mpc604e Freescale Semiconductor, Inc, mpc604e Datasheet - Page 24

mpc604e

Manufacturer Part Number

mpc604e

Description

Powerpc 604e-tm Risc Microprocessor Technical Summary

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MPC604E.pdf (34 pages)

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The 604e includes the following registers not deﬁned by the PowerPC architecture:

Note that while it is not guaranteed that the implementation of HID registers is consistent among PowerPC

processors, other processors may be implemented with similar or identical HID registers.

2.1.2 Instruction Set and Addressing Modes

The following subsections describe the PowerPC instruction set and addressing modes in general.

2.1.2.1 PowerPC Instruction Set and Addressing Modes

All PowerPC instructions are encoded as single-word (32-bit) opcodes. Instruction formats are consistent

among all instruction types, permitting efﬁcient decoding to occur in parallel with operand accesses. This

ﬁxed instruction length and consistent format greatly simpliﬁes instruction pipelining.

2.1.2.1.1 Instruction Set

The 604e implements the entire PowerPC instruction set (for 32-bit implementations) and most optional

PowerPC instructions. The PowerPC instructions can be grouped into the following general categories:

•

subdivision of the processor clock frequency. In the 604e. the time base frequency is 1/4th of the

bus clock frequency (as is the decrementer frequency). Counting is enabled by the Time Base

Enable (TBE) signal.

Block address translation (BAT) registers—The PowerPC architecture deﬁnes 16 BAT registers,

divided into four pairs of data BATs (DBATs) and four pairs of instruction BATs (IBATs).

Data address breakpoint register (DABR)—This register, deﬁned as optional by the PowerPC

architecture, can be used to cause a breakpoint exception to occur if a speciﬁed data address is

encountered.

Instruction address breakpoint register (IABR)—This register can be used to cause a breakpoint

exception to occur if a speciﬁed instruction address is encountered.

Hardware implementation-dependent register 0 (HID0)—This register is used to control various

functions within the 604e, such as enabling checkstop conditions, and locking, enabling, and

invalidating the instruction and data caches. Additional bits deﬁned in the HID0 register disable the

BTAC, control whether coherency is maintained for instruction fetches, and for disabling the

default precharge values for the shared (SHD) and address retry (ARTRY) signals.

Hardware implementation-dependent register 1 (HID1)—This register, which is not implemented

in the 604, is used to display the PLL conﬁguration.

Processor identiﬁcation register (PIR)—The PIR is a supervisor-level register that has a right-

justiﬁed, four-bit ﬁeld that holds a processor identiﬁcation tag used to identify a particular 604e.

This tag is used to identify the processor in multiple-master implementations.

Performance monitor counter registers (PMC1–PMC4). The counters are used to record the number

of times a certain event has occurred. PMC3 and PMC4 are not implemented in the 604.

Performance monitor control registers (MMCR0 and MMCR1)—These registers are used for

enabling various performance monitoring interrupt conditions and establishes the function of the

counters. MMCR1 is not implemented in the 604.

Sampled instruction address and sampled data address registers (SIA and SDA)—These registers

hold the addresses for instruction and data used by the performance monitoring interrupt.

Integer instructions—These include computational and logical instructions.

— Integer arithmetic instructions

— Integer compare instructions

PowerPC 604e RISC Microprocessor Technical Summary

mpc604e Freescale Semiconductor, Inc, mpc604e Datasheet - Page 24

mpc604e

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