZQADDC.pdf (1214 pages)

Specifications of MPC8313CZQADDC

Processor Series

MPC8313

Core

e300

Data Bus Width

16 bit

Maximum Clock Frequency

133 MHz

Program Memory Size

16 KB

Data Ram Size

16 KB

Interface Type

I2C

Mounting Style

SMD/SMT

Package / Case

PBGA

Number Of Programmable I/os

Number Of Timers

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e300 Processor Core Overview

7.3.8

Some new debug features are specific to the e300 core. Accesses to the debug facilities are available only

in supervisor mode by using the mtspr and mfspr instructions. The e300 provides the following additional

feature in the JTAG/debug interface: Inclusion of breakpoint status and control pins: stopped and ext_halt.

7.3.8.1

The breakpoint signaling provided on the e300 core allows observability of breakpoint matches external

to the core. The iabr, iabr2, dabr, and dabr2 breakpoint signals are asserted for at least one bus clock cycle

when the respective breakpoint occurs. The status of the run state of the e300 core is indicated by the

stopped pin. An asynchronous external breakpoint can be asserted to the e300 core using the ext_halt pin:

7-38

•

JTAG/debug interface signals—The JTAG (based on the IEEE 1149.1 standard) interface and

debug unit provides a serial interface to the system for performing monitoring and boundary tests.

Two additional signals are added to the e300 core to allow observation of the internal clock state

of the core (stopped) and to allow the external input to force the core into a halted state (ext_halt).

Core status and control—These signals include the memory reservation signal, machine quiesce

control signals, time base/decrementer clock base enable signal, and the tlbisync signal.

Clock control—These signals provide for system clock input and frequency control.

Test interface signals—Signals like address matching, combinational matching, and watchpoint

are used in the core for production testing.

Transfer attribute signals—These signals provide information about the type of transfer, such as

the transfer size and whether the transaction is bursted, write-through, or cache-inhibited.

When DBCR and IBCR are configured for an OR combinational signal type, the breakpoint signals

iabr, iabr2 and dabr, dabr2 reflect their respective breakpoints.

When the DBCR and IBCR are configured for AND combinational signal type, only the iabr2 and

dabr2 breakpoint signals are asserted after the AND condition is met (that is, both instruction

breakpoints occurred or both data breakpoints occurred).

When the core_stopped pin is asserted, the e300 core has entered a stopped state and all internal

clocking has stopped, indicating that a hardware debug event has occurred.

The ext_halt input pin can be used to force the core into halted state. The halted state may be a

hardstop, conditional upon the HARDSTOP condition being set through the JTAG/debug interface

Debug Features

Breakpoint Signaling

MPC8313E PowerQUICC™ II Pro Integrated Processor Family Reference Manual, Rev. 2

Freescale Semiconductor

MPC8313CZQADDC Freescale Semiconductor, MPC8313CZQADDC Datasheet - Page 356

MPC8313CZQADDC

Specifications of MPC8313CZQADDC

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