ILOM Supplement for the Sun Fire X4500/X4540 Servers

C H A P T E R 1

This supplement contains information for using Integrated Lights Out Manager (ILOM) with the Sun FireTM X4500/X4540 servers.

ILOM documentation is divided into two categories:

Generalized ILOM information, located in one of the ILOM User’s guides:

Sun Integrated Lights Out Manager 2.0 User’s Guide

Integrated Lights Out Manager (ILOM) Administration Guide for ILOM 1.1.1

Integrated Lights Out Manager (ILOM) Administration Guide for ILOM 1.0

Please refer to the corresponding guide for information about the your ILOM.

Information specific to the Sun Fire X4500/X4540 Server, located in this supplement.

This document provides information about the following topics:

Related Documentation

Sun Fire X4500 ILOM 2.0.2.5 r47053 Update

Sensors for Sun Fire X4500 Server

Sensors For Sun Fire X4540 Servers

Sun Fire X4500 ILOM 2.0.2.5 r47053 Update

The Sun Fire X4500 ILOM 2.0.2.5, r47053 update has included the Console history log feature--this functionality connects to the system console and outputs the Console history log onto the SP. That log file can be dumped upon request using an SP command show /SP/console/history.

Console history has the following properties:

-> ls
 
 /SP/console
    Targets:
        history
 
    Properties:
        line_count = 25
        pause_count = 15
        start_from = end

line_count--Specifies how many lines of console log will be shown.

pause_count--Specifies how many lines of console log will be shown before SP stops to show and waits for user input to continue.

start_from--It can be configured with end or beginning.

end--Latest line_count lines of console log will be shown.

beginning--Oldest line_count lines of console log will be shown.

Sensors for Sun Fire X4500 Server

Note - For the Sun Fire X4540 server sensors, see Sensors For Sun Fire X4540 Servers.

The Sun Fire X4500 server includes a number of sensors that generate entries in the system event log (SEL) when the sensor crosses a threshold. Many of these readings are used to adjust the fan speeds and perform other actions, such as illuminating LEDs and powering off the chassis.

These sensors can also be configured to generate IPMI PET traps as described in the corresponding ILOM user’s guide.

This section describes the sensors and provides details about their operation.

Caution - Do not use any interface other than the ILOM CLI or WebGUI to alter the state or configuration of any sensor or LED. Doing so could void your warranty.

The sensors and their respective thresholds are as follows:

Disk backplane ambient temperature (dbp.t_amb)

Upper Non Critical--33-degrees C

Upper Critical--38-degrees C

Upper Non Recoverable--43-degrees C

CPU 0 (proc0.t_core) and CPU 1 (proc1.t_core) die temperatures

Upper Non Critical--60-degrees C

Upper Critical--68-degrees C

Upper Non Recoverable--75-degrees C

There are four other temperature sensors:

Front I/O board ambient temperature (io.front.t_amb)

Rear I/O board ambient temperature (io.rear.t_amb)

Processor board front ambient temperature (proc.front.t_amb)

Processor board rear ambient temperature (proc.rear.t_amb)

List of Sensors (X4500)

TABLE 1-1 lists the sensors. TABLE 1-2 displays detailed information about each sensor.

TABLE 1-1 Sun Fire X4500 Sensors
Sensor name	Typical value	Units	Typical state	LNR	LC	LNC	UNC	UC	UNR
proc.p0.t_core	35	degrees C	ok	na	na	na	60	68	75
proc.p1.t_core	38	degrees C	ok	na	na	na	60	68	75
dbp.t_amb	20	degrees C	ok	na	na	na	33	38	43
io.front.t_amb	38	degrees C	ok	na	na	na	90	95	100
io.rear.t_amb	38	degrees C	ok	na	na	na	90	95	100
proc.front.t_amb	29	degrees C	ok	na	na	na	90	95	100
proc.rear.t_amb	32	degrees C	ok	na	na	na	90	95	100
ft0.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft0.f0.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft0.f1.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft1.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft1.f0.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft1.f1.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft2.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft2.f0.speed	5500	RPM	ok	2000	na	na	na	na	10000
ft2.f1.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft3.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft3.f0.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft3.f1.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft4.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft4.f0.speed	5600	RPM	ok	2000	na	na	na	na	10000
ft4.f1.speed	5600	RPM	ok	2000	na	na	na	na	10000
ps0.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ps0.pwrok	0x2	discrete	0x0002	na	na	na	na	na	na
ps0.vinok	0x2	discrete	0x0002	na	na	na	na	na	na
ps1.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ps1.pwrok	0x2	discrete	0x0002	na	na	na	na	na	na
ps1.vinok	0x2	discrete	0x0002	na	na	na	na	na	na
ps2.prsnt	0x1	discrete	0x0001	na	na	na	na	na	na
ps2.pwrok	na	discrete	na	na	na	na	na	na	na
ps2.vinok	na	discrete	na	na	na	na	na	na	na
io.v_+1v5	1.52	Volts	ok	0.6	0.7	na	na	1.99	2.2
io.v_+2v5	2.52	Volts	ok	1.8	1.99	na	na	2.89	3
io.v_+5v_disk	5.46	Volts	ok	3.98	4.24	na	na	5.75	5.98
io.v_-12v	-12.28	Volts	ok	-15.05	-14.03	na	na	-10.01	-9.07
proc.p0.v_+1v25	1.27	Volts	ok	0.7	0.9	na	na	1.69	1.9
proc.p0.v_+1v5	1.14	Volts	ok	0.6	0.7	na	na	1.99	2.2
proc.p0.v_+2v5	2.57	Volts	ok	1.8	1.99	na	na	2.89	3
proc.p1.v_+1v25	1.27	Volts	ok	0.7	0.9	na	na	1.69	1.9
proc.p1.v_+1v5	1.14	Volts	ok	0.6	0.7	na	na	1.99	2.2
proc.p1.v_+2v5	2.57	Volts	ok	1.8	1.99	na	na	2.89	3
proc.v_+1v8	1.84	Volts	ok	1.1	1.3	na	na	2.3	2.5
sys.v_+12v	12.1	Volts	ok	8.95	9.95	na	na	13.99	14.99
sys.v_+1v2	1.23	Volts	ok	0.6	0.8	na	na	1.7	1.9
sys.v_+3v3	3.32	Volts	ok	2.6	2.79	na	na	3.79	4
sys.v_+3v3stby	3.27	Volts	ok	2.6	2.79	na	na	3.79	4
sys.v_+5v	4.94	Volts	ok	3.98	4.24	na	na	5.75	5.98
sys.v_bat	3.12	Volts	ok	2.4	2.59	na	na	3.6	3.79
bp.locate.btn	0x1	discrete	0x0001	na	na	na	na	na	na
fp.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
fp.locate.btn	0x1	discrete	0x0001	na	na	na	na	na	na
hdd0.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd1.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd2.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd3.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd4.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd5.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd6.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd7.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd8.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd9.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd10.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd11.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd12.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd13.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd14.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd15.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd16.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd17.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd18.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd19.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd20.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd21.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd22.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd23.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd24.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd25.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd26.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd27.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd28.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd29.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd30.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd31.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd32.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd33.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd34.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd35.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd36.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd37.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd38.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd39.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd40.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd41.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd42.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd43.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd44.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd45.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd46.state	0x1	discrete	0x0001	na	na	na	na	na	na
hdd47.state	0x1	discrete	0x0001	na	na	na	na	na	na
sys.intsw	0x0	discrete	0x0000	na	na	na	na	na	na
sys.acpi	0x1	discrete	0x0001	na	na	na	na	na	na

Detailed Sensor Information (X4500)

Interpreting Sensor Data

Asserted/Deasserted - Asserted generally means that what the sensor is measuring is true. For example, if a temperature reaches (for example) its upper critical threshold, then upper critical = asserted. Deasserted means the opposite.

Present/Absent - This tells whether the specified device is present or not.

Reading - Some sensors include hex numbers (usually 0x0001 and 0x0002) that indicate the state of the sensor. These are listed in the table where the field value is “readings”.

TABLE 1-2 displays detailed information about the individual sensors.

TABLE 1-2 Detailed Sensor Information for the Sun Fire X4500
Field	Data
Sensor ID	dbp.t_amb (0x1b)
Entity ID	15.0 (Drive Backplane)
Sensor Type (Analog)	Temperature
Sensor Reading	23 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	43.000
Upper Critical	38.000
Upper Non-Critical	33.000
Positive Hysteresis	Unspecified
Negative Hysteresis	Unspecified
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	io.front.t_amb (0x50)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Temperature
Sensor Reading	29 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	100.000
Upper Critical	95.000
Upper Non-Critical	90.000
Positive Hysteresis	Unspecified
Negative Hysteresis	Unspecified
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	io.v_+5v_disk (0x10)
Entity ID	7.0
Sensor Type (Analog)	Voltage
Sensor Reading	4.992 (+/- 0) Volts
Status	OK
Lower Non-Recoverable	4.248
Lower Critical	4.488
Lower Non-Critical	4.728
Upper Non-Critical	5.232
Upper Critical	5.496
Upper Non-Recoverable	5.736
Assertions Enabled	lnc- lcr- lnr- unc+ ucr+ unr+
Deassertions Enabled	lnc- lcr- lnr- unc+ ucr+ unr+

Sensor ID	io.rear.t_amb (0x5)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Temperature
Sensor Reading	25 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	100.000
Upper Critical	95.000
Upper Non-Critical	90.000
Positive Hysteresis	2.000
Negative Hysteresis	2.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	proc.front.t_amb (0x22)
Entity ID	9.0 (Processor Module)
Sensor Type (Analog)	Temperature
Sensor Reading	23 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	100.000
Upper Critical	95.000
Upper Non-Critical	90.000
Positive Hysteresis	Unspecified
Negative Hysteresis	Unspecified
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	proc.rear.t_amb (0x14)
Entity ID	9.0 (Processor Module)
Sensor Type (Analog)	Temperature
Sensor Reading	23 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	100.000
Upper Critical	95.000
Upper Non-Critical	90.000
Positive Hysteresis	Unspecified
Negative Hysteresis	Unspecified
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	proc.p0.t_core (0x2c)
Entity ID	3.0 (Processor)
Sensor Type (Analog)	Temperature
Sensor Reading	41 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	75.000
Upper Critical	68.000
Upper Non-Critical	60.000
Positive Hysteresis	2.000
Negative Hysteresis	2.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	proc.p1.t_core (0x35)
Entity ID	3.1 (Processor)
Sensor Type (Analog)	Temperature
Sensor Reading	39 (+/- 0) degrees C
Status	OK
Upper Non-Recoverable	75.000
Upper Critical	68.000
Upper Non-Critical	60.000
Positive Hysteresis	2.000
Negative Hysteresis	2.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	unc ucr unr
Settable Thresholds	unc ucr unr
Threshold Read Mask	unc ucr unr
Assertions Enabled	ucr+ unr+
Deassertions Enabled	ucr+ unr+

Sensor ID	ft0.prsnt (0x51)
Entity ID	30.0 (Cooling Unit)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ft0.f0.speed (0x54)
Entity ID	29.0 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft0.f1.speed (0x55)
Entity ID	29.1 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft1.prsnt (0x52)
Entity ID	30.1 (Cooling Unit)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ft1.f0.speed (0x56)
Entity ID	29.2 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft1.f1.speed (0x57)
Entity ID	29.3 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft2.prsnt (0x53)
Entity ID	30.2 (Cooling Unit)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ft2.f0.speed (0x58)
Entity ID	29.4 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft2.f1.speed (0x59)
Entity ID	29.5 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft3.prsnt (0x25)
Entity ID	30.3 (Cooling Unit)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ft3.f0.speed (0x27)
Entity ID	29.6 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7700 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft3.f1.speed (0x29)
Entity ID	29.7 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	7800 (+/- 0) RPM
Status	OK
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft4.prsnt (0x26)
Entity ID	30.4 (Cooling Unit)
Sensor Type (Discrete)	Entity Presence
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ft4.f0.speed (0x2a)
Entity ID	29.8 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	0 (+/- 0) RPM
Status	Lower Non-Recoverable
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ft4.f1.speed (0x2b)
Entity ID	29.9 (Fan Device)
Sensor Type (Analog)	Fan
Sensor Reading	0 (+/- 0) RPM
Status	Lower Non-Recoverable
Upper Non-Recoverable	10000.000
Lower Non-Recoverable	2000.000
Positive Hysteresis	1000.000
Negative Hysteresis	1000.000
Minimum Sensor Range	Unspecified
Maximum Sensor Range	25400.000
Event Message Control	Per-threshold
Readable Thresholds	lnr unr
Settable Thresholds	lnr unr
Threshold Read Mask	lnr unr
Assertions Enabled	lnr- unr+
Deassertions Enabled	lnr- unr+

Sensor ID	ps0.prsnt (0x1c)
Entity ID	10.0 (Power Supply)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ps0.pwrok (0x1d)
Entity ID	10.0 (Power Supply)
Sensor Type (Discrete)	Power Supply
Reading	0x0001 = State Deasserted 0x0002 = State Asserted
States Asserted	Digital State [State Asserted]
Assertions Enabled	Digital State [State Deasserted] [State Asserted]

Sensor ID	ps0.vinok (0x1e)
Entity ID	10.0 (Power Supply)
Sensor Type (Discrete)	Power Supply
Reading	0x0001 = State Deasserted 0x0002 = State Asserted
States Asserted	Digital State [State Asserted]
Assertions Enabled	Digital State [State Deasserted] [State Asserted]

Sensor ID	ps1.prsnt (0x1f)
Entity ID	10.1 (Power Supply)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ps1.pwrok (0x20)
Entity ID	10.1 (Power Supply)
Sensor Type (Discrete)	Power Supply
Reading	0x0001 = State Deasserted 0x0002 = State Asserted
States Asserted	Digital State [State Asserted]
Assertions Enabled	Digital State [State Deasserted] [State Asserted]

Sensor ID	ps1.vinok (0x21)
Entity ID	10.1 (Power Supply)
Sensor Type (Discrete)	Power Supply
Reading	0x0001 = State Deasserted 0x0002 = State Asserted
States Asserted	Digital State [State Asserted]
Assertions Enabled	Digital State [State Deasserted] [State Asserted]

Sensor ID	ps2.prsnt (0x24)
Entity ID	10.2 (Power Supply)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent 0x0002 = Device Present
States Asserted	Availability State [Device Absent]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	ps2.pwrok (0xf)
Entity ID	10.2 (Power Supply)
Sensor Type (Discrete)	Power Supply
Reading	0x0001 = State Deasserted 0x0002 = State Asserted

Sensor ID	ps2.vinok (0x28)
Entity ID	10.2 (Power Supply)
Sensor Type (Discrete)	Power Supply
Reading	0x0001 = State Deasserted 0x0002 = State Asserted

Sensor ID	io.v_+1v5 (0x23)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	1.536 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	2.196
Upper Critical	1.992
Upper Non-Critical	1.800
Lower Non-Recoverable	0.600
Lower Critical	0.696
Lower Non-Critical	0.792
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	io.v_+2v5 (0xc)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	2.532 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	3.000
Upper Critical	2.892
Upper Non-Critical	2.796
Lower Non-Recoverable	1.800
Lower Critical	1.992
Lower Non-Critical	2.196
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	io.v_-12v (0xb)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	-12.204 (+/- -16.000) Volts
Status	OK
Upper Non-Recoverable	-9.065
Upper Critical	-10.014
Upper Non-Critical	-11.036
Lower Non-Recoverable	-15.051
Lower Critical	-14.029
Lower Non-Critical	-13.007
Positive Hysteresis	0.133
Negative Hysteresis	0.133
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	proc.p0.v_+1v25 (0x2f)
Entity ID	3.0 (Processor)
Sensor Type (Analog)	Voltage
Sensor Reading	1.272 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	1.896
Upper Critical	1.692
Upper Non-Critical	1.500
Lower Non-Recoverable	0.696
Lower Critical	0.900
Lower Non-Critical	1.092
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	proc.p0.v_+1v5 (0x2d)
Entity ID	3.0 (Processor)
Sensor Type (Analog)	Voltage
Sensor Reading	1.404 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	2.196
Upper Critical	1.992
Upper Non-Critical	1.800
Lower Non-Recoverable	0.600
Lower Critical	0.696
Lower Non-Critical	0.792
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	proc.p0.v_+2v5 (0x2e)
Entity ID	3.0 (Processor)
Sensor Type (Analog)	Voltage
Sensor Reading	2.580 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	3.000
Upper Critical	2.892
Upper Non-Critical	2.796
Lower Non-Recoverable	1.800
Lower Critical	1.992
Lower Non-Critical	2.196
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lcr- lnr- ucr+ unr+
Deassertions Enabled	lcr- lnr- ucr+ unr+

Sensor ID	proc.p1.v_+1v25 (0x38)
Entity ID	3.1 (Processor)
Sensor Type (Analog)	Voltage
Sensor Reading	1.272 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	1.896
Upper Critical	1.692
Upper Non-Critical	1.500
Lower Non-Recoverable	0.696
Lower Critical	0.900
Lower Non-Critical	1.092
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	proc.p1.v_+1v5 (0x36)
Entity ID	3.1 (Processor)
Sensor Type (Analog)	Voltage
Sensor Reading	1.404 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	2.196
Upper Critical	1.992
Upper Non-Critical	1.800
Lower Non-Recoverable	0.600
Lower Critical	0.696
Lower Non-Critical	0.792
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	proc.p1.v_+2v5 (0x37)
Entity ID	3.1 (Processor)
Sensor Type (Analog)	Voltage
Sensor Reading	2.568 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	3.000
Upper Critical	2.892
Upper Non-Critical	2.796
Lower Non-Recoverable	1.800
Lower Critical	1.992
Lower Non-Critical	2.196
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	proc.v_+1v8 (0xd)
Entity ID	9.0 (Processor Module)
Sensor Type (Analog)	Voltage
Sensor Reading	1.840 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	2.500
Upper Critical	2.300
Upper Non-Critical	2.100
Lower Non-Recoverable	1.100
Lower Critical	1.300
Lower Non-Critical	1.500
Positive Hysteresis	0.100
Negative Hysteresis	0.100
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	sys.v_+12v (0xa)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	12.159 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	14.994
Upper Critical	13.986
Upper Non-Critical	12.978
Lower Non-Recoverable	8.946
Lower Critical	9.954
Lower Non-Critical	10.962
Positive Hysteresis	0.063
Negative Hysteresis	0.063
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	sys.v_+1v2 (0xe)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	1.220 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	1.900
Upper Critical	1.700
Upper Non-Critical	1.500
Lower Non-Recoverable	0.600
Lower Critical	0.800
Lower Non-Critical	1.000
Positive Hysteresis	0.100
Negative Hysteresis	0.100
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	sys.v_+3v3 (0x8)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	3.304 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	3.996
Upper Critical	3.789
Upper Non-Critical	3.598
Lower Non-Recoverable	2.595
Lower Critical	2.785
Lower Non-Critical	2.993
Positive Hysteresis	0.087
Negative Hysteresis	0.087
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	sys.v_+3v3stby (0x7)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	3.287 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	3.996
Upper Critical	3.789
Upper Non-Critical	3.598
Lower Non-Recoverable	2.595
Lower Critical	2.785
Lower Non-Critical	2.993
Positive Hysteresis	0.087
Negative Hysteresis	0.087
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	sys.v_+5v (0x9)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	4.992 (+/- 0) Volts
Status	OK
Upper Non-Recoverable	6.500
Upper Critical	5.980
Upper Non-Critical	5.486
Lower Non-Recoverable	3.484
Lower Critical	3.978
Lower Non-Critical	4.498
Positive Hysteresis	0.078
Negative Hysteresis	0.078
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	sys.v_bat (0x6)
Entity ID	7.0 (System Board)
Sensor Type (Analog)	Voltage
Sensor Reading	0.608 (+/- 0) Volts
Status	Lower Non-Recoverable
Upper Non-Recoverable	3.792
Upper Critical	3.600
Upper Non-Critical	3.392
Lower Non-Recoverable	2.400
Lower Critical	2.592
Lower Non-Critical	2.688
Positive Hysteresis	0.096
Negative Hysteresis	0.096
Minimum Sensor Range	Unspecified
Maximum Sensor Range	Unspecified
Event Message Control	Per-threshold
Readable Thresholds	lnr lcr ucr unr
Settable Thresholds	lnr lcr ucr unr
Threshold Read Mask	lnr lcr ucr unr
Assertions Enabled	lnc- lcr- ucr+ unr+
Deassertions Enabled	lnc- lcr- ucr+ unr+

Sensor ID	bp.locate.btn (0x11)
Entity ID	13.0 (Back Panel Board)
Sensor Type (Discrete)	Button
States Asserted	Digital State [State Asserted]

Sensor ID	fp.prsnt (0x19)
Entity ID	12.0 (Front Panel Board)
Sensor Type (Discrete)	Entity Presence
Reading	0x0001 = Device Absent (front panel is absent) 0x0002 = Device Present (front panel is present)
States Asserted	Availability State [Device Present]
Assertions Enabled	Availability State [Device Absent] [Device Present]

Sensor ID	fp.locate.btn (0x18)
Entity ID	12.0 (Front Panel Board)
Sensor Type (Discrete)	Button
Reading	0x0001 = State Deasserted (button is inactive) 0x0002 = State Asserted (button is active)
States Asserted	Digital State [State Deasserted]

Sensor ID	hdd0.state (0x5a)
Entity ID	4.0 (Disk or Disk Bay)
Sensor Type (Discrete)	Drive Slot / Bay
States Asserted	Drive Slot [Drive Present] [Drive Fault]
Assertions Enabled	Drive Slot [Drive Present] [Drive Fault] [Hot Spare] [Rebuild In Progress]
Deassertions Enabled	Drive Slot [Drive Present] [Drive Fault] [Hot Spare] [Rebuild In Progress]

Sensor ID	hdd1.state (0x5b)
Entity ID	4.1 (Disk or Disk Bay)
Sensor Type (Discrete)	Drive Slot / Bay
Assertions Enabled	Drive Slot [Drive Present] [Drive Fault] [Hot Spare] [Rebuild In Progress]
Deassertions Enabled	Drive Slot [Drive Present] [Drive Fault] [Hot Spare] [Rebuild In Progress]

Disk drive sensors hdd1 through hdd47 are identical, except for Sensor ID and Entity ID. Hdd1 through hdd47 appear in the CLI but not in the GUI. Sensor ID = HDDNN.state (0xYY) NN = 1 through 47 To calculate YY, convert NN to hex and add it to 5b. Entity ID = 4.1 through 4.47
Sensor ID	hdd47.state (0x89)
Entity ID	4.47 (Disk or Disk Bay)
Sensor Type (Discrete)	Drive Slot / Bay
Assertions Enabled	Drive Slot [Drive Present] [Drive Fault] [Hot Spare] [Rebuild In Progress]
Deassertions Enabled	Drive Slot [Drive Present] [Drive Fault] [Hot Spare] [Rebuild In Progress]

Sensor ID	sys.intsw (0x1)
Entity ID	23.0 (System Chassis)
Sensor Type (Discrete)	Physical Security
Reading	0x0001 = Intrusion switch active 0x0002 = Intrusion switch inactive
States Asserted	Physical Security [General Chassis intrusion]
Assertions Enabled	Physical Security [General Chassis intrusion]

Sensors For Sun Fire X4540 Servers

The Sun Fire X4540 server includes a number of sensors that generate entries in the system event log (SEL) when the sensor crosses a threshold. Many of these readings are used to adjust the fan speeds and perform other actions, such as illuminating LEDs and powering off the chassis.

These sensors can also be configured to generate IPMI PET traps as described in the corresponding ILOM user’s guide.

This section describes the sensors and provides details about their operation.

Complete List of Sensors (X4540)

TABLE 1-3 lists the Sun Fire X4540 sensors and their values. The following sections provide information about the different types of sensors.

TABLE 1-3 Sun Fire X4540 Sensors
Sensor Name	Typical Value	Units	Typical State	LNR	LC	LNC	UNC	UC	UNR
sys.v_+3v3stby	3.287	Volts	ok	2.630	2.803	na	na	3.789	3.944
sys.v_+3v3	3.287	Volts	ok	2.630	2.803	na	na	3.789	3.944
bat.v_bat	3.058	Volts	ok	2.200	2.402	na	na	3.604	3.978
sys.v_+12v	12.159	Volts	ok	9.576	10.143	na	na	13.797	14.364
sys.v_+1v2ht	1.220	Volts	ok	0.600	0.800	na	na	1.700	1.900
sys.intsw	0x0	discrete	0x0000	na	na	na	na	na	na
sys.nmi	0x0	discrete	0x0000	na	na	na	na	na	na
sys.reset.btn	0x0	discrete	0x0000	na	na	na	na	na	na
sys.acpi	0x1	discrete	0x0001	na	na	na	na	na	na
sys.locate.btn	0x1	discrete	0x0001	na	na	na	na	na	na
proc.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
proc.front.t_amb	32.000	degrees C	ok	na	na	na	90.000	95.000	100.000
proc.rear.t_amb	37.000	degrees C	ok	na	na	na	90.000	95.000	100.000
p0.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
p0.hot	0x1	discrete	0x0001	na	na	na	na	na	na
p0.t_core	28.000	degrees C	ok	na	na	na	62.000	67.000	75.000
p0.v_vddcore	1.224	Volts	ok	0.804	0.900	na	na	1.704	1.800
p0.v_+1v8	1.848	Volts	ok	1.440	1.524	na	na	2.064	2.160
p0.v_+0v9	0.912	Volts	ok	0.720	0.756	na	na	1.032	1.080
p1.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
p1.hot	0x1	discrete	0x0001	na	na	na	na	na	na
p1.v_vddcore	1.224	Volts	ok	0.804	0.900	na	na	1.704	1.800
p1.t_core	29.000	degrees C	ok	na	na	na	62.000	67.000	75.000
p1.v_+1v8	1.848	Volts	ok	1.440	1.524	na	na	2.064	2.160
p1.v_+0v9	0.912	Volts	ok	0.720	0.756	na	na	1.032	1.080
io.rear.t_amb	51.000	degrees C	ok	na	na	na	90.000	95.000	100.000
io.front.t_amb	46.000	degrees C	ok	na	na	na	90.000	95.000	100.000
dbp.t_amb	29.000	degrees C	ok	na	na	na	na	33.000	43.000
io.v_bat	3.058	Volts	ok	2.200	2.402	na	na	3.604	3.806
io.v_+3v3stby	3.304	Volts	ok	2.630	2.803	na	na	3.789	3.944
io.v_+3v3	3.356	Volts	ok	2.630	2.803	na	na	3.789	3.944
io.v_+5v	5.018	Volts	ok	3.978	4.238	na	na	5.746	5.980
io.v_+12v	12.159	Volts	ok	9.576	10.143	na	na	13.797	14.364
io.v_+5v_disk	5.136	Volts	ok	3.984	4.248	na	na	5.736	6.000
io.v_+1v5	1.512	Volts	ok	1.200	1.272	na	na	1.716	1.788
io.v_+1v4	1.404	Volts	ok	1.116	1.188	na	na	1.608	1.680
io.v_+1v8	1.840	Volts	ok	1.440	1.530	na	na	2.060	2.160
io.v_+1v2	1.220	Volts	ok	0.960	1.020	na	na	1.380	1.440
ft0.f0.speed	6900.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft0.f1.speed	6900.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft1.f0.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft1.f1.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft2.f0.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft2.f1.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft3.f0.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft3.f1.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft4.f0.speed	6900.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft4.f1.speed	6800.000	RPM	ok	na	3000.000	4000.000	8500.000	9000.000	na
ft0.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft1.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft2.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft3.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ft4.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ps0.vinok	0x2	discrete	0x0002	na	na	na	na	na	na
ps0.pwrok	0x2	discrete	0x0002	na	na	na	na	na	na
ps1.vinok	0x2	discrete	0x0002	na	na	na	na	na	na
ps1.pwrok	0x2	discrete	0x0002	na	na	na	na	na	na
ps0.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ps1.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
ps2.vinok	0x2	discrete	0x0002	na	na	na	na	na	na
ps2.pwrok	0x2	discrete	0x0002	na	na	na	na	na	na
ps2.prsnt	0x2	discrete	0x0002	na	na	na	na	na	na
hdd0.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd0.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd1.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd1.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd2.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd2.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd3.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd3.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd4.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd4.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd5.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd5.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd6.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd6.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd7.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd7.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd8.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd8.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd9.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd9.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd10.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd10.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd11.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd11.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd12.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd12.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd13.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd13.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd14.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd14.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd15.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd15.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd16.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd16.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd17.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd17.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd18.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd18.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd19.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd19.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd20.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd20.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd21.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd21.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd22.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd22.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd23.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd23.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd24.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd24.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd25.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd25.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd26.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd26.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd27.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd27.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd28.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd28.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd29.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd29.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd30.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd30.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd31.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd31.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd32.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd32.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd33.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd33.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd34.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd34.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd35.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd35.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd36.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd36.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd37.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd37.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd38.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd38.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd39.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd39.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd40.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd40.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd41.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd41.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd42.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd42.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd43.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd43.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd44.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd44.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd45.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd45.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd46.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd46.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd47.state	0x0	discrete	0x0000	na	na	na	na	na	na
hdd47.hba.state	0x0	discrete	0x0000	na	na	na	na	na	na

FRU Presence Sensors (X4540)

TABLE 1-4 FRU Presence Sensors
Sensor	Event	Description/Action
ftN.prsnt Fan Tray N	Asserted	Fan Tray N installed. Fan Tray fail LED is OFF.
	Deasserted	Fan Tray N removed. Fan Tray fail LED is ON.
psN.prsnt Power Supply N	Asserted	PSU N installed. PSU fail LED is OFF.
	Deasserted	PSU N removed. PSU fail LED is ON.
proc.prsnt Processor Board (not hot pluggable)	Asserted	Processor Board installed
	Deasserted	Processor Board removed
pN.prsnt Processor N (not hot pluggable)	Asserted	Processor N installed.
	Deasserted	Processor N removed.

Fault Sensors (X4540)

TABLE 1-5 Fault Sensors
Sensor	Event	Description/Action
pN.hot Processor N Too Hot	Asserted	Processor is too hot
	Deasserted	Processor no longer too hot
psN.vinok Power Supply N Input Power OK	Asserted	AC input power is OK. PSU fault LED is OFF.
	Deasserted	AC input power is bad/absent. PSU fault LED is ON.
psN.pwrok Power Supply N Output Power OK	Asserted	DC output power is OK. PSU fault LED is OFF.
	Deasserted	DC output power is bad. PSU fault LED is ON.

Discrete Sensors (X4540)

TABLE 1-6 Discrete Sensors
Sensor	Event	Description/Action
sys.intsw Processor N:0..1	Asserted	Assert
	Deasserted	Deasserted
sys.reset.btn Reset Button	Asserted	Assert
	Deasserted	Deasserted
sys.locate.btn Locate Button	Asserted	Assert
	Deasserted	Deasserted
sys.acpi ACPI	Asserted	Assert
	Deasserted	Deasserted
sys.nmi Non-Maskable Interrupt	Asserted	Assert
	Deasserted	Deasserted

Fan Speed Sensors (X4540)

TABLE 1-7 Fan Speed Sensors
Sensor	Threshold Event	Description/Action
ftN.fanM.speed Speed of Fan Tray N:0..4 Fan M:0.1	UNR+ Assert	Speed has exceeded non-recoverable threshold. Fan Tray fault LED is ON.
	UNR+ Deassert	Speed has dropped below non-recoverable threshold.
	UC+ Assert	Speed has exceeded critical threshold. Fan Tray fault LED is ON. If one fan is faulty, Fan Tray ACT LED is slow blink. If both fans are faulty, Fan Tray ACT LED is OFF.
	UC+ Deassert	Speed has dropped below critical threshold.
	UNC+ Assert	Speed has exceeded non-critical threshold. Fan fault LED is ON. Fan Tray fault LED is ON. If one fan is faulty, Fan Tray ACT LED is slow blink. If both fans are faulty, Fan Tray ACT LED is OFF.
	UNC+ Deassert	Speed has dropped below non-critical threshold. Fan Tray fault LED is OFF.

Temperature Sensors (X4540)

TABLE 1-8 Temperature Sensors
Sensor	Threshold Event	Description/Action
pN.t_core Core temperature of processor N	UNR+ Assert	Temperature has increased above non-recoverable threshold. Over Temperature LED is ON and System Alert LED is ON. Host Power is turned OFF.
	UNR+ Deassert	Temperature has returned to critical from non-recoverable. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Assert	Temperature has increased above critical threshold. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Deassert	Temperature has returned to non-critical from critical. Over Temperature LED is OFF and System Alert LED is OFF
	UNC+ Assert	Temperature has increased above non-critical threshold.
	UNC+ Deassert	Temperature has returned to normal from non-critical.
dbp.t_amb Ambient temperature measured on the disk backplane	UNR+ Assert	Temperature has increased above non-recoverable threshold. Over Temperature LED is ON and System Alert LED is ON. Host Power is turned OFF.
	UNR+ Deassert	Temperature has returned to critical from non-recoverable. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Assert	Temperature has increased above critical threshold. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Deassert	Temperature has returned to non-critical from critical. Over Temperature LED is OFF and System Alert LED is OFF
	UNC+ Assert	Temperature has increased above non-critical threshold.
	UNC+ Deassert	Temperature has returned to normal from non-critical.
io.rear.t_amb Ambient temperature measured at rear of I/O board	UNR+ Assert	Temperature has increased above non-recoverable threshold. Over Temperature LED is ON and System Alert LED is ON. Host power is unchanged.
	UNR+ Deassert	Temperature has returned to critical from non-recoverable. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Assert	Temperature has increased above critical threshold. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Deassert	Temperature has returned to non-critical from critical. Over Temperature LED is OFF and System Alert LED is OFF.
	UNC+ Assert	Temperature has increased above non-critical threshold.
	UNC+ Deassert	Temperature has returned to normal from non-critical.
io.front.t_amb Ambient temperature measured at rear of I/O board	UNR+ Assert	Temperature has increased above non-recoverable threshold. Over Temperature LED is ON and System Alert LED is ON. Host power is unchanged.
	UNR+ Deassert	Temperature has returned to critical from non-recoverable. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Assert	Temperature has increased above critical threshold. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Deassert	Temperature has returned to non-critical from critical. Over Temperature LED is OFF and System Alert LED is OFF.
	UNC+ Assert	Temperature has increased above non-critical threshold.
	UNC+ Deassert	Temperature has returned to normal from non-critical.
proc.rear.t_amb Ambient temperature measured at rear of Processor board	UNR+ Assert	Temperature has increased above non-recoverable threshold. Over Temperature LED is ON and System Alert LED is ON. Host power is unchanged.
	UNR+ Deassert	Temperature has returned to critical from non-recoverable. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Assert	Temperature has increased above critical threshold. Over Temperature LED is ON and System Alert LED is ON.
	UC+ Deassert	Temperature has returned to non-critical from critical. Over Temperature LED is OFF and System Alert LED is OFF.
	UNC+ Assert	Temperature has increased above non-critical threshold.
	UNC+ Deassert	Temperature has returned to normal from non-critical.

Voltage Sensors (X4540)

TABLE 1-9 Voltage Sensors
Sensor	Description
bat.v_bat	Battery voltage measured on Processor Board
sys.v_+12v	+12V measured on Processor Board
sys.v_+1v2ht	+1.2V measured on Processor Board
sys.v_+3v3	+3.3V measured on Processor Board
sys.v_+3v3stby	+3.3V standby measured on Processor Board
io.v_+12v	+12V measured on I/O Board
io.v_+1v2	+1.2V measured on I/O Board
io.v_+1v4	+1.4V measured on I/O Board
io.v_+1v5	+1.5V measured on I/O Board
io.v_+1v8	+1.8V measured on I/O Board
io.v_+3v3	+3.3V measured on I/O Board
io.v_+3v3stby	+3.3V standby measured on I/O Board
io.v_+5v	+5V measured on I/O Board
io.v_+5v_disk	+5V disk measured on I/O Board
io.v_bat	Battery voltage measured on I/O Board
pN.v_+0v9	Processor N +0.9V
pN.v_+1v8	Processor N +1.8V
pN.v_vddcore	Processor N core voltage

Voltage Sensor Details (X4540)

TABLE 1-10 Voltage Sensor Details
Sensor	Threshold Event	Description/Action
All
	UNR+ Deassert	Voltage has returned to critical from non-recoverable.
	UC+ Assert	Voltage has increased above upper critical threshold. System Power Fail LED is ON. For sys.v_bat, battery LED is on.
	UC+ Deassert	Voltage has returned to non-critical from critical.
	UNC+ Assert	Voltage has increased above non-critical threshold. System Power Fail LED is ON. For sys.v_bat, battery LED is on.
	LC- Assert	Voltage has decreased below lower critical threshold. System Power Fail LED is ON (except sys. and bat.). For sys.v_bat, battery LED is on.
	LC- Deassert	Voltage has returned to non-critical from critical.
	LNR+ Assert	Voltage has decreased below lower non-recoverable threshold. System Power Fail LED is ON (except sys. and bat.). For sys.v_bat, battery LED is on.
	LNR+ Deassert	Voltage has returned to critical from non-recoverable.

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