SSU2000-MIB: View SNMP OID List / Download MIB

Private MIB module for management of SSU2000. This SSU2000 private MIB supports all existing functions of the SSU2000 thus achieving full system control via this software interface. All reports, queries, autonomous messages, control, provisioning and administration (except for Set User ID/password/level, Set IP assignments, Reset Connection and SNMP Community Settings) will be addressable via SNMP.

A list containing the system inventory of installed hardware and software components contained in the SSU-2000. The number of entries is given by the values of inChassis and inSlot.

The Inventory table contains inventory information for all modules installed in the SSU2000 unit. System Inventory attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports module type is identified with a Hex value.

Reports module type is identified with a Name.

Reports module's serial number.

Reports module's in-service time.

Reports module's hardware part number.

Reports module's hardware revision.

Reports module's date of manufacture.

Reports module's software part number.

Reports module's main software revision.

Reports module's software and PLD revisions.

Reports shelf type description.

Reports shelf part number.

Reports if this module is physically installed in the system or not. 1 = module is installed. 2 = module is physically absent, but the configuration data is still there.

User Action: ENABLE (1), enables the module. DISABLE (2), marks a module as inactive to be removed from the system. REMOVE (3), if physically absent, the module is removed from the registry. Note: This field only is meaningful during the write operation. When read, it always displayed as 1. Enumeration: 'enable': 1, 'remove': 3, 'disable': 2.

Reports the Symmetricom input adapter part number. Note: If this field is an empty string, it means the input adapter identification is not applicable for this module.

The SSU-2000 has two optional features, NTP and SNMP. The Feature Presence table provides presence of these features.

inFeatureIndex The index to identify the feature inFeature The setting of the feature

A unique value for each feature table. 1 = NTP 2 = SNMP

Reports SSU-2000 feature set: 1 = Enabled 2 = Disabled

Reports Clock Module Status, loop mode, tau, and system-level priority quality level (pql).

Clock Status Attributes:

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot is being addressed. This slot number and chassis number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for Clocks are slot 1 and slot 12.

Reports the clock module status. ok(1), -- module is enabled and operating without faults selected(2), -- module is enabled and selected as primary local oscillator disable(3), -- module is disabled fault(4) -- module is enabled and operating with fault(s) Enumeration: 'fault': 4, 'selected': 2, 'ok': 1, 'disable': 3.

Reports the clock software Phase Locked Loop (PLL) Mode. failed(1), -- pll hardware failure, pll unlocked warmup(2), -- local oscillator is initialized and warming up acquire(3), -- LO is operating in acquire or fast locked mode holdover(4), -- LO is operating in holdover due to lose or reference input lock(5) -- LO is operating in normal mode Enumeration: 'failed': 1, 'acquire': 3, 'holdover': 4, 'warmup': 2, 'lock': 5.

Reports the clock tau value. The tau is the time constant (in seconds) used by the clock's servo control loop.

Reports the system Priority Quality Level (PQL). The PQL indicates the Stratum Level of the clock. Zero indicates an invalid SSM was read.

Reports the clock has been TOD synced with GPS or PackeTime..

The GPS Input Module Status reports the module's current status, input port phase data, time status, MTIE threshold status, frequency threshold status, and TIE measurement statistics status.

GPS Status Attributes: staGpsChassis Identifies which chassis is being addressed stGpskSlot Identifies which slot is being addressed staGpsMStatus Reports module status staGpsStatus Reports gps input port status staGpsPhaseA Reports phase value versus clock A in nano-seconds. staGpsPhaseB Reports phase value versus clock B in nano-seconds. staGpsUtc Reports number tells us whether the GPS module has UTC time or not. staGpsMtie1A Reports which MTIE limit 1 threshold was exceeded on clock A. staGpsMtie2A Reports which MTIE limit 2 threshold was exceeded on clock A. staGpsMtie1B Reports which MTIE limit 1 threshold was exceeded on clock B. staGpsMtie2B Reports which MTIE limit 2 threshold was exceeded on clock B. staGpsFreqA Reports input port frequency threshold exceeded on clock A. staGpsFreqB Reports input port frequency threshold exceeded on clock B. staGpsPpsSigma Reports sigma (statistical) calculation representing noise variation on the GPS 1PPS staGps3Sigma Reports 3sigma (statistical) calculation representing noise variation on the GPS 1PPS

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for GPS are slot 3 and slot 5.

The GPS port status. ok(1), -- module is enabled and operating without faults selected(2), -- module is enabled and selected as input reference disable(3), -- module is disabled fault(4), -- module is enabled and operating with faults reject(5) -- module is rejected due to antenna failure Enumeration: 'fault': 4, 'selected': 2, 'ok': 1, 'disable': 3, 'reject': 5.

The phase value versus clock A. The phaseA is the current 1 second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value.

Reports phase value versus clock B. The phaseB is the current 1 second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value.

Reports the GPS module has been set to UTC time (or not). 1 = time is available 2 = time is not available

Reports the GPS module status. ok(1), -- module is enabled and operating normally disable(2), -- module is disabled fault(3) -- module is enabled, but not operational due to faults Enumeration: 'fault': 3, 'disable': 2, 'ok': 1.

Reports which MTIE limit 1 threshold was exceeded on clock A. If ok, it means no error for MTIE limit 1 on clock A. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 1 threshold was exceeded on clock A. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 2 threshold was exceeded on clock A. If ok, it means no error for MTIE limit 2 on clock A. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 2 threshold was exceeded on clock A. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 1 threshold was exceeded on clock B. If ok, it means no error for MTIE limit 1 on clock B. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 1 threshold was exceeded on clock B. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 2 threshold was exceeded on clock B. If ok, it means no error for MTIE limit 2 on clock B. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 2 threshold was exceeded on clock B. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports the input port frequency threshold exceeded on clock A.

Reports the input port frequency threshold exceeded on clock B.

Reports current 1 PPS Sigma.

Reports current 3 Sigma Threshold.

The GPS attributes that report the status of the GPS engine's position and status

The GPS position attributes: stGpsPosChassis Identifies which chassis is being addressed stGpsPosSlot Identifies which slot is being addressed stGpsPosValid Reports if the GPS position is valid or not. stGpsPosLat Reports antenna latitude position of the GPS module. stGpsPosLon Reports antenna longitude position of the GPS module. stGpsPosHgt Reports antenna height (meter) position of the GPS module. stGpsPosAccurate Reports antenna position accuracy stGpsPosPdop Reports PDOP assigns a value of accuracy to the calculated position. stGpsPosAvg Reports position averaging value indicates how many position values are used to determine position.

Identifies which shelf is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for GPS are slot 3 and slot 5.

Reports if the GPS position is valid or not. 1 = valid 2 = invalid

Reports antenna latitude position of the GPS module. The format is +dd:mm:ss.ss or -dd:mm:ss.ss The latitude is +/- 90 deg.

Reports antenna longitude position of the GPS module. The format is +dd:mm:ss.ss or -dd:mm:ss.ss The longitude is +/- 180 deg.

Reports antenna height (meter) position of the GPS module. The format is +hh.hh or -hh.hh The height is +/- 10000.0 meters.

Reports antenna position accuracy APPROX - position is not accurate D2 - position is accurate, 2D, height is not valid D3 - position is accurate, 3D, height is valid Enumeration: 'approx': 1, 'd2': 2, 'd3': 3.

Reports PDOP indicates position precision as an integer representation of value in tenths. For example, the value 19 means 1.9 pdop. if zero, it means invalid.

Reports satellite position averaging value. If zero, the satellite position is user entered.

A list of GPS satellite availability, reports the location of visible satellites.

GPS Availability attributes:

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for GPS are slot 3 and slot 5.

Reports satellite channel number.

Reports satellite PN code.

Reports calculated elevation (in degrees) of the satellite.

Reports calculated Azimuth (in degrees) of the satellite.

Reports current health of the satellite. 1 = healthy 2 = unhealthy

A list of GPS satellites being tracked show with visibility, signal strength, & health information.

A entry GPS attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for GPS are slot 3 and slot 5.

Reports satellite channel number.

Reports satellite vehicle number being tracked. if zero, it is invalid

Reports signal-to-noise ration number being reported if zero, it is invalid

Reports tracking status. src (1), -- search acq (2), -- acquire agc (3), -- automatic gain control frq (4), -- frequency locking cod (5), -- code locking msg (6), -- messaging tim (7), -- setting time eph (8), -- retriving ephemeris data ok (9) -- satellite being used in the timing solution Enumeration: 'src': 1, 'ok': 9, 'agc': 3, 'frq': 4, 'tim': 7, 'acq': 2, 'cod': 5, 'eph': 8, 'msg': 6.

A list of DS1/E1 Input status entries.

Input port status attributes.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Reports input port status. ok(1), -- port is enabled & operating without faults selected(2), -- port is selected as system reference disable(3), -- port is diabled fault(4) -- port is enabled & operating with fault(s) Enumeration: 'fault': 4, 'selected': 2, 'ok': 1, 'disable': 3.

Reports input phase value versus clock A. The phaseA is the current 1 second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value.

Reports input phase value versus clock B. The phaseB is the current 1 second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value.

Reports input port Priority Quality Level (PQL). The PQL is the current stratum level (read or provisioned) being reported by the port. If zero, it is invalid.

Reports receiving Sync Status Message (SSM) for the input port state. 1 = enabled 2 = disabled

Reports input port has LOS fault.

Reports input port has AIS fault.

Reports input port has OOF fault.

Reports input port has BPV fault.

Reports input port CRC fault.

Reports which MTIE limit 1 threshold was exceeded versus clock A. If ok, it means no error for MTIE limit 1 on clock A. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 1 threshold was exceeded versus clock A. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 2 threshold was exceeded versus clock A. If ok, it means no error for MTIE limit 2 versus clock A. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 2 threshold was exceeded versus clock A. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 1 threshold was exceeded verus clock B. If ok, it means no error for MTIE limit 1 versus clock B. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 1 threshold was exceeded versus clock B. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 2 threshold was exceeded versus clock B. If ok, it means no error for MTIE limit 2 versus clock B. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 2 threshold was exceeded versus clock B. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports input port frequency threshold exceeded versus clock A.

Reports input port frequency threshold exceeded versus clock B.

Reports input port LOS error count.

Reports input port LOS clear count.

Reports input port AIS error count.

Reports input port AIS clear count.

Reports input port OOF error count.

Reports input port OOF clear count.

Reports input port BPV error count.

Reports input port BPV clear count.

Reports input port CRC error count.

Reports input port CRC clear count.

The input module status. ok(1), -- module is enabled and operating without faults disable(2), -- module is disabled fault(3) -- module is enabled and operating with fault(s) Enumeration: 'fault': 3, 'disable': 2, 'ok': 1.

A list of Composite Clock Input status information.

Input port status attributes.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Reports input port status. ok(1), -- port is enabled & operating without faults selected(2), -- port is selected as system reference disable(3), -- port is diabled fault(4) -- port is enabled & operating with fault(s) Enumeration: 'fault': 4, 'selected': 2, 'ok': 1, 'disable': 3.

Reports input phase value versus clock A. The phaseA is the current 1 second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value.

Reports input phase value versus clock B. The phaseB is the current 1 second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value.

Reports input port has LOS fault.

Reports input port has BPV fault.

Reports input port LOS error count.

Reports input port LOS clear count.

Reports input port BPV error count.

Reports input port BPV clear count.

Reports input module status. ok(1), -- module is enabled and operating without faults disable(2), -- module is disabled fault(3) -- module is enabled and operating with fault(s) Enumeration: 'fault': 3, 'disable': 2, 'ok': 1.

The list of Generic Output status information.

Output port status attributes.

Identifies which shelf is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The output module can reside on any chassis (1-5).

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports output port status. ok(1), -- modlule is enabled & operating without faults disable(3), -- module is diabled fault(4) -- module is enabled & operating with fault(s) reject(5) -- module type is mismatched with redundant module Enumeration: 'fault': 4, 'disable': 3, 'ok': 1, 'reject': 5.

Reports which clock is selected for generating the output. clka(1), -- Clock A is selected as the Primary clock clkb(2), -- Clock B is selected as the Primary clock clkc(3), -- Clock C is selected as the Primary clock clkd(4), -- Clock D is selected as the Primary clock none(5) -- no clock is selected Enumeration: 'clka': 1, 'clkb': 2, 'clkc': 3, 'clkd': 4, 'none': 5.

Reports that clock A is available.

Reports that clock B is available.

Reports that clock C is available.

Reports that clock D is available.

Reports the adjacent slot number if this module is the output module redundant pair. If this module is not redundant, zero is reported.

Reports the Priority Quality Level (PQL) being generated. If zero, it is invalid or Not Applicable.

Reports the status for ports 1-20. 1st digit represents port 1, 20th digit represents port 20 1 = ok 2 = not used 3 = internal port fault 4 = external port fault 5 = fault 6 = squelch

A list of DS1 LRM module status information.

DS1 LRM module status attributes.

Identifies which shelf is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The output module can reside on any chassis (1-5).

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports the LRM module state. enable(1), -- module is enabled disable(2), -- module is disabled Enumeration: 'enable': 1, 'disable': 2.

Reports which clock is selected for generating the output and status. clka(1), -- clock A is selected clkb(2), -- clock B is selected clkc(3), -- clock C is selected clkd(4), -- clock D is selected none(5), -- no clock is selected pllflt(6) -- clock selected, but module's clock PLL is unlocked Enumeration: 'pllflt': 6, 'none': 5, 'clka': 1, 'clkb': 2, 'clkc': 3, 'clkd': 4.

Reports if CTA is installed or not, if installed it reports which type, 2 ports or quad (4) ports. If not installed, none is shown. If id is not recognized, unknown is shown. Enumeration: 'quad': 2, 'none': 3, 'dual': 1, 'unknown': 4.

A list of DS1 LRM port status information.

DS1 LRM module status attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The output module can reside on any chassis (1-5).

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports LRM Port status. ok(1), -- port is functioning cut(2), -- port is in cut-through mode disable(3) -- port is disabled Enumeration: 'cut': 2, 'ok': 1, 'disable': 3.

Reports LRM Port frame status. d4(1), -- D4 signal esf(2), -- ESF signal none(3) -- indicate Loss Of Frame Enumeration: 'esf': 2, 'd4': 1, 'none': 3.

Reports LRM Port LOS status.

Reports LRM Port AIS status.

Reports LRM Port LOF status.

Reports LRM Port BPV status.

Reports LRM Port SLIP status. If over the past 24 hours period, the slip count exceeds the threshold, the slip alarm is set.

Reports LRM Port slip counts.

Reports LRM Port LOS on SIDE2 status.

Reports length of time (in seconds) the BPV has been under tested.

Reports BPV Error Rate per second in 60-second window. The format is an ascii text string in float number.

Reports BPV Error Rate per second in 86400-second (24 hours) window. The format is an ascii text string in float number.

Reports accumulated BPV Errored Seconds.

Reports accumulated BPV Severely Errored Seconds.

Reports BPV Severely Error Ratio. The format is an ascii text string in float number.

A list of Sine Input status information.

Input port status attributes.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Reports input port status. ok(1), -- port is enabled & operating without faults selected(2), -- port is selected as system reference disable(3), -- port is diabled fault(4) -- port is enabled & operating with fault(s) Enumeration: 'fault': 4, 'selected': 2, 'ok': 1, 'disable': 3.

Reports input phase value versus clock A. The phaseA is the current 1 second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value.

Reports input phase value versus clock B. The phaseB is the current 1 second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value.

Reports input port has LOS fault.

Reports input module status. ok(1), -- module is enabled and operating without faults disable(2), -- module is disabled fault(3) -- module is enabled and operating with fault(s) Enumeration: 'fault': 3, 'disable': 2, 'ok': 1.

Reports input port Priority Quality Level (PQL). The PQL is the current stratum level (read or provisioned) being reported by the port. If zero, it is invalid.

Reports which MTIE limit 1 threshold was exceeded versus clock A. If ok, it means no error for MTIE limit 1 on clock A. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 1 threshold was exceeded versus clock A. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 2 threshold was exceeded versus clock A. If ok, it means no error for MTIE limit 2 versus clock A. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 2 threshold was exceeded versus clock A. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 1 threshold was exceeded verus clock B. If ok, it means no error for MTIE limit 1 versus clock B. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 1 threshold was exceeded versus clock B. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports which MTIE limit 2 threshold was exceeded versus clock B. If ok, it means no error for MTIE limit 2 versus clock B. If not, one of the 10/ 100/ 1000/ 10000/ 100000 seconds MTIE limit 2 threshold was exceeded versus clock B. Enumeration: 'mtie1000': 1000, 'ok': 1, 'mtie10000': 10000, 'mtie100000': 100000, 'mtie100': 100, 'mtie10': 10.

Reports input port frequency threshold exceeded versus clock A.

Reports input port frequency threshold exceeded versus clock B.

A list of Composite Clock Input status information.

Input port status attributes.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Reports input port status. ok(1), -- port is enabled & operating without faults selected(2), -- port is selected as system reference disable(3), -- port is diabled fault(4) -- port is enabled & operating with fault(s) Enumeration: 'fault': 4, 'selected': 2, 'ok': 1, 'disable': 3.

Reports input phase value versus clock A. The phaseA is the current 1 second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value.

Reports input phase value versus clock B. The phaseB is the current 1 second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value.

Reports input port has LOS fault.

Reports input port has BPV fault.

Reports input port has 400Hz Sync Signal or not.

Reports input module status. ok(1), -- module is enabled and operating without faults disable(2), -- module is disabled fault(3) -- module is enabled and operating with fault(s) Enumeration: 'fault': 3, 'disable': 2, 'ok': 1.

A list of E1 LRM port status information.

E1 LRM module status attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The output module can reside on any chassis (1-5).

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports the LRM module state. enable(1), -- module is enabled disable(2), -- module is disabled Enumeration: 'enable': 1, 'disable': 2.

Reports which clock is selected for generating the output and status. clka(1), -- clock A is selected clkb(2), -- clock B is selected clkc(3), -- clock C is selected clkd(4), -- clock D is selected none(5), -- no clock is selected pllflt(6) -- clock selected, but module's clock PLL is unlocked Enumeration: 'pllflt': 6, 'none': 5, 'clka': 1, 'clkb': 2, 'clkc': 3, 'clkd': 4.

Reports if CTA is installed or not. If installed it reports which type, 2 ports or quad (4) ports. If not installed, none is shown. If id is not recognized, unknown is shown. Enumeration: 'quad': 2, 'none': 3, 'dual': 1, 'unknown': 4.

A list of E1 LRM port status information.

E1 LRM module status attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The output module can reside on any chassis (1-5).

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports LRM Port status. ok(1), -- port is functioning cut(2), -- port is in cut-through mode disable(3) -- port is disabled Enumeration: 'cut': 2, 'ok': 1, 'disable': 3.

Reports LRM Port frame status. cas(1), -- CAS signal ccs(2), -- CCS signal none(3) -- indicate Loss Of Frame

Reports LRM Port LOS status.

Reports LRM Port AIS status.

Reports LRM Port LOF status.

Reports LRM Port BPV status.

Reports LRM Port SLIP status. If over the past 24 hours period, the slip count exceeds the threshold, the slip alarm is set.

Reports LRM Port slip counts.

Reports LRM Port LOS on SIDE2 status.

Reports length of time (in seconds) the BPV has been under tested. The format is an ascii text string in float number.

Reports BPV Error Rate per second in 86400-second (24 hours) window. The format is an ascii text string in float number.

Reports accumulated BPV Errored Seconds.

Reports accumulated BPV Severely Errored Seconds.

Reports BPV Severely Error Ratio. The format is an ascii text string in float number.

A list of PackeTime NTP status information.

PackeTime NTP status attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

The PackeTime NTP module status. ok(1), -- module is enabled and operating without faults disable(3), -- module is disabled fault(4), -- module is enabled and operating with fault(s) reject(5) -- module type between redundant modules do not agree Enumeration: 'fault': 4, 'disable': 3, 'ok': 1, 'reject': 5.

Reports which clock reference is selected to generate the output reference. clka(1), -- Clock A is selected as the Primary clock clkb(2), -- Clock B is selected as the Primary clock clkc(3), -- Clock C is selected as the Primary clock clkd(4), -- Clock D is selected as the Primary clock none(5) -- no clock is selected Enumeration: 'clka': 1, 'clkb': 2, 'clkc': 3, 'clkd': 4, 'none': 5.

Reports that clock A is available.

Reports that clock B is available.

Reports that clock C is available.

Reports that clock D is available.

Reports the adjacent slot number if this module is the redundant pair. If this module is not redundant, zero is reported.

Reports the current operational mode. active(1), --If the module is in redundant pair and selected, it shall return active. stdby(2), --If the module is in redundant pair but not selected, it shall return stdby (standby). fault(3), --If the module disabled, it will return fault. stdalone(4) --If the module is not redundant pair, it shall return stdalone (standalone). Enumeration: 'active': 1, 'fault': 3, 'stdalone': 4, 'stdby': 2.

Reports the current operational mode. active(1), --If service ports are bonded and selected, it shall return active. stdby(2), --If service ports are bonded but not selected, it shall return stdby (standby). fault(3), --Service port is faulted. stdalone(4) --If service ports are not bonded , it shall return stdalone (standalone). Enumeration: 'active': 1, 'fault': 3, 'stdalone': 4, 'stdby': 2.

Reports the current operational mode. active(1), --If service ports are bonded and selected, it shall return active. stdby(2), --If service ports are bonded but not selected, it shall return stdby (standby). fault(3), --Service port is faulted. stdalone(4) --If service ports are not bonded , it shall return stdalone (standalone). Enumeration: 'active': 1, 'fault': 3, 'stdalone': 4, 'stdby': 2.

Reports if the NTP Time of Day is valid or invalid.

Reports the Commit command status. 1 = done 2 = in progress Enumeration: 'prog': 2, 'done': 1.

List of PackeTime PTP status information.

The entries of PackeTime PTP status attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports PackeTime PTP module status. ok(1), -- module is enabled and operating without faults disable(3), -- module is disabled fault(4), -- module is enabled and operating with fault(s) reject(5) -- module type between redundant modules do not agree Enumeration: 'fault': 4, 'disable': 3, 'ok': 1, 'reject': 5.

Reports which clock reference is selected to generate the output reference. clka(1), -- Clock A is selected as the Primary clock clkb(2), -- Clock B is selected as the Primary clock clkc(3), -- Clock C is selected as the Primary clock clkd(4), -- Clock D is selected as the Primary clock none(5) -- no clock is selected Enumeration: 'clka': 1, 'clkb': 2, 'clkc': 3, 'clkd': 4, 'none': 5.

Reports that clock A is available.

Reports that clock B is available.

Reports that clock C is available.

Reports that clock D is available.

Reports the adjacent slot number if this module is the redundant pair. If this module is not redundant, zero is reported.

Reports the current operational mode. active(1), --If the module is in redundant pair and selected, it shall return active. stdby(2), --If the module is in redundant pair but not selected, it shall return stdby (standby). fault(3), --If the module disabled, it will return fault. stdalone(4) --If the module is not redundant pair, it shall return stdalone (standalone). Enumeration: 'active': 1, 'fault': 3, 'stdalone': 4, 'stdby': 2.

Reports the current operational mode. active(1), --If service ports are bonded and selected, it shall return active. stdby(2), --If service ports are bonded but not selected, it shall return stdby (standby). fault(3), --Service port is faulted. stdalone(4) --If service ports are not bonded , it shall return stdalone (standalone). Enumeration: 'active': 1, 'fault': 3, 'stdalone': 4, 'stdby': 2.

Reports if the PTP Time of Day is valid or invalid.

Reports the Commit command status. 1 = done 2 = in progress Enumeration: 'prog': 2, 'done': 1.

List of the PackeTime PTP Management Messages: ptpDefaultDataSet

The entries of PackeTime PTP Management Messages: ptpDefaultDataSet attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports the PTP Clock Identity (64-bit value). The clock id is a hexadecimal format.

Reports the PTP Master Clock Class

Reports the PTP Master Clock Accuracy Following is the Clock Accuracy Table 32 = within 25 ns 33 = within 100 ns 34 = within 250 ns 35 = within 1000 ns 36 = within 2.5 us 37 = within 10 us 38 = within 25 us 39 = within 100 us 40 = within 250 us 41 = within 1 ms 42 = within 2.5 ms 43 = within 10 ms 44 = within 25 ms 45 = within 100 ms 46 = within 250 ms 47 = within 1 sec 48 = within 10 sec 49 = beyond 10 sec 254 = unknown Enumeration: 'within25ms': 44, 'unknown': 254, 'within1sec': 47, 'within250ms': 46, 'within250us': 40, 'beyond10sec': 49, 'within1000ns': 35, 'within10ms': 43, 'within25ns': 32, 'within2p5ms': 42, 'within100ns': 33, 'within100us': 39, 'within2p5us': 36, 'within10us': 37, 'within250ns': 34, 'within10sec': 48, 'within1ms': 41, 'within25us': 38, 'within100ms': 45.

Reports the PTP Master Time Traceability 1 = true, time traceable 2 = false, time not traceable

Reports the PTP Master Frequency Traceability 1 = true, frequency traceable 2 = false, frequency not traceable

Reports the PTP domain number.

List of the PackeTime PTP Management Messages: ptpClockDescription.

Entries of the PackeTime PTP Management Messages: ptpClockDescription attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports the PTP Clock Type The value 0x8000 meant Ordinary Clock Enumeration: 'ordinary': 32768.

Reports the PTP IP Address of PTP port.

Reports the PTP Manufacturer Id. The format is a 3 bytes array. The Manufacturer Id is 00 B0 AE

Reports the PTP Profile ID. The format is 6 bytes array. If Telecom-2008, the profile_id is: 00 00 00 00 00 00 If ITU G8265.1, the profile_id is: 00 19 A7 00 01 00

List of the PackeTime PTP Management Messages: ptpTimeMessage.

The entries of PackeTime PTP Management Messages: ptpTimeMessage attributes

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports the PTP Current Time of seconds. The current is a 6-byte a hexadecimal format.

Reports the PTP fractional Current Time of nanoseconds

List of the PackeTime PTP Management Messages: ptpPortDataSet

The entries of PackeTime PTP Management Messages: ptpPortDataSet attributes

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports the PTP Clock Identity (64-bit value). The port clock id is a hexadecimal format.

Reports the PTP Port Number

Reports the PTP Port State Following is the PTP Port State Table 0 = notdefined 1 = initializing 2 = faulty 3 = disabled 4 = listening 5 = premaster, it is a state before becoming a Master 6 = master 7 = passive 8 = uncalibrated 9 = slave Enumeration: 'uncalibrated': 8, 'passive': 7, 'slave': 9, 'premaster': 5, 'disabled': 3, 'master': 6, 'listening': 4, 'initializing': 1, 'notdefined': 0, 'faulty': 2.

List of SyncE status information: port_direction, ethernet_mode, rx_ssm, and tx_ssm

The entries of SyncE status attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports SyncE Port Direction to be either Output or Input. The output port is a SyncE master port, and input port is a SyncE slave port. Enumeration: 'input': 1, 'output': 2.

Reports SyncE operated on Ethernet to be either synchronous or asynchronous. It is synchronous mode, when an optical SFP is detected at an Ethernet port. It is an asynchronous mode, when an electrical SFP is detected at an Ethernet port, or there is no SFP detected. Enumeration: 'asynchronous': 2, 'synchronous': 1.

Reports SyncE the current rx ssm value (0 .. 15). If 255, SyncE does not receive ESMC messages

Reports SyncE the current tx ssm value (0 .. 15). If 255, SyncE does not transmit ESMC messages

The system identifier, the value is always 'SSU2000'.

Symmetricom contact information. This displays the Symmetricom address, phone, and fax numbers.

Reports Communication module's software version

Set the user assigned name for the SSU2000. Note: Use caution when changing this, TL1 sessions use the unit name as the target id (tid).

A list of clock status and setting information.

Clock status and setting attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot is being addressed. This slot number and chassis number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for Clocks are slot 1 and slot 12.

Set the clock warmup time in seconds.

Set the clock minimum tau. The mintau is the starting time constant value during Locked mode.

Set the clock max tau. The maxtau is the final time constant value during Locked mode.

Set the clock operating mode to ACQ/ LOCK/ HOLD. Note: When WRITE is to request Clock to change its operating mode, but when READ, it returns status of current operating mode. If current is operating mode is Warmup, it will return as HOLD. Enumeration: 'lock': 3, 'acq': 2, 'hold': 4.

Set the TODSRC Timeout. The TOD Traceability Timeout shall allow the system to operate without a valid TOD source for some amount of time before indicating the ToD source is invalid. The timer shall have a user settable range from 60 to 10000 minutes, with a default value of 1440.

Set the Frequency Timeout. The Frequency Traceability Timeout shall allow the system to operate without a valid input reference for some amount of time before indicating the frequency source is invalid. The timer shall have a user settable range from 60 to 10000 minutes, with a default value of 1440.

A list of GPS status and setting information.

GPS status and setting attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for GPS are slot 3 and slot 5.

Reports the GPS engine manufacturer. na(1), -- not available unknown(2), -- unknown mot(3) -- motorola (or motorola compatible) nvs(4) -- NVS engine (or GLONASS compatible) Enumeration: 'na': 1, 'mot': 3, 'nvs': 4, 'unknown': 2.

Set the input port provisioned Priority Quality Level (PQL) value. Note: Valid values are 1 - 9.

Set the input port priority level. The 0 is for monitor-only mode. The 1 is the highest priority. The 10 is the lowest priority.

Set the PDOP mask [3 to 10].

Set the minimum satellite elevation mask for positioning [0 to 90 deg].

Set the minimum satellite elevation mask for timing [0 to 90 deg].

Set satellite position averaging value [20-3600]. Mot GPS: (20 - 3600) of averages for the calculated position fixes NVS GNSS: (20 - 1440) of averaging minutes

Set the antenna latitude of the GPS antenna. The format is +dd:mm:ss.ss or -dd:mm:ss.ss The latitude is +/- 90 deg.

Set the antenna longitude of the GPS antenna. The format is +dd:mm:ss.ss or -dd:mm:ss.ss The longitude is +/- 180 deg.

Set the antenna height (meter) of the GPS antenna. The format is +hh.hh or -hh.hh The height is +/- 10000.0 meters.

Set phase error to zero for this GPS port. ZEROPHA - set phase A error to zero, ZEROPHB - set phase B error to zero, ZEROPHAB - set phase A and B to zero. Note: This field only is meaningful during the write operation. Enumeration: 'zeroPhAB': 3, 'zeroPhA': 1, 'zeroPhB': 2.

Set the TODSRC (Time-Of-Day Source) priority. The priority is the for the specified module as the TOD Source, default is 0, range can be 0 through 8. Value 1 is the highest and 8 is the lowest. If the value is zero, the specified module cannot be TOD Source.

Set the Antenna cable delay compensation {0 250} in the case of GPS TOD Source(s) or the delay induced by the cable(s) used to connect expansion shelves where the PackeTime ToD Source(s) is located in relationship to the Main shelf. The time offset shall have a 100nS resolution, thus the Delay value shall be multiplied by 100nS to provide 1PPS compensation. Valid user compensation values range is 0 thru 250 for a total compensation range of 0 to 25000nS (25uS).

Set constellation mode of GNSS engine. gps(1), -- The constellation mode of gnss engine is gps. glonass(2), -- The constellation mode of gnss engine is glonass gpsGlonass(3), -- The constellation mode of gnss engine is gps+glonass. Enumeration: 'gpsGlonass': 3, 'glonass': 2, 'gps': 1.

A list of GPS input alarm attribute setup information.

Input alarm attributes and settings. setMgChassis Identifies which chassis is being addressed. setMgSlot Identifies which slot position is being addressed. setMgMtieStd Set the input port setting of the MTIE limits to predefined values. setMgMtie10EL1 Set the input port MTIE 10 seconds error threshold for the first limit setting. setMgMtie10EL2 Set the input port MTIE 10 seconds error threshold for the second limit setting. setMgMtie10CL1 Set the input port MTIE 10 seconds clear threshold for the first limit setting. setMgMtie10CL2 Set the input port MTIE 10 seconds clear threshold for the second limit setting. setMgMtie100EL1 Set the input port MTIE 100 seconds error threshold for the first limit setting. setMgMtie100EL2 Set the input port MTIE 100 seconds error threshold for the second limit setting. setMgMtie100CL1 Set the input port MTIE 100 seconds clear threshold for the first limit setting. setMgMtie100CL2 Set the input port MTIE 100 seconds clear threshold for the second limit setting. setMgMtie1000EL1 Set the input port MTIE 1000 seconds error threshold for the first limit setting. setMgMtie1000EL2 Set the input port MTIE 1000 seconds error threshold for the second limit setting. setMgMtie1000CL1 Set the input port MTIE 1000 seconds clear threshold for the first limit setting. setMgMtie1000CL2 Set the input port MTIE 1000 seconds clear threshold for the second limit setting. setMgMtie10000EL1 Set the input port MTIE 10000 seconds error threshold for the first limit setting. setMgMtie10000EL2 Set the input port MTIE 10000 seconds error threshold for the second limit setting. setMgMtie10000CL1 Set the input port MTIE 10000 seconds clear threshold for the first limit setting. setMgMtie10000CL2 Set the input port MTIE 10000 seconds clear threshold for the second limit setting. setMgMtie100000EL1 Set the input port MTIE 100000 seconds error threshold for the first limit setting. setMgMtie100000EL2 Set the input port MTIE 100000 seconds error threshold for the second limit setting. setMgMtie100000CL1 Set the input port MTIE 100000 seconds clear threshold for the first limit setting. setMgMtie100000CL2 Set the input port MTIE 100000 seconds clear threshold for the second limit setting. setMgFreqAErrLmt Set the input port frequency error threshold for clock A. setMgFreqAClrLmt Set the input port frequency clear threshold for clock A. setMgFreqATau Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock A. setMgFreqBErrLmt Set the input port frequency error threshold for clock B. setMgFreqBClrLmt Set the input port frequency clear threshold for clock B. setMgFreqBTau Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock B.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: In the SSU2000, valid slots for GPS are slot 3 and slot 5.

Set the input port setting of the MTIE limits to predefined values. prs(1), -- ANSI T1.101 PRS MTIE MASK ds1(2), -- ANSI T1.101 DS1 MTIE MASK g811(3), -- G.811 (PRC) MTIE MASK g823(4) -- G.823 (SSU) MTIE MASK This field is only meaningful for a write operation. Enumeration: 'g823': 4, 'g811': 3, 'prs': 1, 'ds1': 2.

Set the input port MTIE 10 seconds error threshold for the first limit setting.

Set the input port MTIE 10 seconds error threshold for the second limit setting.

Set the input port MTIE 10 seconds clear threshold for the first limit setting.

Set the input port MTIE 10 seconds clear threshold for the second limit setting.

Set the input port MTIE 100 seconds error threshold for the first limit setting.

Set the input port MTIE 100 seconds error threshold for the second limit setting.

Set the input port MTIE 100 seconds clear threshold for the first limit setting.

Set the input port MTIE 100 seconds clear threshold for the second limit setting.

Set the input port MTIE 1000 seconds error threshold for the first limit setting.

Set the input port MTIE 1000 seconds error threshold for the second limit setting.

Set the input port MTIE 1000 seconds clear threshold for the first limit setting.

Set the input port MTIE 1000 seconds clear threshold for the second limit setting.

Set the input port MTIE 10000 seconds error threshold for the first limit setting.

Set the input port MTIE 10000 seconds error threshold for the second limit setting.

Set the input port MTIE 10000 seconds clear threshold for the first limit setting.

Set the input port MTIE 10000 seconds clear threshold for the second limit setting.

Set the input port MTIE 100000 seconds error threshold for the first limit setting.

Set the input port MTIE 100000 seconds error threshold for the second limit setting.

Set the input port MTIE 100000 seconds clear threshold for the first limit setting.

Set the input port MTIE 100000 seconds clear threshold for the second limit setting.

Set the input port frequency error threshold for clock A.

Set the input port frequency clear threshold for clock A.

Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock A.

Set the input port frequency error threshold for clock B.

Set the input port frequency clear threshold for clock B.

Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock B.

The list of DS1/E1 attribute setup information.

Input status and settings attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The input module can only reside in chassis 1 (main chassis).

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set the input port to enabled or disabled.

Set the input framing type or clock frequency. esf(1), -- T1 ESF d4(2), -- T1 D4 ccs(3), -- E1 CCS cas(4), -- E1 CAS mhz1(5), -- Clock 1MHz khz1544(6), -- Clock 1544kHz khz2048(7), -- Clock 2048kHz mhz5(8), -- Clock 5MHz mhz10(9) -- Clock 10MHz Enumeration: 'khz1544': 6, 'cas': 4, 'mhz10': 9, 'ccs': 3, 'mhz1': 5, 'esf': 1, 'khz2048': 7, 'mhz5': 8, 'd4': 2.

Set Zero Supression (ZS) on the input port to enabled or disabled.

Set CRC verificaiton on the input port to enabled or disabled.

Set Sync Status Messaging (SSM) on the input port to enabled or disabled..

Set the input port provisioned Priority Quality Level (PQL). Note: Valid values are 1 - 9.

Set the input port priority level. '0' = monitoring, '1' = highest priority, '10' = lowest priority.

Set the input port gain setting to enabled or disabled.

Set input Port 1 for external Cesium (CS) fault alarm logic level. off(1), -- function is disabled low(2), -- function is enabled, will trigger on low (0V) level high(3), -- function is enabled, will trigger on high (+5v) level na(4) -- not applicable Note: only available for port one. Enumeration: 'high': 3, 'na': 4, 'off': 1, 'low': 2.

Set the input port E1 Sync Status Message (SSM) bit position. This command is only meaningful for the E1 input module. For DS1, this value is always 4, and has no meaning (i.e. not used).

Set the phase error to zero for this input port. ZEROPHA - set phase A error to zero, ZEROPHB - set phase B error to zero, ZEROPHAB - set phase A and B to zero. Note: This field only is meaningful during the write operation. Enumeration: 'zeroPhAB': 3, 'zeroPhA': 1, 'zeroPhB': 2.

Reports MTIE calculator (40Hz or 1Hz) being used The number represents the input port setting for MTIE Calculator measurement. - 40Hz - Selects the 40Hz MTIE values to set/clear MTIE alarms - 1Hz - Selects the 1Hz MTIE values to set/clear MTIE alarms Note: only available for port one. Enumeration: 'hz40': 1, 'hz1': 2.

A list of DS1/E1 input alarm attributes and settings information.

Input alarm attributes and settings. setMiChassis Identifies which chassis is being addressed. setMiSlot Identifies which slot position is being addressed. setMiPort Identifies which port position is being addressed. setMiMtieStd Set the input port setting of the MTIE limits to predefined values. setMiMtie10EL1 Set the input port MTIE 10 seconds error threshold for the first limit setting. setMiMtie10EL2 Set the input port MTIE 10 seconds error threshold for the second limit setting. setMiMtie10CL1 Set the input port MTIE 10 seconds clear threshold for the first limit setting. setMiMtie10CL2 Set the input port MTIE 10 seconds clear threshold for the second limit setting. setMiMtie100EL1 Set the input port MTIE 100 seconds error threshold for the first limit setting. setMiMtie100EL2 Set the input port MTIE 100 seconds error threshold for the second limit setting. setMiMtie100CL1 Set the input port MTIE 100 seconds clear threshold for the first limit setting. setMiMtie100CL2 Set the input port MTIE 100 seconds clear threshold for the second limit setting. setMiMtie1000EL1 Set the input port MTIE 1000 seconds error threshold for the first limit setting. setMiMtie1000EL2 Set the input port MTIE 1000 seconds error threshold for the second limit setting. setMiMtie1000CL1 Set the input port MTIE 1000 seconds clear threshold for the first limit setting. setMiMtie1000CL2 Set the input port MTIE 1000 seconds clear threshold for the second limit setting. setMiMtie10000EL1 Set the input port MTIE 10000 seconds error threshold for the first limit setting. setMiMtie10000EL2 Set the input port MTIE 10000 seconds error threshold for the second limit setting. setMiMtie10000CL1 Set the input port MTIE 10000 seconds clear threshold for the first limit setting. setMiMtie10000CL2 Set the input port MTIE 10000 seconds clear threshold for the second limit setting. setMiMtie100000EL1 Set the input port MTIE 100000 seconds error threshold for the first limit setting. setMiMtie100000EL2 Set the input port MTIE 100000 seconds error threshold for the second limit setting. setMiMtie100000CL1 Set the input port MTIE 100000 seconds clear threshold for the first limit setting. setMiMtie100000CL2 Set the input port MTIE 100000 seconds clear threshold for the second limit setting. setMiFreqAErrLmt Set the input port frequency error threshold for clock A. setMiFreqAClrLmt Set the input port frequency clear threshold for clock A. setMiFreqATau Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock A. setMiFreqBErrLmt Set the input port frequency error threshold for clock B. setMiFreqBClrLmt Set the input port frequency clear threshold for clock B. setMiFreqBTau Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock B. setMiLOSErrCnt Set the input port error count threshold for LOS signal faults. setMiLOSClrCnt Set the input port clear count threshold for LOS signal faults. setMiAISErrCnt Set the input port error count threshold for AIS signal faults. setMiAISClrCnt Set the input port clear count threshold for AIS signal faults. setMiOOFErrCnt Set the input port error count threshold for OOF signal faults. setMiOOFClrCnt Set the input port clear count threshold for OOF signal faults. setMiBPVErrCnt Set the input port error count threshold for BPV signal faults. setMiBPVClrCnt Set the input port clear count threshold for BPV signal faults. setMiCRCErrCnt Set the input port error count threshold for CRC signal faults. setMiCRCClrCnt Set the input port clear count threshold for CRC signal faults.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Set the input port setting of the MTIE limits to predefined values. prs(1), -- ANSI T1.101 PRS MTIE MASK ds1(2), -- ANSI T1.101 DS1 MTIE MASK g811(3), -- G.811 (PRC) MTIE MASK g823(4) -- G.823 (SSU) MTIE MASK This field is only meaningful for a write operation. Enumeration: 'g823': 4, 'g811': 3, 'prs': 1, 'ds1': 2.

Set the input port MTIE 10 seconds error threshold for the first limit setting.

Set the input port MTIE 10 seconds error threshold for the second limit setting.

Set the input port MTIE 10 seconds clear threshold for the first limit setting.

Set the input port MTIE 10 seconds clear threshold for the second limit setting.

Set the input port MTIE 100 seconds error threshold for the first limit setting.

Set the input port MTIE 100 seconds error threshold for the second limit setting.

Set the input port MTIE 100 seconds clear threshold for the first limit setting.

Set the input port MTIE 100 seconds clear threshold for the second limit setting.

Set the input port MTIE 1000 seconds error threshold for the first limit setting.

Set the input port MTIE 1000 seconds error threshold for the second limit setting.

Set the input port MTIE 1000 seconds clear threshold for the first limit setting.

Set the input port MTIE 1000 seconds clear threshold for the second limit setting.

Set the input port MTIE 10000 seconds error threshold for the first limit setting.

Set the input port MTIE 10000 seconds error threshold for the second limit setting.

Set the input port MTIE 10000 seconds clear threshold for the first limit setting.

Set the input port MTIE 10000 seconds clear threshold for the second limit setting.

Set the input port MTIE 100000 seconds error threshold for the first limit setting.

Set the input port MTIE 100000 seconds error threshold for the second limit setting.

Set the input port MTIE 100000 seconds clear threshold for the first limit setting.

Set the input port MTIE 100000 seconds clear threshold for the second limit setting.

Set the input port frequency error threshold for clock A.

Set the input port frequency clear threshold for clock A.

Set the time constant (tau), in seconds, used for the calculation of the Average Frequency for clock A.

Set the input port frequency error threshold for clock B.

Set the input port frequency clear threshold for clock B.

Set the time constant (tau), in seconds, used for the calculation of the Average Frequency for clock B.

Set the input port error count threshold for LOS signal faults.

Set the input port clear count threshold for LOS signal faults.

Set the input port error count threshold for AIS signal faults.

Set the input port clear count threshold for AIS signal faults.

Set the input port error count threshold for OOF signal faults.

Set the input port clear count threshold for OOF signal faults.

Set the input port error count threshold for BPV signal faults.

Set the input port clear count threshold for BPV signal faults.

Set the input port error count hreshold for CRC signal faults.

Set the input port clear count threshold for CRC signal faults.

The list of CC Input attribute setup information.

Input status and settings attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The input module can only reside in chassis 1 (main chassis).

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which port position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set the input port to enabled or disabled.

Set the input port provisioned Priority Quality Level (PQL). Note: Valid values are 1 - 9.

Set the input port priority level. '0' = monitoring, '1' = highest priority, '10' = lowest priority.

Set the phase error to zero for this input port. ZEROPHA - set phase A error to zero, ZEROPHB - set phase B error to zero, ZEROPHAB - set phase A and B to zero. Note: This field only is meaningful during the write operation. Enumeration: 'zeroPhAB': 3, 'zeroPhA': 1, 'zeroPhB': 2.

A list of CC input alarm attributes and settings information.

Input alarm attributes and settings. setMiChassis Identifies which chassis is being addressed. setMiSlot Identifies which slot position is being addressed. setMiPort Identifies which port position is being addressed. setCimLOSErrCnt Set the input port error count threshold for LOS signal faults. setCimLOSClrCnt Set the input port clear count threshold for LOS signal faults. setCimBPVErrCnt Set the input port error count threshold for BPV signal faults. setCimBPVClrCnt Set the input port clear count threshold for BPV signal faults.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Set the input port error count threshold for LOS signal faults.

Set the input port clear count threshold for LOS signal faults.

Set the input port error count threshold for BPV signal faults.

Set the input port clear count threshold for BPV signal faults.

A list of DS1 output module status and settings.

Set DS1 output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set the output signal framing mode. The T1 framing mode is ESF or D4. Enumeration: 'esf': 1, 'd4': 2.

Set Clock C, or bypass mode, to enable or disable.

Set the Zero Suppression to enable or disable.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

Set the cable length compensation for the output port. Cable length definitions: 1 = 133 ft 2 = 266 ft 3 = 399 ft 4 = 533 ft 5 = 655 ft Note: Byte 1 = port 1, byte 20 = port 20.

A list of DS1 output module status and settings.

Set DS1 output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set the output signal framing mode. 1=ccs 2=cas Enumeration: 'cas': 2, 'ccs': 1.

Set Clock C, or bypass mode, to enable or disable.

Set the Zero Suppression to enable or disable.

Set the CRC error checking to enable or disable.

Set output module E1 SSM bit position. bit=4 - 8 Note: This field is only valid for E1 output module.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

A list of 2048kHz output module status and settings.

Set 2048kHz output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set Clock C, or bypass mode, to enable or disable.

Set the signal fault mode for low level output signals off(1), -- will turn off the output and requires user issued command to turn it back on on(2), -- will not turn off when fault detected auto(3) -- will turn off the output and automatically turn back on when fault clears Enumeration: 'on': 2, 'off': 1, 'auto': 3.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

Set PQL threshold to turn port off. If the system PQL is below the PWL threshold the port is turned off (i.e. squelched). Note: Byte 1 = port 1, byte 20 = port 20. The PQL value of each byte defined as follows: 0 = disabled 1-16 = Provision PQL value

A list of Composite Clock (CC) output module status and settings.

Set CC output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each CC Output entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each CC Output entry.

Set Clock C, or bypass mode, to enable or disable.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

Set the output duty cycle for the output ports. 1 = 63/37 duty cycle. 2 = 50/50 duty cycle. Note: Byte 1 = port 1, byte 20 = port 20.

Set the output phase (cable) compensation for the output ports. The equivalent cable length: 1 = 2200 ft, 2 = 1925 ft, 3 = 1650 ft, 4 = 1375 ft, 5 = 1100 ft, 6 = 825 ft, 7 = 550 ft, 8 = 275 ft. Note: Byte 1 = port 1, byte 20 = port 20.

A list of 2048kHz output module status and settings.

Set 422 output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set Clock C, or bypass mode, to enable or disable.

Set the signal fault mode for low level output signals off(1), -- will turn off the output and requires user issued command to turn it back on on(2), -- will not turn off when fault detected auto(3) -- will turn off the output and automatically turn back on when fault clears Enumeration: 'on': 2, 'off': 1, 'auto': 3.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

Set frequency for each port on an RS422 output module. word 1 = port 1, word 10 = port 10. The frequency value of each port defined as follows: 0 = 4kHz, 1-512 = 8kHz to 4096kHz with 8kHz per step. Note: each port use 2-bytes to set frequency. User can only set frequency on port 1 thru port 10. The port 1 and 11, port 2 and 12,.., port 10 and 20 have the same frequency setting. For example, when you set port1, you are set the same frequency for port 11.

A list of E1/2048 output module status and settings.

Set E1/2048 output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set Clock C, or bypass mode, to enable or disable.

Set the Zero Suppression to enable or disable.

Set the output ports to E1 or 2048kHz. 1 = E1 2 = 2048 kHz Note: byte 1 = port 1, byte 20 = port 20.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

Set the PQL squelch threshold for each port. If a PQL threshold is below the system PQL, this port is turned off (i.e. squelched). 0 = disabled 1-16 = Provision PQL value Note: Byte 1 = port 1, byte 20 = port 20.

Set E1 output signal framer mode. 1 = CCS 2 = CAS Enumeration: 'cas': 2, 'ccs': 1.

Set E1 output CRC error checking to on or off.

Set E1 output SSM generation to on or off.

Set E1 output SSM bit position. bit position = 4 - 8 Note: This field is only valid for E1 output module.

A list of DS1 LRM ports status and settings.

Set DS1 LRM attributes.

Identifies which chassis is being addressed. This chassis number, slot and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Set the LRM ports to enabled or disabled.

Set the Line Build-Out for the LRM port. 1=lbo133ft 2=lbo266ft 3=lbo399ft 4=lbo533ft 5=lbo655ft Enumeration: 'lbo399ft': 3, 'lbo533ft': 4, 'lbo655ft': 5, 'lbo133ft': 1, 'lbo266ft': 2.

Set the slip error threshold in 24 hours period and the value zero shall clear the slip accumulated errors.

Clear the accumulated BPV errors clr(1), -- clear the accumulated BPV errors nop(2) -- no operation Note: This field only has meaning for a write operation. Enumeration: 'nop': 2, 'clr': 1.

Set the Side 1 fault strategy Enumeration: 'squelch': 1, 'ais': 2.

Set the circuit id for LRM port The circuit id is an 0-43 character string with all ascii printable characters.

A list of Sine output status and settings.

Set E1 LRM attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set Clock C, or bypass mode, to enable or disable.

Set the output frequency 1.544 or 6.312 MHz.

Set the output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

Set PQL threshold to turn port off. If the system PQL is below the PWL threshold the port is turned off (i.e. squelched). Note: Byte 1 = port 1, byte 20 = port 20. The PQL value of each byte defined as follows: 0 = disabled 1-16 = Provision PQL value

The list of Sine Input attribute setup information.

Input status and settings attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The input module can only reside in chassis 1 (main chassis).

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which port position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set the input port to enabled or disabled.

Set input signal frequency. The frequency can be set: 1.544MHZ/ 6.312MHz.

Set the input port provisioned Priority Quality Level (PQL). Note: Valid values are 1 - 9.

Set the input port priority level. '0' = monitoring, '1' = highest priority, '10' = lowest priority.

Set input Port 1 for external Cesium (CS) fault alarm logic level. off(1), -- function is disabled low(2), -- function is enabled, will trigger on low (0V) level high(3), -- function is enabled, will trigger on high (+5v) level na(4) -- not applicable Note: only available for port one. Enumeration: 'high': 3, 'na': 4, 'off': 1, 'low': 2.

Set the phase error to zero for this input port. ZEROPHA - set phase A error to zero, ZEROPHB - set phase B error to zero, ZEROPHAB - set phase A and B to zero. Note: This field only is meaningful during the write operation. Enumeration: 'zeroPhAB': 3, 'zeroPhA': 1, 'zeroPhB': 2.

A list of Sine input alarm attributes and settings information.

Input alarm attributes and settings. setMsiChassis Identifies which chassis is being addressed. setMsiSlot Identifies which slot position is being addressed. setMsiPort Identifies which port position is being addressed. setMsiMtieStd Set the input port setting of the MTIE limits to predefined values. setMsiMtie10EL1 Set the input port MTIE 10 seconds error threshold for the first limit setting. setMsiMtie10EL2 Set the input port MTIE 10 seconds error threshold for the second limit setting. setMsiMtie10CL1 Set the input port MTIE 10 seconds clear threshold for the first limit setting. setMsiMtie10CL2 Set the input port MTIE 10 seconds clear threshold for the second limit setting. setMsiMtie100EL1 Set the input port MTIE 100 seconds error threshold for the first limit setting. setMsiMtie100EL2 Set the input port MTIE 100 seconds error threshold for the second limit setting. setMsiMtie100CL1 Set the input port MTIE 100 seconds clear threshold for the first limit setting. setMsiMtie100CL2 Set the input port MTIE 100 seconds clear threshold for the second limit setting. setMsiMtie1000EL1 Set the input port MTIE 1000 seconds error threshold for the first limit setting. setMsiMtie1000EL2 Set the input port MTIE 1000 seconds error threshold for the second limit setting. setMsiMtie1000CL1 Set the input port MTIE 1000 seconds clear threshold for the first limit setting. setMsiMtie1000CL2 Set the input port MTIE 1000 seconds clear threshold for the second limit setting. setMsiMtie10000EL1 Set the input port MTIE 10000 seconds error threshold for the first limit setting. setMsiMtie10000EL2 Set the input port MTIE 10000 seconds error threshold for the second limit setting. setMsiMtie10000CL1 Set the input port MTIE 10000 seconds clear threshold for the first limit setting. setMsiMtie10000CL2 Set the input port MTIE 10000 seconds clear threshold for the second limit setting. setMsiMtie100000EL1 Set the input port MTIE 100000 seconds error threshold for the first limit setting. setMsiMtie100000EL2 Set the input port MTIE 100000 seconds error threshold for the second limit setting. setMsiMtie100000CL1 Set the input port MTIE 100000 seconds clear threshold for the first limit setting. setMsiMtie100000CL2 Set the input port MTIE 100000 seconds clear threshold for the second limit setting. setMsiFreqAErrLmt Set the input port frequency error threshold for clock A. setMsiFreqAClrLmt Set the input port frequency clear threshold for clock A. setMsiFreqATau Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock A. setMsiFreqBErrLmt Set the input port frequency error threshold for clock B. setMsiFreqBClrLmt Set the input port frequency clear threshold for clock B. setMsiFreqBTau Set the Time constant (tau), in seconds, used for the calculation of the Average Frequency versus clock B.

Identifies which chassis is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry. Note: In the SSU2000, this number is always one. (i.e. in the main chassis)

Identifies which slot is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot number, and port number uniquely identify each inventory entry.

Set the input port setting of the MTIE limits to predefined values. prs(1), -- ANSI T1.101 PRS MTIE MASK ds1(2), -- ANSI T1.101 DS1 MTIE MASK g811(3), -- G.811 (PRC) MTIE MASK g823(4) -- G.823 (SSU) MTIE MASK This field is only meaningful for a write operation. Enumeration: 'g823': 4, 'g811': 3, 'prs': 1, 'ds1': 2.

Set the input port MTIE 10 seconds error threshold for the first limit setting.

Set the input port MTIE 10 seconds error threshold for the second limit setting.

Set the input port MTIE 10 seconds clear threshold for the first limit setting.

Set the input port MTIE 10 seconds clear threshold for the second limit setting.

Set the input port MTIE 100 seconds error threshold for the first limit setting.

Set the input port MTIE 100 seconds error threshold for the second limit setting.

Set the input port MTIE 100 seconds clear threshold for the first limit setting.

Set the input port MTIE 100 seconds clear threshold for the second limit setting.

Set the input port MTIE 1000 seconds error threshold for the first limit setting.

Set the input port MTIE 1000 seconds error threshold for the second limit setting.

Set the input port MTIE 1000 seconds clear threshold for the first limit setting.

Set the input port MTIE 1000 seconds clear threshold for the second limit setting.

Set the input port MTIE 10000 seconds error threshold for the first limit setting.

Set the input port MTIE 10000 seconds error threshold for the second limit setting.

Set the input port MTIE 10000 seconds clear threshold for the first limit setting.

Set the input port MTIE 10000 seconds clear threshold for the second limit setting.

Set the input port MTIE 100000 seconds error threshold for the first limit setting.

Set the input port MTIE 100000 seconds error threshold for the second limit setting.

Set the input port MTIE 100000 seconds clear threshold for the first limit setting.

Set the input port MTIE 100000 seconds clear threshold for the second limit setting.

Sets input port frequency error threshold for clock A.

Sets input port frequency clear threshold for clock A.

Sets the time constant (tau), in seconds, used for the calculation of the Average Frequency for clock A.

Sets input port frequency error threshold for clock B.

Sets input port frequency clear threshold for clock B.

Sets the time constant (tau), in seconds, used for the calculation of the Average Frequency for clock B.

A list of JCC output status and settings.

Set JCC output attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each JCC Output entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each JCC Output entry.

Set Clock C, or bypass mode, to enable or disable.

Set the 400Hz BPV removal. A setting OFF removes this 400Hz component, and a setting ON includes it.

Set the JCC output ports to enabled or disabled. 1 = enabled 2 = disabled Note: Byte 1 = port 1, byte 20 = port 20.

The array represents the output phase compensation for all ports on an output module. Note: Byte 1 = port 1, byte 20 = port 20. The specifed byte value is 1 thru 8. 1 = no delay, 8 = highest delay. The equivalent cable length: 1 = 2200 ft, 2 = 1925 ft, 3 = 1650 ft, 4 = 1375 ft, 5 = 1100 ft, 6 = 825 ft, 7 = 550 ft, 8 = 275 ft.

The list of CC Input attribute setup information.

Input status and settings attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry. Note: The input module can only reside in chassis 1 (main chassis).

Identifies which slot position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which port position is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Set the input port to enabled or disabled.

Set the input port provisioned Priority Quality Level (PQL). Note: Valid values are 1 - 9.

Set the input port priority level. '0' = monitoring, '1' = highest priority, '10' = lowest priority.

Set the input port 400Hz signal attribute.

Set the phase error to zero for this input port. ZEROPHA - set phase A error to zero, ZEROPHB - set phase B error to zero, ZEROPHAB - set phase A and B to zero. Note: This field only is meaningful during the write operation. Enumeration: 'zeroPhAB': 3, 'zeroPhA': 1, 'zeroPhB': 2.

A list of E1 LRM ports status and settings.

Set E1 LRM attributes.

Identifies which chassis is being addressed. This chassis number, slot and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot and port number uniquely identify each inventory entry.

Set the LRM ports to enabled or disabled.

Set the slip error threshold in 24 hours period and the value zero shall clear the slip accumulated errors.

Clear the accumulated BPV errors clr(1), -- clear the accumulated BPV errors nop(2) -- no operation Note: This field only has meaning for a write operation. Enumeration: 'nop': 2, 'clr': 1.

Set the Side 1 fault strategy Enumeration: 'squelch': 1, 'ais': 2.

Set the circuit id for LRM port The circuit id is an 0-43 character string with all ascii printable characters.

A list of PackeTime NTP status and settings.

PackeTime NTP settings and attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each entry.

Commit all provisioned parameters, this action makes the parameters active. This command will also store the parameters to non-volatile memory. Note: This field only has meaning for a writing (1). Enumeration: 'yes': 1.

Set the PackeTime Maintenance Port state; Enable or Disable. This node is obsolete, The setting is NOP.

Set Service port bonding state. 1 = Enabled 2 = Disabled

Set the NTP daemon state. 1 = Enabled 2 = Disabled

Set the module's preferred time-source to be either TODSRC (1) or PEER (2). TOD Source, either the TODSRC (GPS) or a NTP Peer if operating in Client mode Enumeration: 'peer': 2, 'todsrc': 1.

Set the Todsrc priority. The priority is the for the specified module as the TOD Source, default is 0, range can be 0 through 8. Value 1 is the highest, and 8 is the lowest. If the value is zero, the specified module cannot be TOD Source.

Set the load distribution between portA/B in percent. For example, 70 means port-A get 70% of total bandwidth, port-B gets remaining 30%. If port-A reaches 70% of total bandwidth but port-B has no traffic, the 30% of bandwidth will be wasted, port-A cannot use it. To allow either port to use all the bandwidth, portAWeight can be set to -1, indicating no limit between port-A and port-B (either port-A or port-B can get all the bandwidth, based on first come first serve). Thus the range of this parameter -1 to 100. For bonding mode, this parameter must be forced to -1, so the active port can use 100% of the bandwidth. For non-bonding mode, user can set any value between -1 to 100.

Set the Antenna cable delay compensation in the case of GPS ToD Source(s) or the delay induced by the cable(s) used to connect expansion shelves where the PackeTime ToD Source(s) is located in relationship to the Main shelf. The time offset shall have a 100nS resolution, thus the Delay value shall be multiplied by 100nS to provide 1PPS compensation. Valid user compensation values range is 0 thru 250 for a total compensation range of 0 to 25000nS (25uS).

Set the Peer Availability Timeout The timer shall have a user settable range from 60 minutes to 10000 minutes, with a default value of 1440 minutes

Set the preferred peer from the peer list. The valid value is 0-8. The value zero means, there is no prefer. This value has meaning, only when the specified peer is in the peer list.

Set the clock C state, or bypass clock, to enabled or disabled.

Set the specified module in the redundant pair to be Active. Note1: This command only applies when the module in the redundant pair. Note2: This field only has meaning for a writing (1). Note3: Don't apply COMMIT after this command.

Set Port A is being manually selected as the active port. Note1: This command only applies when the bonding mode is enabled and both ports are in network and Ethernet link up. Note2: This field only has meaning for a writing (1). Note3: Don't apply COMMIT after this command.

Set Port B is being manually selected as the active port. Note1: This command only applies when the bonding mode is enabled and both ports are in network and Ethernet link up. Note2: This field only has meaning for a writing (1). Note3: Don't apply COMMIT after this command.

PackeTime NTP ethernet port information.

PackeTime NTP ethernet port state and settings information. setPtNtpPortChassis Identifies which chassis is being addressed. setPtNtpPortSlot Identifies which slot is being addressed. setPtNtpPortNum Identifies which port is being addressed. setPtNtpPortAddr Set the port IP address setPtNtpPortMask Set the port network mask setPtNtpPortGate Set the port gateway address

Identifies which chassis is being addressed. This chassis, slot, and port number uniquely identify each entry.

Identifies which slot is being addressed. This chassis, slot, and port number uniquely identify each entry.

Identifies which port is being addressed. This chassis, slot, and port number uniquely identify each entry. PTNTP ethernet interface number. 1 = Service Port A 2 = Service Port B 3 = Maintenance Port

Set the port IP address

Set the port network mask

Set the port gateway address

List of PackeTime NTP Peer entries. Entries are indexed by the values of setPtNtpPeerChassis, setPtNtpPeerSlot and setPtNtpPortNum.

Set PackeTime NTP peer state and settings. setPtNtpPeerChassis Identifies which chassis is being addressed. setPtNtpPeerSlot Identifies which slot is being addressed. setPtNtpPeerNum Identifies which ntp peer is being addressed. setPtNtpPeerAddr Set Peer IP address in peer table. setPtNtpPeerPmin Set the minimum request rate in seconds for CLIENT mode. setPtNtpPeerPmax Set the maximum request rate in seconds for CLIENT mode. setPtNtpPeerKeyId Set keyId to be used to lookup authentication key,

Identifies which chassis is being addressed. This chassis, slot, and peer number uniquely identify each entry.

Identifies which slot is being addressed. This chassis, slot, and peer number uniquely identify each entry.

Identifies which ntp peer is being addressed. This chassis, slot, and peer number uniquely identify each entry.

Set Peer IP address in peer table. Write zero IP address will delete this IP address from peer table.

Set the minimum request rate in seconds for CLIENT mode, the default is 16, the range is 16, 32, 64, 128, 256, 512, and 1024.

Set the maximum request rate in seconds for CLIENT mode, the default is 64, the range is 16, 32, 64, 128, 256, 512, and 1024.

Set keyId to be used to lookup authentication key, the default is 0 (no authentication), the range is 0 through 65534

A list of PackeTime NTP authentication entries. The number of entries are given by the values of setPtNtpAuthChassis, setPtNtpAuthSlot and setPtNtpAuthNum.

Set PackeTime NTP authentication state and settings. PackeTime NTP authentication attributes. setPtNtpAuthChassis Identifies which chassis is being addressed. setPtNtpAuthSlot Identifies which slot is being addressed. setPtNtpAuthNum Identifies which authentication key is being addressed. setPtNtpAuthKeyId Set the authentication key ID, setPtNtpAuthKeyValue Set the NTP authentication key used to create the MD5 hash associated with the keyid.

Identifies which chassis is being addressed. This chassis, slot, and authentication key number uniquely identify each entry.

Identifies which slot is being addressed. This chassis, slot, and authentication key number uniquely identify each entry.

Identifies which authentication key is being addressed. This chassis, slot, and authentication key number uniquely identify each entry.

Set KeyId is the authentication key ID, default is 0 (no authentication), range 0 to 65534. Note: If this value is zero, no authentication is used.

Set the key is the NTP authentication key used to create the MD5 hash associated with the keyid. The key is a comprised of up to 32 ASCII characters, a minimum of 8 characters is required. Note: the key value will not display and it is always displayed as null string.

A list of PackeTime NTP route table entries. Static routing describes a system that does not implement adaptive routing. In these systems routes through a data network are described by fixed paths (statically). These routes are usually entered into the host by the system administrator.

A PackeTime NTP route attributes and settings. setPtNtpRouteChassis Identifies which chassis is being addressed. setPtNtpRouteSlot Identifies which slot is being addressed. setPtNtpRouteNum Identifies which route number (index) is being addressed. setPtNtpRouteAddr Set the route destination network or destination host. setPtNtpRouteMask Set the netmask for the destination network. setPtNtpRouteGate Set the gateway ip for the destination network. setPtNtpRouteIface Set the module's network interface number.

Identifies which chassis is being addressed. This chassis, slot, and route number (index) uniquely identify each entry.

Identifies which slot is being addressed. This chassis, slot, and route number (index) uniquely identify each entry.

Identifies which route number is being addressed. This chassis, slot, and route number (index) uniquely identify each entry.

Set the route destination network or destination host. Write a new Route IP address will put this new IP into table. Write zero IP address will delete this IP address from table.

Set the netmask for the destination network; '255.255.255.255' for a host destination and '0.0.0.0' for the default route

Set the gateway for the destination network.

Set the module's network interface number: 1 = Service Port A 2 = Service Port B 3 = Bond0 (bonding of PortA and Port B)

List of PackeTime NTP vlan attributes. The Virtural Local Area Network is implemented per IEEE 802.1Q.

A PackeTime NTP vlan attributes and settings: setPtNtpVlanChassis Identifies which chassis is being addressed. setPtNtpVlanSlot Identifies which slot is being addressed. setPtNtpVlan Set the VLAN state. setPtNtpVlanPAId Set the VLAN ID for Service Port A. setPtNtpVlanPAPriority Set the VLAN priority for Service Port A. setPtNtpVlanPBId Set the VLAN ID for Service Port B. setPtNtpVlanPBPriority Set the VLAN priority for Service Port B. setPtNtpVlanBondId Set the VLAN ID for Bonding of Service Ports of A and B setPtNtpVlanBondPriority Set the VLAN priority for Bonding of Service Ports of A and B

Identifies which chassis is being addressed. This chassis and slot number uniquely identify each entry.

Identifies which slot is being addressed. This chassis and slot number uniquely identify each entry.

Set the VLAN state. 1 = Enabled 2 = Disabled

Set the VLAN ID for Service Port A, [0 - 4094] Note: The value has no meaning, only when the VLAN is enabled

Set the VLAN Priority for Service Port A, [0 - 7] Note: The value has no meaning, only when the VLAN is enabled

Set the VLAN ID for Service Port B, [0 - 4094] Note: The value has no meaning, only when the VLAN is enabled

Set the VLAN Priority for Service Port B, [0 - 7] Note: The value has no meaning, only when the VLAN is enabled

Set the VLAN ID for Bonding of Service Ports of A and B, [0 - 4094] Note: The value has no meaning, only when the VLAN is enabled

Set the VLAN Priority for Bonding of Service Ports of A and B, [0 - 7] Note: The value has no meaning, only when the VLAN is enabled

A list of PackeTime PTP status and settings.

The enties of the PackeTime PTP settings and attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each entry.

Commit all provisioned parameters, this action makes the parameters active. This command will also store the parameters to non-volatile memory. Note: This field only has meaning for a writing (1). Enumeration: 'yes': 1.

Set the PTP service (daemon) to enable or disable. This command is applied to both modules if redundant cards installed. 1 = Enabled 2 = Disabled

Set the clockId is the PTP Port Clock Identity (64-bit value). The clockid is a hexadecimal format. Note: users shall enter command COMMIT to take changes into effect

Set the PTP port domain. Note: users shall enter command COMMIT to take changes into effect

Set timescale to 'PTP' or 'ARB'. Note: users shall enter command COMMIT to take changes into effect Enumeration: 'arb': 2, 'ptp': 1.

Set the unicast Sync message rate (2^y). The range of the rate value is {-7 to 7}. For example, the configurable range is -7, means 128 per second

Set unicast announce message rate (2^y). The range of the rate value is {-3 to 4}. For example, the configurable range is -3, means 8 per second

Set unicast delay resp message rate (2^y). The range of the rate value is {-7 to 7}. For example, the configurable range is -6, means 64 per second

Set the DSCP state to enable or disable.

Set DSCP value.

Set the PTP max clients.

Set the PTP Port Priority 1 {0 to 255}.

Set the PTP Port Priority 2 {0 to 255}.

Set the PTP Max Dynamic Unicast Lease Interval, {10 to 1000}

Set the PTP Unicast Negotiation state: Enable or Disable

Set the PTP Two-Step clock state: Enable or Disable Note: users shall enter command COMMIT to take changes into effect

Set PTP profile telecom_2008 or itu_g8265_1. Note: users shall enter command COMMIT to take changes into effect Enumeration: 'ituG8265dot1': 4, 'telecom2008': 1.

Set PTP ssm-option in Option 1 or Option 2. Enumeration: 'option2': 2, 'option1': 1.

Set the clock C state, or bypass clock, to enabled or disabled.

Set the specified module in the redundant pair to be Active. Note1: This command only applies when the module in the redundant pair. Note2: This field only has meaning for a writing (1). Note3: Don't apply COMMIT after this command.

Set the PTP port transmission rate. all - means auto negotiation capable of both 100M and 1000Mbits/s rate. r100 - means auto negotiation capable of only 100Mbit/s rate. r1000 - means auto negotiation capable of only 1000Mbit/s rate Note: this setting is only applied to the copper SFP, not fiber. If fiber SFP installed, this setting is ignored. Enumeration: 'r1000': 2, 'all': 0, 'r100': 1.

Set the VLAN state. 1 = Enabled 2 = Disabled Users must COMMIT for changes into effect.

This is an action command and not a configuration command. This command remove a client from a ptp client list. The clockid is a hexadecimal format. Note: this field only has meansing for write action with proper clock id. When it read, it always returns as all zero octet string.

Set PackeTime PTP ethernet port information.

PackeTime PTP ethernet port state and settings information. setPtPtpPortChassis Identifies which chassis is being addressed. setPtPtpPortSlot Identifies which slot is being addressed. setPtPtpPortNum Identifies which port is being addressed. setPtPtpPortAddr Set the port IP address setPtPtpPortMask Set the port network mask setPtPtpPortGate Set the port gateway address

Identifies which chassis is being addressed. This chassis, slot, and port number uniquely identify each entry.

Identifies which slot is being addressed. This chassis, slot, and port number uniquely identify each entry.

Identifies which port is being addressed. This chassis, slot, and port number uniquely identify each entry. PTPTP ethernet interface number. 1 = Service Port A 2 = Maintenance Port

Set the port IP address

Set the port network mask

Set the port gateway address

List of PackeTime PTP vlan attributes. The Virtural Local Area Network is implemented per IEEE 802.1Q.

A PackeTime PTP vlan attributes and settings: setPtPtpVlanChassis Identifies which chassis is being addressed. setPtPtpVlanSlot Identifies which slot is being addressed. setPtpVlanIndex Set the VLAN index number for PTPTP. setPtpVlanState Enable or Disable of a given VLAN Entry setPtpVlanAddr VLAN IP Address (If 0.0.0.0, and then SET, this will delete this entry) note: This field has to set first with a valid non-zero IP address, if you want to add a new entry setPtpVlanMask VLAN Network Mask setPtpVlanGate VLAN Gateway setPtpVlanId VLAN ID setPtpVlanPriority VLAN Priority Note: The module setPtPtpVlan set must be enabled, and each of the enabled entires has meaning.

Identifies which chassis is being addressed. This chassis and slot number uniquely identify each entry.

Identifies which slot is being addressed. This chassis and slot number uniquely identify each entry.

Set the VLAN index number for PTP.

Enable or Disable of a given VLAN entry Note: The value has meaning, only when the VLAN is enabled

Ethernet VLAN Port IP Address Note: you must have IP address in order to add or change other fields. This field has to set first with a valid non-zero IP address, if you want to add a new entry If the IP is 0.0.0.0, and use the SET operation, this mean delete this entry.

Ethernet VLAN Port Network Mask

Ethernet VLAN Port Gateway Address

Set the VLAN ID (2..4094) for Service Port A Note: The value has meaning, only when the VLAN is enabled

VLAN Priority (0..7) for Service Port A Note: The value has meaning, only when the VLAN is enabled

A list of SyncE settings.

The enties of the SyncE settings and attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each entry.

Set SyncE Port Direction to be either Output or Input. The output port is a SyncE master port, and input port is a SyncE slave port. Enumeration: 'input': 1, 'output': 2.

Set the Ethernet Synchronization Message Channel (ESMC) state is either Enable or Disable. If ESMC is enabled, the ESMC is used; otherwise, it shall not be used.

Set the Quality Level (QL, i.e. SSM) in the ESMC is either Enabled or Disabled. If QL is enabled, the SSM in the ESMC is used; otherwise, it shall not be used.

Set the Output QL mode is either unidirectional or bidirectional. In the unidirectional mode, the rx ESMC from the downstream NE is ignored. The tx SSM will be determined by the system clock state only. In the bidirectional mode, the rx ESMC from the downstream NE is not ignored but is used for testing purposes and some interoperability cases. Enumeration: 'bidirectional': 1, 'unidirectional': 2.

A list of general information entries.

Set global module attributes.

Identifies which chassis is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number and slot number uniquely identify each inventory entry.

Reports length of time (in seconds) a specified module has been operational since last reboot. Only apply to the CPU-based module. zero means Not Applicable.

The module alarm elevation time (in seconds). Each module in the system can be set for elevation time from 60 seconds to 500,000 seconds. A setting of 0 (zero) means no elevation for the alarm. For example, when an alarm has been at MINOR level ontinuously for elevtime seconds, then it is elevated to the next level (MAJOR). Note: 0 = disabled.

Saves or restores the configuration of the specified module. FACTORY - restores the module configuration to factory defaults. SAVE - will save the current configuration as User. USER - will restore the saved User configuration. Note: This field only has meaning for a write operation. Only apply to the CPU-based module. Enumeration: 'save': 3, 'factory': 1, 'user': 2.

Restarts a module. Writing a '1' to this variable restarts (reboots) the module. Note: This field only has meaning for a write operation. Only apply to the CPU-based module.

Reports total number of events to display. The number represents total number of events we want to display. Its value ranges between 1 and 1000.

Reports which event type we want to display (functions as a display filter). Set these values to the desired type you want to display: ALARM - for alarm type REPORT - for event type ALL - for all (alarm and event) type. Enumeration: 'report': 2, 'alarm': 1, 'all': 3.

Report of system event entries. The number of entries is given by the value of evNumber. The total entries are up to 1000.

An event entry containing objects of each event.

A unique value for each event. This value range from 1 to 1000.

A OCTET STRING containing information about the event. The string is in the TLV format, and contains following information: INTEGER - event id INTEGER - module hex code DateAndTime - timestamp INTEGER - chassis number INTEGER - slot number INTEGER - port number INTEGER - alarm code INTEGER - notification code INTEGER - Elevated DisplayString - ascii string description of the event event id: INTEGER (0..255) Alarm Code: minor(1), major(2), critical(3), ignore(4), report(5), Notification Code: minor(1), major(2), critical(3), ignore(4), report(5), clear(6) Elevated: Yes(1), No(2)

A list of alarm entries.

Alarm entry attributes.

Identifies which chassis is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Reports the alarm index value. Note: The alarm id is allowed for number zero; therefore, the OID for this index is alarm id plus 1 to avoid the zero number for OID.

Reports the alarm id. Note: This is the actual alarm id range 0 thru 31.

Reports the text string to describe this alarm.

Reports current state of alarm indications on the units. minor(1), major(2), critical(3), ignore(4), report(5), clear(6) Enumeration: 'major': 2, 'clear': 6, 'ignore': 4, 'critical': 3, 'report': 5, 'minor': 1.

Report alarm elevation state 1 = alarm elevated 2 = alarm not elevated

Reports the text string to describe this alarm status condition.

Set the module slot location. It should be one module, multiple module is not allowed where x is the chassis number: the range is 1 to 5, A is the constant letter 'A', and is chassis/slot sepearator. y is the slot number. range is [1 to 20]. For example: 1A3-1 for module located in chassis 1 and slot 3, port 1. Note: The slot location must be physically installed in the unit.

A list of alarm entries.

Set alarm attributes.

Identifies which chassis is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Index value for the alarm. Note: The alarm id is allowed for number zero; therefore, the OID for this index is alarm id plus 1 to avoid the zero number for OID.

ID value for the alarm. Note: This is the actual alarm id range 0 thru 31.

Name/Description for the alarm.

Alarm state for the alarm: 1 = alarm set 2 = no alarm

Alarm elevation status: 1 = alarm elevated 2 = alarm not elevated

Sets alarm severe level are: MINOR - sets alarm level to MINOR MAJOR - set alarm level to MAJOR CRITICAL - sets alarm level to CRITICAL IGNORE - ignore any alarm indication REPORT - report only any alarm indication Enumeration: 'ignore': 4, 'report': 5, 'major': 2, 'critical': 3, 'minor': 1.

Sets the length of time in seconds an alarm must be active before generating an alarm. Note: 0 = user selected immediate indication -1 (when read) = forced immediate indication (i.e. not user selectable)

Report/Set which clk is currently selected. clka(1), clkb(2), none(3) Note: When read, it shows which clock is currently selected. When write, only clka or clkb are valid. Enumeration: 'clka': 1, 'clkb': 2, 'none': 3.

Report/Set the input reference port. The format is defined as xAy-z. where x is the chassis number: in this case is 1, A is the constant letter 'A', and is chassis/slot sepearator. y is the slot number: (range is 3 to 11) - is the constant letter '-', and is slot/port sepearator z is the port number (1 to 3). For example: 1A3-1 means this input port located at chassis 1, slot 3, and port 1. The NULL string means there is no input reference.

Report/Set input port designated as the input bypass clock. The format is defined as xAy-z. where x is the chassis number: in this case is 1, A is the constant letter 'A', and is chassis/slot sepearator. y is the slot number: (range is 3 to 11) - is the constant letter '-', and is slot/port sepearator z is the port number (1 to 3). For example: 1A3-1 means this input port located at chassis 1, slot 3, and port 1. The NULL string means there is no bypass clock. Note: In the SSU2000, the input module always resides in the main chassis (i.e. 'x' is one).

Report/Set Clock auto-return (AR) mode. ar(1), off(2) The AR option changes the current clock selection mode to revertive operation. Enumeration: 'ar': 1, 'off': 2.

Report/Set input switch mode. The InpSwitch settings are: AR = Auto Return (revertive) AS = Auto Switch (but not revertive) OFF = No auto switching Enumeration: 'as': 2, 'ar': 1, 'off': 3.

Report/Set input selection mode. The input reference selection can be PRIORITY/ PQL. PRIORITY - the user assigned priority number is used to pick the best input port as an input reference. PQL - the input Priority Quality Level (PQL) is used to select which is the best input port reference. Enumeration: 'priority': 1, 'pql': 2.

Report/Set TOD Source. The value can be any TOD source candidate (GPS or PackeTime) indicates the TODSRC of the selected clock. The text string of the todsrc reference port. The format is defined as xAy. where x is the chassis number: in this case is 1, A is the constant letter 'A', and is chassis/slot sepearator. y is the slot number: (range is 3 to 11) For example: 1A3 means this reference located at chassis 1, slot 3. The NULL string means there is no reference.

A list of phase data entries.

Phase data entry attributes.

Identifies which chassis is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Current 1-second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 1-second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 100-second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 100-second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 1000-second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 1000-second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 10000-second phase value in nanoseconds on clock A. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Current 10000-second phase value in nanoseconds on clock B. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and contains following information: DateAndTime - timestamp INTEGER - phase value

Select input port. The format is defined as xAy-z. where x is the chassis number: in this case is 1, A is the constant letter 'A', and is chassis/slot sepearator. y is the slot number: (range is 3 to 11) - is the constant letter '-', and is slot/port sepearator z is the port number (1 to 3). For example: 1A3-1 means this input port located at chassis 1, slot 3, and port 1 Note: the user must specify valid input port address. The valid port must be physically installed in the system. Note: In the SSU2000, the input is located at main chassis, the 'x' number is always one.

Reports time (seconds) interval of phase value. t1 (4000 second time interval), t100 (1000 second time interval), t1000 (1000 second time interval), t10000 (10000 second time interval) Note: T1 data is only available for ports configured for this function, maximum of 5 ports. Enumeration: 't100': 100, 't1000': 1000, 't10000': 10000.

Reports which clock is used as the reference in the phase measurement. Enumeration: 'clka': 1, 'clkb': 2.

Count of phase measurement history requested from the phase history buffer. The maximum phase history in buffer are: T100 = 7000, T1000 = 700, T10000 = 70, Default value = 10.

A list of phase history entries. The number of entries is given by the value of phHisCnt. The total entries are up to 7000. Note: this table is based upon the following values: phHisInpLoc - the location of the input port phHisTimeAvg - the time (seconds) interval of phase value phHisCnt - total amount of phase history to return.

A phase entry attributes: phHisChassis Identifies which chassis is being addressed. phHisSlot Identifies which slot is being addressed. phHisPort Identifies which port is being addressed. phHisIndex Count/ID value for each phase. phHisV Phase value in nanoseconds defined in phHisTimeAvg.

Identifies which chassis is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which slot is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Identifies which port is being addressed. This chassis number, slot, and port number uniquely identify each inventory entry.

Count/ID value for each phase. Valid range : 1 - 7000.

Phase value in nanoseconds defined in phHisTimeAvg. The 1,999,999,999 is designated for invalid phase value. The string is in the TLV format, and containsfollowing information: DateAndTime - timestamp INTEGER - phase value

A list of frequency entries for each input port.

Frequency entry attributes: fqChassis INTEGER, fqSlot INTEGER, fqPort INTEGER, fqA OCTET STRING, fqB