FUJITSU Implementation Supplement Fujitsu SPARC64 V User Manual
Page 91
80
SPARC JPS1 Implementation Supplement: Fujitsu SPARC64 V • Release 1.0, 1 July 2002
252
DCUCR.DC
(Data Cache Enable)
SPARC64 V
does not implement
DCUCR.DC
.
253
DCUCR.IC
(Instruction Cache Enable)
SPARC64 V does not implement
DCUCR.IC
.
254
Means of exiting
error_state
The standard behavior of a
SPARC64 V
CPU upon entry into
error_state
is to reset itself by internally generating a
watchdog_reset
(WDR). However,
OPSR
can be set so that when error_state is entered, the
processor remains halted in
error_state
instead of generating a
watchdog_reset
.
255
LDDFA
with ASI E0
16
or E1
16
and misaligned destination register number
No exception is generated based on the destination register rd.
256
LDDFA
with ASI E0
16
or E1
16
and misaligned memory address
For
LDDFA
with ASI E0
16
or E1
1
and a memory address aligned on a 2
n
-byte
boundary, a SPARC64 V processor behaves as follows:
n
≥
3 (
≥
8-byte alignment): no exception related to memory address
alignment is generated.
n = 2 (4-byte alignment):
LDDF_mem_address_not_aligned
exception is
generated.
n
≤
1 (
≤
2-byte alignment):
mem_address_not_aligned
exception is
generated.
257
LDDFA
with ASI C0
16
–C5
16
or
C8
16
–
CD
16
and misaligned memory address
For
LDDFA
with C0
16
–
C5
16
or
C8
16
–
CD
16
and a memory address aligned on
a 2
n
-byte boundary, a SPARC64 V processor behaves as follows:
n
≥
3 (
≥
8-byte alignment): no exception related to memory address
alignment is generated.
n = 2 (4-byte alignment):
LDDF_mem_address_not_aligned
exception is
generated.
n
≤
1 (
≤
2-byte alignment):
mem_address_not_aligned
exception is
generated.
258
ASI_SERIAL_ID
SPARC64 V provides an identification code for each processor.
TABLE C-1
SPARC64 V Implementation Dependencies (11 of 11)
Nbr
SPARC64 V Implementation Notes
Page