SYNOPSIS
To compile this driver into the kernel, place the following line in your kernel configuration file:device aibs
Alternatively, to load the driver as a module at boot time, place the following line in loader.conf5:
aibs_load="YES"
DESCRIPTION
The driver provides support for the voltage, temperature and fan sensors available through the ATK0110 ASOC ACPI device on ASUSTeK motherboards. The number of sensors of each type, as well as the description of each sensor, varies according to the motherboard.The driver supports an arbitrary set of sensors, provides descriptions regarding what each sensor is used for, and reports the current values as well as the supposed range specifications of each sensor's input as defined by the motherboard manufacturer through ACPI
The range specifications are as follows:
- Voltage sensors have a lower and an upper range specification.
- Temperature sensors have two upper specifications.
- Fan sensors may either have only the lower specification, or, depending on the DSDT one lower and one upper specification.
Sensor readings and the range specifications are made available through the sysctl(3) interface, and can be monitored with sysctl(8). For example, on an ASUS V3-P5G965 barebone:
> sysctl dev.aibs.0.{volt,temp,fan} dev.aibs.0.volt.0: 1192 850 1600 dev.aibs.0.volt.1: 3312 2970 3630 dev.aibs.0.volt.2: 5017 4500 5500 dev.aibs.0.volt.3: 12302 10200 13800 dev.aibs.0.temp.0: 28.0C 80.0C 95.0C dev.aibs.0.temp.1: 55.0C 60.0C 95.0C dev.aibs.0.fan.0: 878 600 7200 dev.aibs.0.fan.1: 0 700 7200 > sysctl -d dev.aibs.0.{volt,temp,fan} dev.aibs.0.volt: dev.aibs.0.volt.0: Vcore Voltage dev.aibs.0.volt.1: +3.3 Voltage dev.aibs.0.volt.2: +5 Voltage dev.aibs.0.volt.3: +12 Voltage dev.aibs.0.temp: dev.aibs.0.temp.0: CPU Temperature dev.aibs.0.temp.1: MB Temperature dev.aibs.0.fan: dev.aibs.0.fan.0: CPU FAN Speed dev.aibs.0.fan.1: CHASSIS FAN Speed
Generally, sensors provided by the driver may also be supported by certain other drivers or utilities that access the ISA LPC or I2C SMBus devices directly. The precise collection of sensors is comprised of the sensors specifically utilised in the motherboard design, which may be supported through a combination of one or more physical hardware monitoring chips.
The driver, however, provides the following advantages when compared to the native hardware monitoring drivers or other utilities:
- Sensor values from are expected to be more reliable. For example, voltage sensors in many hardware monitoring chips can only sense voltage from 0 to 2 or 4 volts, and the excessive voltage is removed by the resistors, which may vary with the motherboard and with the voltage that is being sensed. In , the required resistor factors are provided by the motherboard manufacturer through ACPI in the native drivers, the resistor factors are encoded into the driver based on the chip manufacturer's recommendations. In essence, sensor values from are very likely to be identical to the readings from the Hardware Monitor screen in the BIOS.
- Sensor descriptions from are more likely to match the markings on the motherboard.
- Sensor range specifications are supported by . The range specification is reported for each individual sensor as suggested by the motherboard manufacturer. For example, the threshold for the CPU temperature sensor is likely to be significantly higher than that for the chassis temperature sensor.
- Support for newer chips in . Newer chips may miss a native driver, but should be supported through regardless.
HISTORY
The driver first appeared in Ox 4.7 , Dx 2.5 , Nx 6.0 and Fx 9.0 .An earlier version of the driver, acpi_aiboost first appeared in Fx 7.0 and Nx 5.0 .
AUTHORS
An -nosplit The driver was written for Ox , Dx , Nx and Fx by An Constantine A. Murenin Aq [email protected] , Raouf Boutaba Research Group, David R. Cheriton School of Computer Science, University of Waterloo.An earlier version of the driver, named acpi_aiboost was written for Fx by An Takanori Watanabe .