Lucent Technologies Release 7 User Manual
DEFINITY Enterprise Communications Server Release 7
Maintenance for R7r
Maintenance for R7r
555-230-126
Issue 4
June 1999
Maintenance Object Repair Procedures
9-1343
PROCR (RISC Processor Circuit Pack)
9
PROCR (RISC Processor Circuit Pack)
The UN331B Processor circuit pack executes the system software, including all
call processing, maintenance and administration functions. The Processor circuit
pack is the most critical component for correct system operation.
call processing, maintenance and administration functions. The Processor circuit
pack is the most critical component for correct system operation.
Full system operation depends on nearly every circuit pack in the SPE. However,
the ability to load and run the maintenance software by the Processor circuit
pack depends only on correct Memory, Processor Bus, Tape-Disk-MSSNET and
SYSAM operation.
the ability to load and run the maintenance software by the Processor circuit
pack depends only on correct Memory, Processor Bus, Tape-Disk-MSSNET and
SYSAM operation.
There are many Processor circuit pack problems (or other SPE problems) that will
result in the SPE being unable to load or run software. This condition is indicated
by the message "SPE Down" displayed on the terminal. In these cases, refer to
the SPE DOWN section of this manual for repair procedures.
result in the SPE being unable to load or run software. This condition is indicated
by the message "SPE Down" displayed on the terminal. In these cases, refer to
the SPE DOWN section of this manual for repair procedures.
The Processor circuit pack contains an instruction cache and a data cache.
These caches provide local, high speed memory that is closely coupled with the
processing function on the Processor circuit pack. The local nature of the caches
speeds up system operation by eliminating many external Memory accesses
when reading instructions or data. As the Processor runs, it tries to use
information already in the cache so that time will not be wasted going out to
memory. If it does not find the information in the cache, it reads it from memory
and stores it in the cache for possible future use. Over time, most instruction or
data accesses are likely to be satisfied by current information in the cache.
Problems in the cache circuits may stop the Processor from running or may only
result in reduced system performance.
These caches provide local, high speed memory that is closely coupled with the
processing function on the Processor circuit pack. The local nature of the caches
speeds up system operation by eliminating many external Memory accesses
when reading instructions or data. As the Processor runs, it tries to use
information already in the cache so that time will not be wasted going out to
memory. If it does not find the information in the cache, it reads it from memory
and stores it in the cache for possible future use. Over time, most instruction or
data accesses are likely to be satisfied by current information in the cache.
Problems in the cache circuits may stop the Processor from running or may only
result in reduced system performance.
The Processor circuit pack contains a Burst Read function that transfers multiple
words of instructions from memory with each request. This is done to speed up
the transfer of information from the Memory to the Processor, and is especially
helpful for "filling up" the cache in parallel with internal processing on Processor
circuit pack. Most of the circuitry needed to support this function is found on the
words of instructions from memory with each request. This is done to speed up
the transfer of information from the Memory to the Processor, and is especially
helpful for "filling up" the cache in parallel with internal processing on Processor
circuit pack. Most of the circuitry needed to support this function is found on the
MO Name (in
Alarm Log)
Alarm
Level
Initial Command to
Run
1
1.
UU is the cabinet number (always 1, not required). With simplex SPE, carrier designation is not
required. With duplicated SPEs, carrier a or b must be specified.
required. With duplicated SPEs, carrier a or b must be specified.
Full Name of MO
PROCR
MAJOR
2
2.
After a spontaneous SPE interchange has occurred, the Alarm Log retains for three hours a
record of any MAJOR ON-BOARD alarm against an SPE component that took place before the
interchange. If a spontaneous interchange has occurred (as indicated by STBY-SPE error type
103 or the display initcauses screen), and handshake is down, (check with status spe),
replace the alarmed circuit pack on the standby SPE. If handshake is up, execute a test long
clear of the alarmed circuit pack and follow recommended procedures.
record of any MAJOR ON-BOARD alarm against an SPE component that took place before the
interchange. If a spontaneous interchange has occurred (as indicated by STBY-SPE error type
103 or the display initcauses screen), and handshake is down, (check with status spe),
replace the alarmed circuit pack on the standby SPE. If handshake is up, execute a test long
clear of the alarmed circuit pack and follow recommended procedures.
test processor UUC l
RISC Processor Circuit Pack
PROCR
MINOR
test processor UUC s
RISC Processor Circuit Pack