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MicroBlaze Processor Reference Guide
UG081 (v14.7)
Chapter 3:
MicroBlaze Signal Interface Description
•
Linear fetch is used by the IXCL2 and DXCL2 protocol, selected when
C_ICACHE_INTERFACE
= 1 (IXCL2) and
C_DCACHE_INTERFACE
= 1 (DXCL2),
respectively. The address output on the CacheLink is then aligned to the cache line size (that is,
if an access to address 0x348 is a miss with a 4 word cache line, then the address output on the
CacheLink is 0x340). The cache controller stores data in the cache memory, and forwards the
requested word to the execution unit when it is available.
When the parameter
C_DCACHE_USE_WRITEBACK
is set to 1, write operations can store an
entire cache line using burst write, as well as single-words. Each cache line is always stored in linear
order, and the address output on the CacheLink is aligned to the cache line size. When the parameter
C_DCACHE_USE_WRITEBACK
is cleared to 0, all write operations on the CacheLink are single-
word.
C_DCACHE_INTERFACE
must be set to 1 (DXCL2) when write-back is used, since burst
write is only available with the DXCL2 protocol.
Instruction Cache Read Miss
On a read miss the cache controller performs the following sequence:
1. Write the word aligned
(1)
or cache line aligned missed address to
ICACHE_FSL_OUT_Data
,
with the control bit set low (
ICACHE_FSL_OUT_Control
= 0) to indicate a read access
2. Wait until
ICACHE_FSL_IN_Exists
goes high to indicate that data is available
Note:
There must be at least one clock cycle before
ICACHE_FSL_IN_Exists
goes high (
that is
,
at least one wait state must be used).
With the IXCL protocol (critical word first):
3. Store the word from
ICACHE_FSL_IN_Data
to the cache
4. Forward the critical word to the execution unit in order to resume execution
5. Repeat 3 and 4 for the subsequent 3 or 7 words in the cache line
With the IXCL2 protocol (linear fetch):
3. Store words from
ICACHE_FSL_IN_Data
to the cache
4. Forward the relevant word to the execution unit in order to resume execution
5. Store remaining words from
ICACHE_FSL_IN_Data
to the cache
Data Cache Read Miss
On a read miss the cache controller will perform the following sequence:
1. If
DCACHE_FSL_OUT_Full
= 1 then stall until it goes low
2. Write the word aligned
or cache line aligned missed address to
DCACHE_FSL_OUT_Data
,
with the control bit set low (
DCACHE_FSL_OUT_Control
= 0) to indicate a read access
3. Wait until
DCACHE_FSL_IN_Exists
goes high to indicate that data is available
Note:
There must be at least one clock cycle before
DCACHE_FSL_IN_Exists
goes high (
that is
,
at least one wait state must be used).
With the DXCL protocol (critical word first):
4. Store the word from
DCACHE_FSL_IN_Data
to the cache
5. Forward the critical word to the execution unit in order to resume execution
6. Repeat 4 and 5 for the subsequent 3 or 7 words in the cache line
1. Byte and halfword read misses are naturally expected to return complete words, the cache controller then provides the
execution unit with the correct bytes.
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