There are several choices for configuring the NVIDIA kernel module's use of AGP on Linux. You can choose to either use the NVIDIA builtin AGP driver (NvAGP), or the AGP driver that comes with the Linux kernel (AGPGART). This is controlled through the "NvAGP" option in your X config file:
Option "NvAGP" "0" ... disables AGP support Option "NvAGP" "1" ... use NvAGP, if possible Option "NvAGP" "2" ... use AGPGART, if possible Option "NvAGP" "3" ... try AGPGART; if that fails, try NvAGP
The default is 3 (the default was 1 until after 1.0-1251).
You should use the AGP driver that works best with your AGP chipset. If you are experiencing problems with stability, you may want to start by disabling AGP and seeing if that solves the problems. Then you can experiment with the AGP driver configuration.
You can query the current AGP status at any time via the
/proc filesystem interface (see
Using the Proc Filesystem Interface).
To use the Linux 2.4 AGPGART driver, you will need to compile it
with your kernel and either statically link it in, or build it as a
module and load it. To use the AGPGART driver provided by Linux 2.6
or more recent Linux kernels, both the AGPGART frontend module,
apggart.ko, and the backend module
for your AGP chipset (
via-agp.ko, ...) need to be statically linked
into the kernel, or built as modules and loaded.
NVIDIA builtin AGP support is unavailable if an AGPGART backend
driver is loaded into the kernel. On Linux 2.4, it is recommended
that you compile AGPGART as a module and make sure that it is not
loaded when trying to use the NVIDIA AGP driver. On Linux 2.6 or
later Linux kernels, the
frontend module will always be loaded, as it is used by the NVIDIA
kernel module to determine if an AGPGART backend module is loaded.
When the NVIDIA AGP driver is to be used on a Linux 2.6 or newer
system, it is recommended that you make sure the AGPGART backend
drivers are built as modules and that they are not loaded.
Also note that changing AGP drivers generally requires a reboot before the changes actually take effect.
If you are using a Linux 2.6 or newer Linux kernel that has the Linux AGPGART driver statically linked in (some distribution kernels do), you can pass the
parameter to the kernel (via LILO or GRUB, for example) to disable AGPGART support. As of Linux 2.6.11, most AGPGART backend drivers should respect this parameter.
The following AGP chipsets are supported by the NVIDIA AGP driver; for all other chipsets it is recommended that you use the AGPGART module.
|Supported AGP Chipsets|
|Intel 815 ("Solano")|
|Intel 820 ("Camino")|
|Intel 840 ("Carmel")|
|Intel 845 ("Brookdale")|
|Intel 850 ("Tehama")|
|Intel 855 ("Odem")|
|Intel 860 ("Colusa")|
|Intel 865G ("Springdale")|
|Intel 875P ("Canterwood")|
|Intel E7205 ("Granite Bay")|
|Intel E7505 ("Placer")|
|AMD 751 ("Irongate")|
|AMD 761 ("IGD4")|
|AMD 762 ("IGD4 MP")|
|AMD 8151 ("Lokar")|
|Micron SAMDDR ("Samurai")|
|Micron SCIDDR ("Scimitar")|
If you are experiencing AGP stability problems, you should be aware of the following:
Additional AGP Information
On Athlon motherboards with the VIA KX133 or 694X chip set, such as the ASUS K7V motherboard, NVIDIA drivers default to AGP 2x mode to work around insufficient drive strength on one of the signals. You can force AGP 4x by setting NVreg_EnableVia4x to 1. Note that this may cause the system to become unstable.
Some Linux kernels have a conflicting cache attribute bug that is exposed by advanced speculative caching in newer AMD Athlon family processors (AMD Athlon XP, AMD Athlon 4, AMD Athlon MP, and Models 6 and above AMD Duron). This kernel bug usually shows up under heavy use of accelerated 3D graphics with an AGP graphics card.
Linux distributions based on kernel 2.4.19 and later *should* incorporate the bug fix, but older kernels require help from the user in ensuring that a small portion of advanced speculative caching is disabled (normally done through a kernel patch) and a boot option is specified in order to apply the whole fix.
NVIDIA's driver automatically disables the small portion of advanced speculative caching for the affected AMD processors without the need to patch the kernel; it can be used even on kernels which do already incorporate the kernel bug fix. Additionally, for older kernels the user performs the boot option portion of the fix by explicitly disabling 4MB pages. This can be done from the boot command line by specifying:
Or by adding the following line to /etc/lilo.conf:
append = "mem=nopentium"
You may want to decrease the AGP rate setting if you are seeing
lockups with the value you are currently using. You can do so by
# sh NVIDIA-Linux-x86-290.10.run --extract-only # cd NVIDIA-Linux-x86-290.10/kernel/
Then edit nv-reg.h, and make the following changes:
- NV_DEFINE_REG_ENTRY(__NV_REQ_AGP_RATE, 15); + NV_DEFINE_REG_ENTRY(__NV_REQ_AGP_RATE, 4); /* force AGP Rate to 4x */
+ NV_DEFINE_REG_ENTRY(__NV_REQ_AGP_RATE, 2); /* force AGP Rate to 2x */
+ NV_DEFINE_REG_ENTRY(__NV_REQ_AGP_RATE, 1); /* force AGP Rate to 1x */
Then recompile and load the new kernel module. To do this, run
nvidia-installer with the
-n command line option:
# cd ../../..; ./nvidia-installer -n
Many Via-based motherboards allow adjusting the AGP drive strength in the system BIOS. The setting of this option largely affects system stability, the range between 0xEA and 0xEE seems to work best for NVIDIA hardware. Setting either nibble to 0xF generally results in severe stability problems.
If you decide to experiment with this, you need to be aware of the fact that you are doing so at your own risk and that you may render your system unbootable with improper settings until you reset the setting to a working value (w/ a PCI graphics card or by resetting the BIOS to its default values).
Make sure you have the latest system BIOS provided by the motherboard manufacturer.
On ALi1541 and ALi1647 chipsets, NVIDIA drivers disable AGP to work around timing and signal integrity problems. You can force AGP to be enabled on these chipsets by setting NVreg_EnableALiAGP to 1. Note that this may cause the system to become unstable.
Early system BIOS revisions for the ASUS A7V8X-X KT400 motherboard misconfigure the chipset when an AGP 2.x graphics card is installed; if X hangs on your ASUS KT400 system with either Linux AGPGART or NvAGP enabled and the installed graphics card is not an AGP 8x device, make sure that you have the latest system BIOS installed.