2 powerquicc ii-specific registers, Table 2-1. hid0 field descriptions (continued), Powerquicc ii-specific registers -11 – Freescale Semiconductor MPC8260 User Manual

Page 129: Hardware implementation register 0 (hid0) -11, Hid0 field descriptions -11

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G2 Core

MPC8260 PowerQUICC II Family Reference Manual, Rev. 2

Freescale Semiconductor

2-11

2.3.1.2

PowerQUICC II-Specific Registers

The set of registers specific to the MPC603e are also shown in

Figure 2-2

. Most of these are described in

the G2 Core Reference Manual and are implemented in the PowerQUICC II as follows:

MMU software table search registers: DMISS, DCMP, HASH1, HASH2, IMISS, ICMP, and RPA.
These registers facilitate the software required to search the page tables in memory.

IABR. This register facilitates the setting of instruction breakpoints.

The hardware implementation-dependent registers (HIDx) are implemented differently in the
PowerQUICC II, and they are described in the following subsections.

2.3.1.2.1

Hardware Implementation-Dependent Register 0 (HID0)

Figure 2-3

shows the PowerQUICC II implementation of HID0.

Table 2-1

shows the bit definitions for HID0.

0

1

2

3

4

6

7

8

9

10

11

12

14

15

EMCP

EBA

EBD

PAR DOZE

SLEEP

DPM

NHR

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

ICE

DCE

ILOCK DLOCK ICFI DCFI

IFEM

FBIOB

ABE

NOOPTI

Figure 2-3. Hardware Implementation Register 0 (HID0)

Table 2-1. HID0 Field Descriptions

Bits

Name

Description

0

EMCP

Enable machine check input pin
0 The assertion of the MCP does not cause a machine check exception.
1 Enables the entry into a machine check exception based on assertion of the MCP input,

detection of a Cache Parity Error, detection of an address parity error, or detection of a data
parity error.

Note that the machine check exception is further affected by MSR[ME], which specifies whether
the processor checkstops or continues processing.

1

Reserved

2

EBA

Enable/disable 60x bus address parity checking
0 Prevents address parity checking.
1 Allows a address parity error to cause a checkstop if MSR[ME] = 0 or a machine check

exception if MSR[ME] = 1.

EBA and EBD let the processor operate with memory subsystems that do not generate parity.

3

EBD

Enable 60x bus data parity checking
0 Parity checking is disabled.
1 Allows a data parity error to cause a checkstop if MSR[ME] = 0 or a machine check exception

if MSR[ME] = 1.

EBA and EBD let the processor operate with memory subsystems that do not generate parity.

4–6

Reserved

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