On Tue, Apr 22, 2008 at 10:10:40AM -0700, Francesco Pietra wrote: > If appropriate for this list, with amd64 etch I have a problem in getting the > package lm-sensors to work correctly with mainboard Supermicro H8QCE > (quad-socket dual-core opteron 875) > > I have connected all fans and LEDs to the mainboard, setting upper temp > safety for CPUs 67C. BIOS detects, with few oscillations around the following > values: > > CPU1 temp 26C > CPU2 31 > CPU3 32 > CPU4 27 > System temp 26 > > CPU1 Vcore 1.34V > CPU2 1.33 > CPU3 1.34 > CPU4 1.35 > +5Vin 5.04 > +12Vin 12.06 > -12V Vcc (V) -12.43 > Battery voltage 3.10 > > FAN1 Speed 3437RPM > FAN3 (CPU4) 5500 > FAN4 (CPU1) 5689 > FAN6 3586 > FAN7 (CPU3) 5689 > FAN8 (CPU2) 5689 > FAN9 3270 > > where 1, 8, and 9 are additional fans to those of the power source, and the > low RPM means that are now powered at 9V instead of 12V. > __________ > Then I have installed lm-sensors and carried out sensors-detect, without > error warnings. > Follows the result of command 'sensors". I fear that the sensors have not > been correctly detected. I repeated the whole procedure with same results. > There are several temperature guards on the motherboard (LEDs and beeps), > however I the machine is remote enough that I want to have a check during > long runs from my keyboard. > > adm1026-i2c-1-2c > Adapter: SMBus nForce2 adapter at 4c40 > in0: +2.64 V (min = +0.00 V, max = +2.99 V) > in1: +1.21 V (min = +2.25 V, max = +2.75 V) ALARM > in2: +2.64 V (min = +2.25 V, max = +2.75 V) > in3: +1.50 V (min = +2.25 V, max = +2.75 V) ALARM > in4: +0.00 V (min = +0.00 V, max = +2.99 V) ALARM > in5: +0.00 V (min = +0.00 V, max = +2.99 V) ALARM > in6: +0.00 V (min = +0.00 V, max = +2.49 V) ALARM > in7: +1.34 V (min = +1.02 V, max = +1.68 V) > in8: +0.00 V (min = +0.00 V, max = +2.49 V) > in9: +0.24 V (min = +0.00 V, max = +0.65 V) > in10: +3.09 V (min = +2.97 V, max = +3.64 V) > in11: +3.40 V (min = +2.97 V, max = +3.64 V) > in12: +3.33 V (min = +2.97 V, max = +3.64 V) > in13: +5.05 V (min = +4.50 V, max = +5.49 V) > in14: +1.35 V (min = +1.02 V, max = +1.68 V) > in15: +12.12 V (min = +10.81 V, max = +13.19 V) > in16: -11.88 V (min = -13.18 V, max = -10.80 V) > fan0: 0 RPM (min = 712 RPM, div = 8) > fan1: 3515 RPM (min = 712 RPM, div = 8) ALARM > fan2: 0 RPM (min = 712 RPM, div = 8) > fan3: 5818 RPM (min = 712 RPM, div = 8) > fan4: 5818 RPM (min = 712 RPM, div = 8) ALARM > fan5: 0 RPM (min = 712 RPM, div = 8) ALARM > fan6: 0 RPM (min = 712 RPM, div = 8) ALARM > fan7: 0 RPM (min = 712 RPM, div = 8) ALARM > temp1: +26?C (low = +0?C, high = +80?C) > temp2: +24?C (low = +0?C, high = +67?C) > temp3: +25?C (low = +0?C, high = +67?C) > vid: +0.975 V (VRM Version 2.4) > > adm1026-i2c-1-2d > Adapter: SMBus nForce2 adapter at 4c40 > in0: +0.00 V (min = +0.00 V, max = +2.99 V) ALARM > in1: +0.00 V (min = +2.25 V, max = +2.75 V) ALARM > in2: +0.00 V (min = +2.25 V, max = +2.75 V) ALARM > in3: +0.00 V (min = +2.25 V, max = +2.75 V) ALARM > in4: +0.00 V (min = +0.00 V, max = +2.99 V) ALARM > in5: +0.00 V (min = +0.00 V, max = +2.99 V) ALARM > in6: +0.00 V (min = +0.00 V, max = +2.49 V) ALARM > in7: +1.36 V (min = +1.02 V, max = +1.68 V) > in8: +0.00 V (min = +0.00 V, max = +2.49 V) > in9: +0.29 V (min = +0.00 V, max = +0.65 V) > in10: +3.06 V (min = +2.97 V, max = +3.64 V) > in11: +3.40 V (min = +0.00 V, max = +4.42 V) > in12: +3.33 V (min = +2.97 V, max = +3.64 V) > in13: +3.30 V (min = +4.50 V, max = +5.49 V) ALARM > in14: +1.35 V (min = +1.02 V, max = +1.68 V) > in15: +0.00 V (min = +10.81 V, max = +13.19 V) ALARM > in16: +0.19 V (min = -13.18 V, max = -10.80 V) ALARM > fan0: 0 RPM (min = 712 RPM, div = 8) ALARM > fan1: 0 RPM (min = 712 RPM, div = 8) > fan2: 3668 RPM (min = 712 RPM, div = 8) > fan3: 5625 RPM (min = 712 RPM, div = 8) > fan4: 5818 RPM (min = 712 RPM, div = 8) ALARM > fan5: 0 RPM (min = 712 RPM, div = 8) > fan6: 3308 RPM (min = 712 RPM, div = 8) ALARM > fan7: 0 RPM (min = 712 RPM, div = 8) ALARM > temp1: +44?C (low = +0?C, high = +80?C) > temp2: +31?C (low = +0?C, high = +67?C) > temp3: +30?C (low = +0?C, high = +67?C) > vid: +0.975 V (VRM Version 2.4) > > w83627hf-isa-0290 > Adapter: ISA adapter > VCore 1: +4.08 V (min = +0.00 V, max = +4.08 V) > VCore 2: +4.08 V (min = +0.00 V, max = +4.08 V) > +3.3V: +4.08 V (min = +2.82 V, max = +3.79 V) ALARM > +5V: +5.08 V (min = +3.79 V, max = +0.35 V) ALARM > +12V: +11.73 V (min = +2.37 V, max = +3.16 V) ALARM > -12V: +1.04 V (min = +3.43 V, max = -12.44 V) ALARM > -5V: +2.09 V (min = +3.85 V, max = -0.88 V) ALARM > V5SB: +5.64 V (min = +3.20 V, max = +2.15 V) ALARM > VBat: +0.03 V (min = +3.26 V, max = +2.59 V) ALARM > fan1: 0 RPM (min = 9507 RPM, div = 2) ALARM > fan2: 0 RPM (min = 6617 RPM, div = 2) ALARM > fan3: 0 RPM (min = 3970 RPM, div = 2) ALARM > temp1: -48?C (high = +51?C, hyst = -79?C) sensor = thermistor > > temp2: -48.0?C (high = +80?C, hyst = +75?C) sensor = thermistor > > temp3: -48.0?C (high = +80?C, hyst = +75?C) sensor = thermistor > > vid: +0.000 V (VRM Version 2.4) > alarms: > beep_enable: > Sound alarm enabled
It is quite normal to have to configure the /etc/sensors.conf to match your hardware. Where to get the actual values needed can be tricky unless the board maker is actually willing to get their engineers to tell you the resistor values on the voltage inputs. The same chip can be used on many boards after all and the meaning of each input is up to the user of that chip. For example the same chip you have at the bottom of your list is used on the router I work on. The output of sensors on it (which has been configured properly) is: w83627hf-isa-0290 Adapter: ISA adapter VCore A: +2.51 V (min = +2.37 V, max = +2.62 V) VCore B: +1.20 V (min = +1.14 V, max = +1.26 V) +3.3 PS1: +3.30 V (min = +3.14 V, max = +3.47 V) +5V: +5.05 V (min = +4.76 V, max = +5.24 V) +12V: +12.52 V (min = +10.82 V, max = +13.19 V) +3.3 PS2: +0.02 V (min = +3.14 V, max = +3.47 V) ALARM VBat: +3.02 V (min = +2.40 V, max = +3.60 V) As you can see some of the values are quite different and we even changed the labels on some due to how we connected them. My particular unit on my desk has only one power supply installed, which explains the lack of power on the second power supply input. -- Len Sorensen -- To UNSUBSCRIBE, email to [EMAIL PROTECTED] with a subject of "unsubscribe". Trouble? Contact [EMAIL PROTECTED]