ARM r1p3 Computer Hardware User Manual


 
Level Two Interface
ARM DDI 0363E Copyright © 2009 ARM Limited. All rights reserved. 9-17
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If the data comes from two cache lines, then there are two AXI transactions. For example,
for
LDMIA R10, {R0-R5}
with
R10 = 0x1010
, the interface might generate one burst of two
64-bit reads, and one burst of a single 64-bit read, as shown in Table 9-20.
Table 9-21 shows possible values of ARADDRM, ARBURSTM, ARSIZEM, and ARLENM
for an
LDR
or
LDM
1 to Non-cacheable Normal memory that crosses a cache line boundary.
Table 9-22 shows possible values of ARADDRM, ARBURSTM, ARSIZEM, and ARLENM
for an
STRH
to Non-cacheable Normal memory that crosses a cache line boundary.
9.3.8 Normal write merging
A store instruction to Non-cacheable, or write-through Normal memory might not result in an
AXI transfer because of the merging of store data in the internal buffers.
The STB can detect when it contains more than one write request to the same cache line for
write-through Cacheable or Non-cacheable Normal memory. This means it can combine the
data from more than one instruction into a single write burst to improve the efficiency of the
AXI port. If the AXI master receives several write requests that do not form a single contiguous
burst it can choose to output a single burst, with the WSTRBW signal low for the bytes that do
not have any data.
For write accesses to Normal memory, the STB can perform writes out of order, if there are no
address dependencies. It can do this to best use its ability to merge accesses.
The instruction sequence in Example 9-1 on page 9-18 shows the merging of writes.
Table 9-20 AXI transaction splitting, data in two cache lines
ARADDRM ARBURSTM ARSIZEM ARLENM
0x1010
Incr 64-bit 2 data transfers
0x1020
Incr 64-bit 1 data transfer
Table 9-21 Non-cacheable LDR or LDM1 crossing a cache line boundary
Address[4:0] ARADDRM ARBURSTM ARSIZEM ARLENM
0x1D
(byte 29)
0x1C
Incr 32-bit 1 data transfer
0x00
Incr 32-bit 1 data transfer
0x1E
(byte 30)
0x1E
Incr 16-bit 1 data transfer
0x00
Incr 64-bit 1 data transfer
0x1F
(byte 31)
0x1F
Incr 8-bit 1 data transfer
0x00
Incr 32-bit 1 data transfer
Table 9-22 Cacheable write-through or Non-cacheable STRH crossing a cache line
boundary
Address[4:0] AWADDRM AWBURSTM AWSIZEM AWLENM WSTRBM
0x1F
(byte 31)
0x1F
Incr 8-bit 1 data transfer b10000000
0x00
Incr 16-bit 1 data transfer b00000001