MC68LC060RC66 Freescale Semiconductor, MC68LC060RC66 Datasheet - Page 110

MC68LC060RC66

Manufacturer Part Number

MC68LC060RC66

Description

IC MPU 32BIT 66MHZ 206-PGA

Manufacturer

Freescale Semiconductor

Datasheet

1.MC68060RC50.pdf (416 pages)

Specifications of MC68LC060RC66

Processor Type

M680x0 32-Bit

Speed

66MHz

Voltage

3.3V

Mounting Type

Surface Mount

Package / Case

206-PGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

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cache if the corresponding data in memory is modified. Invalidating instruction cache lines

before writing to the corresponding memory lines can prevent this coherency problem, but

only if the data cache line is in writethrough or cache-inhibited mode. A cache coherency

problem could arise if the data cache line is configured as copyback.

To fully support self-modifying code in any situation, it is imperative that a CPUSHA instruc-

tion specifying both caches be executed before the execution of the first self-modified

instruction. The CPUSHA instruction has the effect of ensuring that there is no stale data in

memory, the pipeline is flushed, and instruction prefetches are repeated and taken from

external memory.

5.7 MEMORY ACCESSES FOR CACHE MAINTENANCE

The cache controller in each memory unit performs all maintenance activities that supply

data from the cache to the instruction and operand pipeline units. The activities include

requesting accesses to the bus interface unit for reading new cache lines and writing dirty

cache lines to memory. The following paragraphs describe the memory accesses resulting

from cache fill operations (by both caches) and push operations (by the data cache). Refer

to Section 7 Bus Operation for detailed information about the bus cycles required.

5.7.1 Cache Filling

When a new cache line is required, the cache controller requests a line read from the bus

controller. The bus controller requests a burst read transfer by indicating a line access with

the size signals (SIZ1, SIZ0) and indicates which line in the set is being loaded with the

transfer line number signals (TLN1, TLN0). TLN1 and TLN0 are undefined for the instruction

cache. These pins indicate the appropriate line numbers for cache transfers. Table 5-1 lists

the definition of the TLNx encoding.

The responding device sequentially supplies four long words of data and can assert the

transfer cache inhibit signal (TCI) if the line is not cachable. If the responding device does

not support the burst mode, it should assert the TBI signal for the first long word of the line

access. The bus controller responds by terminating the line access and completes the

remainder of the line read as three, sequential, long-word reads.

Bus controller line accesses implicitly request burst mode operations from external memory.

To operate in the burst mode, the device or external hardware must be able to increment

the low-order address bits as described in Section 7 Bus Operation . The device indicates

its ability to support the burst access by acknowledging the initial long-word transfer with

transfer acknowledge (TA) asserted and TBI negated. This procedure causes the processor

to continue to drive the address and bus control signals and to latch a new data value for

the cache line at the completion of each subsequent cycle (as defined by TA) for a total of

MOTOROLA

Table 5-1. TLNx Encoding

TLN1

M68060 USER’S MANUAL

TLN0

Three

Line

Zero

One

Two

Caches

5-11

MC68LC060RC66 Freescale Semiconductor, MC68LC060RC66 Datasheet - Page 110

MC68LC060RC66

Specifications of MC68LC060RC66

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