MDDR Subsystem
Microsemi Proprietary UG0446 User Guide Revision 7.0
93
[15:0]
DDRC_REG_ECC_SYNDROMES 0×0
72 bits are split into five registers.
[31:16] bits of DDRC_REG_ECC_SYNDROMES.
First data which has SECDED error in it. 72 bits consists
of the following:
SECDED:
[71:64] – SECDED
[63:00] – Data
In the same clock cycle, if one lane has a correctable error
and the other lane has an uncorrectable error, the
syndrome for the uncorrectable error is sent on this bus. If
more than one data lane has an error in it, the lower data
lane is selected. The priority applied when there are
multiple errors in the same cycle is as follows:
Uncorrectable error, lower lane
Uncorrectable error, upper lane
Correctable error, lower lane
Correctable error, upper lane
Only present in designs that support SECDED.
This is cleared after
DDRC_ECC_INT_CLR_REG is written over by the
system.
Table 83 •
DDRC_LUE_SYNDROME_3_SR
Bit
Number Name
Reset
Value
Description
[31:16]
Reserved
0×0
Software should not rely on the value of a reserved bit. To
provide compatibility with future products, the value of a
reserved bit should be preserved across a read-modify-
write operation.
[15:0]
DDRC_REG_ECC_SYNDROMES 0×0
72 bits are split into five registers.
[47:32] bits of DDRC_REG_ECC_SYNDROMES.
First data which has SECDED error in it. 72 bits consists of
the following:
SECDED:
[71:64] – SECDED
[63:00] – Data
In the same clock cycle, if one lane has a correctable error
and the other lane has an uncorrectable error, the
syndrome for the uncorrectable error is sent on this bus. If
more than one data lane has an error in it, the lower data
lane is selected. The priority applied when there are
multiple errors in the same cycle is as follows:
Uncorrectable error, lower lane
Uncorrectable error, upper lane
Correctable error, lower lane
Correctable error, upper lane
Only present in designs that support SECDED.
This is cleared after DDRC_ECC_INT_CLR_REG is written
over by the system.
Table 82 •
DDRC_LUE_SYNDROME_2_SR