ASUS Eee PC 1015pn
Asus 1015PN is a dual-core netbook with Nvidia IOn graphics for better gaming. It works fine with Linux OSs. This article provides some information on hardwares specs and some knowledge base about it.
- CPU: Intel Atom Dual-Core N550 (1.5 GHz)
- RAM: 1GB 1066MHz DDR3 (up to 2GB 1333Mhz)
- HDD: 250 GB, 5400 RPM
- GPU: nVidia GT218 ION2 with Optimus (Intel GMA 3150 built into the CPU)
- Display: 10.1" 1024 x 600 pixels LCD display
- Wireless: BCM4313
- Bluetooth: Working (confirmed in linux 3.6.5)
- Webcam: Working (remember to add yourself to video group)
- Card Reader: Working
- Extras: 3 USB 2.0 ports, Bluetooth 3
HDD important issue
With the Western Digital hard disc (eg. WD2500BEVT), there is an important issue: using the APM (Advanced Power Management) there are too nomerous spin-down, that can damage the hard drive. To confirm this issue, you have to install from Official repositories.
And you have to run multiple times this command (once in a minute for like 5 minutes):
# smartctl -a /dev/sda|grep Load_Cycle_Count
If the number under Load_Cycle_Count is increasing in a small amount of time (1 or 2 in a minute) you have this issue.
The problem is easily solvable using
/etc/laptop-mode/laptop-mode.conf, you have to set:
# # Should laptop mode tools control the hard drive power management settings? # CONTROL_HD_POWERMGMT=1 # # Power management for HD (hdparm -B values) # BATT_HD_POWERMGMT=255 LM_AC_HD_POWERMGMT=255 NOLM_AC_HD_POWERMGMT=255
This disable all power management systems of the hard drive cause a light heat up (maybe). The same behaviour can be obtained running this command:
# hdparm -B 255 /dev/sda
the 255 number is the power-management level, in a range of 1-255 where 1 is maximum powersaving and 255 powersaving disabled. However setting the value to 253 causes a lot of spin-down. Setting the spin-down feature (it parks the heads away from disk) however can save the hard disk in case of a fall.
This method correct this issue once and for all: WDIDLE3
[This page] contains a pre-built DOS boot disk to fix this issue. It can be installed a run from a USB.
nVidia ION 2 with Optimus
Optimus doesn't work at all but it is possible to choose which graphical card will be used on next reboot.
You can get 2 'modes' :
- By default (if you do not do anything) the machine starts with the Nvidia beeing the only VGA controller visible (so it will use the ION chip).
- Using some tools you can start with the Intel and Nvidia VGA controller visible. In this mode the Intel controller is used and it is possible to power-down the Nvidia part.
To switch between those modes you will need the
acpi_call-git kernel module.
Installing acpi_call kernel module
This module is provided by AUR.AUR, or its dkms version, AUR. Both are available in
Build and install on of these packages and then load the module.
Make sure you add
/etc/modules-load.d/, in order to have the module available in every reboot.
Selecting Video Card
The ACPI method \OSGS is used for selecting the video card for the next boot. The first argument to it determines the card(s) to be enabled. Only the two rightmost bits are used. If bit 0 is enabled, the intel card is enabled as well. Bit 1 correspondends with the nvidia card. If no bits are enabled, only the nvidia card will be enabled. Hence:
- \OSGS 3 - enable Intel + Nvidia (Optimus mode)
- \OSGS 2 (or even \OSGS 0x00) - enable Nvidia only (discrete mode)
- \OSGS 1 - enable Intel only (integrated mode)
Using the acpi_call module, you can execute these commands. Example: to select Intel + Nvidia on next reboot:
echo '\OSGS 3' > /proc/acpi/call
Note: You will need to do this at each boot as long as you want to stay with the Intel part (If you do not do this the Eee will start with only the Nvidia Ion VGA controller). Adding the above command to /etc/rc.local will run the command on every boot (for the next boot). This is ideal if you want to run X on the Intel VGA controller.
You can check the current mode with :
echo "\AMW0.DSTS 0x90013" > /proc/acpi/call cat /proc/acpi/call
Substract 0x30000 from the result and interpret the remaining two bits as the first argument passed to \OSGS. Thus:
- 0x30003 - intel + nvidia are on (Optimus mode)
- 0x30002 - only the nvidia card is on (discrete mode)
- 0x30001 - only the intel card is on (integrated mode)
After reboot you can see which controllers are enabled with:
lspci -nn | grep '\[03'
You can now power down the ion part with (you'll need the acpi_call module loaded):
echo "\_SB.PCI0.P0P4.DGPU.DOFF" > /proc/acpi/call
Note: when the nvidia card is the only enabled card, the above function does nothing.
Note: When leaving suspend you need to do this again because the Nvidia part reactivates itself.
rc script to disable nvidia:
#!/bin/bash . /etc/rc.conf . /etc/rc.d/functions if lsmod | grep -q acpi_call; then stat_busy 'Swith per ACPI_CALL to Optimus' echo "\OSGS 0x03" > /proc/acpi/callrayt5 echo "\_SB.PCI0.P0P4.DGPU.DOFF" > /proc/acpi/call echo "\AMW0.DSTS 0x90013" > /proc/acpi/call result=$(cat /proc/acpi/call) case "$result" in 0x30003) stat_done ;; *) stat_fail ;; esac else stat_busy 'ACPI_CALL mod not loaded' stat_fail fi
You can check consumption with:
- Before disabling: ~1700mA.
- After disabling: ~1000mA.
As you can see this method saves a lot of battery!
As of kernel 3.1, appending
acpi_osi=Linux to the kernel line in your bootloader configuration file (e.g. grub, lilo, syslinux...) is no longer necessary to enable ACPI. The proper modules should be automatically called at boot.
- proprietary AUR driver or, its dkms version AUR), both available in AUR.
- open source
brcm80211driver directly included in the Linux kernel, since version 3.0.0 (recommended)
In case you use the open source brcm80211 driver provided by Linux kernel, make sure you add
bcma to a blacklist file, otherwise you will have a conflict between drivers which will block the
brcm80211 driver and that will make your wireless card be unavailable.
The 1015pn can be configured to run automatically on the Intel video card, turn on and use the Nvidia part for specific processes when requested, and otherwise leave the Nvidia part turned off.
First, install AUR.
acpi_call module into
Lets make use of systemd's tmpfiles to ensure that the Intel VGA controller is used on every subsequent boot.
w /proc/acpi/call - - - - \OSGS 0x03
Next, install and configure Bumblebee. Finally, remove any automated or otherwise scripted acpi calls to turn off the Nvidia VGA controller.
Power management of the Nvidia VGA controller can also be handled by Bumblebee. Please note, however, that Bumblebee support for power management is currently experimental. To use automatic power management of the Nvidia card, first go to
/etc/bumblebee/bumblebee.conf, and change ENABLE_POWER_MANAGEMENT=Y and STOP_SERVICE_ON_EXIT=Y.
This gives Bumblebee permission to turn on and off the Nvidia card. Stop service on exit means that the Nvidia card will be turned off when not currently being used by any process.
Next, two new files,
cardoff, must be created in
/etc/bumblebee/, with the following contents:
These are the acpi calls that Bumblebee will use to dynamically control the power of the Nvidia card. Now if bumblebee is included in the
MODULES section of
/etc/rc.conf, Bumblebee will automatically power down the Nvidia VGA controller unless it is being used with the optirun command.
- Manage to get the , and or packages installed (specific libgl being used by each one)
- Fix notes about rc.conf and initscripts.