Oracle linux nvidia driver

• Fixed a driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «implicit declaration of function ‘timespec_to_ns'».
• Fixed a driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «implicit declaration of function ‘getrawmonotonic'».
• Fixed a driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «implicit declaration of function ‘getnstimeofday'».
• Fixed a driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «dereferencing pointer to incomplete type ‘struct timeval'».
• Fixed a driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «implicit declaration of function ‘jiffies_to_timespec'».
• Fixed driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «passing argument 4 of ‘proc_create_data’ from incompatible pointer type».
• Fixed driver installation failure on Linux kernel 5.6 release candidates, where the NVIDIA kernel module failed to build with error «implicit declaration of function ‘ioremap_nocache'».
• Fixed driver installation failure on Oracle Linux 7.7 systems, where the NVIDIA kernel module failed to build with error «unknown type name ‘vm_fault_t'».
• Add PRIME Synchronization support for Linux kernel 5.4 and newer.

Vulkan with flipping enabled on Quadro cards can lead to graphic corruption.
If you think you have run into it you can do either of the following as a workaround:

— Disable flipping in nvidia-settings (uncheck «Allow Flipping» in the «OpenGL Settings» panel)
— Disable UBB (run ‘nvidia-xconfig —no-ubb’)
— Use a composited desktop

Note that many Linux distributions provide their own packages of the NVIDIA Linux Graphics Driver in the distribution’s native package management format. This may interact better with the rest of your distribution’s framework, and you may want to use this rather than NVIDIA’s official package.

Also note that SuSE users should read the SuSE NVIDIA Installer HOWTO before downloading the driver.

Installation instructions: Once you have downloaded the driver, change to the directory containing the driver package and install the driver by running, as root, sh ./NVIDIA-Linux-x86-390.138.run

One of the last installation steps will offer to update your X configuration file. Either accept that offer, edit your X configuration file manually so that the NVIDIA X driver will be used, or run nvidia-xconfig

Note that the list of supported GPU products is provided to indicate which GPUs are supported by a particular driver version. Some designs incorporating supported GPUs may not be compatible with the NVIDIA Linux driver: in particular, notebook and all-in-one desktop designs with switchable (hybrid) or Optimus graphics will not work if means to disable the integrated graphics in hardware are not available. Hardware designs will vary from manufacturer to manufacturer, so please consult with a system’s manufacturer to determine whether that particular system is compatible.

See the README for more detailed instructions.

NVIDIA TITAN Xp, NVIDIA TITAN X (Pascal), GeForce GTX TITAN X, GeForce GTX TITAN, GeForce GTX TITAN Black, GeForce GTX TITAN Z

GeForce MX100 Series (Notebook):

GeForce MX150, GeForce MX130, GeForce MX110

GeForce 10 Series:

GeForce GTX 1080 Ti, GeForce GTX 1080, GeForce GTX 1070 Ti, GeForce GTX 1070, GeForce GTX 1060, GeForce GTX 1050 Ti, GeForce GTX 1050, GeForce GT 1030

GeForce 10 Series (Notebooks):

GeForce GTX 1080, GeForce GTX 1070, GeForce GTX 1060, GeForce GTX 1050 Ti, GeForce GTX 1050

GeForce 900 Series:

GeForce GTX 980 Ti, GeForce GTX 980, GeForce GTX 970, GeForce GTX 960, GeForce GTX 950

GeForce 900M Series (Notebooks):

GeForce GTX 980, GeForce GTX 980M, GeForce GTX 970M, GeForce GTX 965M, GeForce GTX 960M, GeForce GTX 950M, GeForce 945M, GeForce 940MX, GeForce 930MX, GeForce 920MX, GeForce 940M, GeForce 930M, GeForce 920M, GeForce 910M

GeForce 800M Series (Notebooks):

GeForce GTX 880M, GeForce GTX 870M, GeForce GTX 860M, GeForce GTX 850M, GeForce 845M, GeForce 840M, GeForce 830M, GeForce 825M, GeForce 820M, GeForce 810M, GeForce 800M

GeForce 700 Series:

GeForce GTX 780 Ti, GeForce GTX 780, GeForce GTX 770, GeForce GTX 760, GeForce GTX 760 Ti (OEM), GeForce GTX 750 Ti, GeForce GTX 750, GeForce GTX 745, GeForce GT 740, GeForce GT 730, GeForce GT 720, GeForce GT 710, GeForce GT 705

GeForce 700M Series (Notebooks):

GeForce GTX 780M, GeForce GTX 775M, GeForce GTX 770M, GeForce GTX 765M, GeForce GTX 760M, GeForce GT 755M, GeForce GT 750M, GeForce GT 745M, GeForce GT 740M, GeForce GT 735M, GeForce GT 730M, GeForce GT 720M, GeForce GT 710M, GeForce 720M, GeForce 710M, GeForce 705M

GeForce 600 Series:

GeForce GTX 690, GeForce GTX 680, GeForce GTX 670, GeForce GTX 660 Ti, GeForce GTX 660, GeForce GTX 650 Ti BOOST, GeForce GTX 650 Ti, GeForce GTX 650, GeForce GTX 645, GeForce GT 645, GeForce GT 640, GeForce GT 635, GeForce GT 630, GeForce GT 620, GeForce GT 610, GeForce 605

GeForce 600M Series (Notebooks):

GeForce GTX 680MX, GeForce GTX 680M, GeForce GTX 675MX, GeForce GTX 675M, GeForce GTX 670MX, GeForce GTX 670M, GeForce GTX 660M, GeForce GT 650M, GeForce GT 645M, GeForce GT 640M, GeForce GT 640M LE, GeForce GT 635M, GeForce GT 630M, GeForce GT 625M, GeForce GT 620M, GeForce 610M

GeForce 500 Series:

GeForce GTX 590, GeForce GTX 580, GeForce GTX 570, GeForce GTX 560 Ti, GeForce GTX 560 SE, GeForce GTX 560, GeForce GTX 555, GeForce GTX 550 Ti, GeForce GT 545, GeForce GT 530, GeForce GT 520, GeForce 510

GeForce 500M Series (Notebooks):

GeForce GTX 580M, GeForce GTX 570M, GeForce GTX 560M, GeForce GT 555M, GeForce GT 550M, GeForce GT 540M, GeForce GT 525M, GeForce GT 520M, GeForce GT 520MX

GeForce 400 Series:

GeForce GTX 480, GeForce GTX 470, GeForce GTX 465, GeForce GTX 460 SE v2, GeForce GTX 460 SE, GeForce GTX 460, GeForce GTS 450, GeForce GT 440, GeForce GT 430, GeForce GT 420

GeForce 400M Series (Notebooks):

GeForce GTX 485M, GeForce GTX 480M, GeForce GTX 470M, GeForce GTX 460M, GeForce GT 445M, GeForce GT 435M, GeForce GT 425M, GeForce GT 420M, GeForce GT 415M, GeForce 410M

Quadro GP100, Quadro P6000, Quadro P5200, Quadro P5000, Quadro P4000, Quadro P2000, Quadro P1000, Quadro P620, Quadro P600, Quadro P400, Quadro M6000 24GB, Quadro M6000, Quadro M5000, Quadro M4000, Quadro M2000, Quadro K6000, Quadro K5200, Quadro K5000, Quadro K4000, Quadro K4200, Quadro K2200, Quadro K2000, Quadro K2000D, Quadro K1200, Quadro K620, Quadro K600, Quadro K420, Quadro 6000, Quadro 5000, Quadro 4000, Quadro 2000, Quadro 2000D, Quadro 600, Quadro 410

Quadro Series (Notebooks):

Quadro P5200, Quadro P5000, Quadro P4200, Quadro P3200, Quadro P4000, Quadro P3000, Quadro P2000, Quadro P1000, Quadro P600, Quadro P500, Quadro M2200, Quadro M1200, Quadro M620, Quadro M520, Quadro M5500, Quadro M5000M, Quadro M4000M, Quadro M3000M, Quadro M2000M, Quadro M1000M, Quadro M600M, Quadro M500M, Quadro K5100M, Quadro K5000M, Quadro K4100M, Quadro K4000M, Quadro K3100M, Quadro K2200M, Quadro K2100M, Quadro K3000M, Quadro K2000M, Quadro K1100M, Quadro K1000M, Quadro K620M, Quadro K610M, Quadro K510M, Quadro K500M, Quadro 5010M, Quadro 5000M, Quadro 4000M, Quadro 3000M, Quadro 2000M, Quadro 1000M

Quadro Blade/Embedded Series :

Quadro P5000, Quadro P3000, Quadro M5000 SE, Quadro M3000 SE, Quadro K3100M, Quadro 500M

Quadro NVS Series:

NVS 810, NVS 510, NVS 315, NVS 310

Quadro NVS Series (Notebooks):

NVS 5400M, NVS 5200M, NVS 4200M

Quadro Sync Series:

Quadro Sync II, Quadro Sync, Quadro G-Sync II

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Oracle linux nvidia driver

This edition of Quickstart guide describes the installation process of NVIDIAВ® Drivers for supported Linux distributions.

Introduction

The purpose of this document is to provide some quick start notes for installing NVIDIA drivers on Linux distributions for servers. For more comprehensive information on installing CUDA Toolkit and drivers on various Linux distributions (for both workstation and server variants), refer to the CUDA Installation Guide for Linux.

1.1. Pre-Installation Requirements

For more detailed steps on completing each of these pre-installation steps, refer to the pre-installation actions in the CUDA Installation Guide for Linux.

1.2. Installer Formats

2. Runfile Installers

NVIDIA drivers are available as .run installer packages for use with Linux distributions from the NVIDIA driver downloads site. Select the .run package for your GPU product.

This page also includes links to all the current and previous driver releases: https://www.nvidia.com/en-us/drivers/unix.

The .run can also be downloaded using wget or curl as shown in the example below:

Once the .run installer has been downloaded, the NVIDIA driver can be installed:

Follow the prompts on the screen during the installation. For more advanced options on using the .run installer, see the —help option or refer to the README.

3. Package Managers

The Package Manager installation interfaces with your system’s package management system. When using RPM or Deb, the downloaded package is a repository package. Such a package only informs the package manager where to find the actual installation packages, but will not install them.

3.1. Ubuntu LTS

This section includes instructions for installing the NVIDIA driver on Ubuntu 16.04 LTS and Ubuntu 18.04 LTS distributions using the package manager.

The NVIDIA driver requires that the kernel headers and development packages for the running version of the kernel be installed at the time of the driver installation, as well whenever the driver is rebuilt. For example, if your system is running kernel version 4.4.0, the 4.4.0 kernel headers and development packages must also be installed.

The kernel headers and development packages for the currently running kernel can be installed with:

Ensure packages on the CUDA network repository have priority over the Canonical repository.

Install the CUDA repository public GPG key. Note that on Ubuntu 16.04, replace https with http in the command below.

Setup the CUDA network repository.

Update the APT repository cache and install the driver using the cuda-drivers meta-package. Use the —no-install-recommends option for a lean driver install without any dependencies on X packages. This is particularly useful for headless installations on cloud instances.

3.2. Red Hat Enterprise Linux 8

This section includes instructions for installing the NVIDIA driver on RHEL 8 using the package manager.

If not done already (for example when using RHEL on cloud instances), register the system using subscription-manager . For more information, refer to this KB article on the Red Hat Customer Portal.

Satisfy the external dependency on EPEL for DKMS and enable any optional repos for RHEL 8 only.

Install the CUDA repository public GPG key.

Setup the CUDA network repository.

The NVIDIA driver requires that the kernel headers and development packages for the running version of the kernel be installed at the time of the driver installation, as well whenever the driver is rebuilt. For example, if your system is running kernel version 4.4.0, the 4.4.0 kernel headers and development packages must also be installed.

For RHEL 8, ensure that the system has the correct Linux kernel sources from the Red Hat repositories:

The choice of the driver package depends on the stream and profile to be used as shown below:

stream depends on the driver branch and type (e.g. precompiled). To install the latest driver, choose the latest-dkms driver stream. For more information on the supported streams, refer to the support matrix.

profile by default is «default» and does not need to be specified. Supported profiles can be chosen based on the use-case:

Follow the post-installation steps in the CUDA Installation Guide for Linux to setup environment variables, NVIDIA persistence daemon (recommended) and to verify the successful installation of the driver.

Optionally, if tearing down a cloud instance with RHEL, remove and unregister entitlements from Red Hat if the instance is no longer required.

3.3. CentOS 8

This section includes instructions for installing the NVIDIA driver on CentOS 8 using the package manager.

In some cases, you may need to install some additional dependencies that are required for installing the NVIDIA drivers.

Enable the PowerTools repo and set up the external dependency on EPEL for DKMS.

Install the CUDA repository public GPG key.

Setup the CUDA network repository.

The NVIDIA driver requires that the kernel headers and development packages for the running version of the kernel be installed at the time of the driver installation, as well whenever the driver is rebuilt. For example, if your system is running kernel version 4.4.0, the 4.4.0 kernel headers and development packages must also be installed.

For CentOS 8, ensure that the system has the correct Linux kernel sources from the CentOS repositories:

Note that in some cases, you may have to update the running kernel as a pre-requisite:

The choice of the driver package depends on the stream and profile to be used as shown below:

stream depends on the driver branch and type (e.g. precompiled). To install the latest driver, choose the latest-dkms driver stream. For more information on the supported streams, refer to the support matrix.

profile by default is «default» and does not need to be specified. Supported profiles can be chosen based on the use-case:

Follow the post-installation steps in the CUDA Installation Guide for Linux to setup environment variables, NVIDIA persistence daemon (recommended) and to verify the successful installation of the driver.

3.4. Red Hat Enterprise Linux 7

This section includes instructions for installing the NVIDIA driver on RHEL 7 using the package manager.

If not done already (for example when using RHEL on cloud instances), register the system using subscription-manager . For more information, refer to this KB article on the Red Hat Customer Portal.

Satisfy the external dependency on EPEL for DKMS and enable any optional repos for RHEL 7.

Install the CUDA repository public GPG key.

Setup the CUDA network repository.

The NVIDIA driver requires that the kernel headers and development packages for the running version of the kernel be installed at the time of the driver installation, as well whenever the driver is rebuilt. For example, if your system is running kernel version 4.4.0, the 4.4.0 kernel headers and development packages must also be installed.

For RHEL 7, ensure that the system has the correct Linux kernel sources from the Red Hat repositories:

Update the repository cache and install the driver using the nvidia-driver-latest-dkms meta-package.

Follow the post-installation steps in the CUDA Installation Guide for Linux to setup environment variables, NVIDIA persistence daemon (recommended) and to verify the successful installation of the driver.

Optionally, if tearing down a cloud instance with RHEL, remove and unregister entitlements from Red Hat if the instance is no longer required.

3.5. CentOS 7

This section includes instructions for installing the NVIDIA driver on CentOS 7 using the package manager.

In some cases, you may need to install some additional dependencies that are required for installing the NVIDIA drivers.

Satisfy the external dependency on EPEL for DKMS.

Install the CUDA repository public GPG key.

Setup the CUDA network repository.

The NVIDIA driver requires that the kernel headers and development packages for the running version of the kernel be installed at the time of the driver installation, as well whenever the driver is rebuilt. For example, if your system is running kernel version 4.4.0, the 4.4.0 kernel headers and development packages must also be installed.

For CentOS 7, ensure that the system has the correct Linux kernel sources from the CentOS repositories:

Update the repository cache and install the driver using the nvidia-driver-latest-dkms meta-package.

Follow the post-installation steps in the CUDA Installation Guide for Linux to setup environment variables, NVIDIA persistence daemon (recommended) and to verify the successful installation of the driver.

3.6. SUSE Linux Enterprise Server 15

This section includes instructions for installing the NVIDIA driver on SLES 15 using the package manager.

Install the CUDA repository public GPG key.

Setup the CUDA network repository.

If not already done, activate the SUSE Package Hub with SUSEConnect . On OpenSUSE systems, this step can be skipped.

Update the repository cache.

The NVIDIA driver requires that the kernel headers and development packages for the running version of the kernel be installed at the time of the driver installation, as well whenever the driver is rebuilt. For example, if your system is running kernel version 4.4.0, the 4.4.0 kernel headers and development packages must also be installed.

For SUSE, ensure that the system has the correct Linux kernel sources from the SUSE repositories.

Use the output of the uname command to determine the running kernel’s version and variant:

Proceed to install the driver using the cuda-drivers meta-package.

On SUSE systems, add the user to the video group.

A reboot of the system may be required to verify that the NVIDIA driver modules are loaded and the devices visible under /dev .

Follow the post-installation steps in the CUDA Installation Guide for Linux to setup environment variables, NVIDIA persistence daemon (recommended) and to verify the successful installation of the driver.

Notices

Notice

THE INFORMATION IN THIS GUIDE AND ALL OTHER INFORMATION CONTAINED IN NVIDIA DOCUMENTATION REFERENCED IN THIS GUIDE IS PROVIDED “AS IS.” NVIDIA MAKES NO WARRANTIES, EXPRESSED, IMPLIED, STATUTORY, OR OTHERWISE WITH RESPECT TO THE INFORMATION FOR THE PRODUCT, AND EXPRESSLY DISCLAIMS ALL IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTABILITY, AND FITNESS FOR A PARTICULAR PURPOSE. Notwithstanding any damages that customer might incur for any reason whatsoever, NVIDIA’s aggregate and cumulative liability towards customer for the product described in this guide shall be limited in accordance with the NVIDIA terms and conditions of sale for the product.

THE NVIDIA PRODUCT DESCRIBED IN THIS GUIDE IS NOT FAULT TOLERANT AND IS NOT DESIGNED, MANUFACTURED OR INTENDED FOR USE IN CONNECTION WITH THE DESIGN, CONSTRUCTION, MAINTENANCE, AND/OR OPERATION OF ANY SYSTEM WHERE THE USE OR A FAILURE OF SUCH SYSTEM COULD RESULT IN A SITUATION THAT THREATENS THE SAFETY OF HUMAN LIFE OR SEVERE PHYSICAL HARM OR PROPERTY DAMAGE (INCLUDING, FOR EXAMPLE, USE IN CONNECTION WITH ANY NUCLEAR, AVIONICS, LIFE SUPPORT OR OTHER LIFE CRITICAL APPLICATION). NVIDIA EXPRESSLY DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY OF FITNESS FOR SUCH HIGH RISK USES. NVIDIA SHALL NOT BE LIABLE TO CUSTOMER OR ANY THIRD PARTY, IN WHOLE OR IN PART, FOR ANY CLAIMS OR DAMAGES ARISING FROM SUCH HIGH RISK USES.

NVIDIA makes no representation or warranty that the product described in this guide will be suitable for any specified use without further testing or modification. Testing of all parameters of each product is not necessarily performed by NVIDIA. It is customer’s sole responsibility to ensure the product is suitable and fit for the application planned by customer and to do the necessary testing for the application in order to avoid a default of the application or the product. Weaknesses in customer’s product designs may affect the quality and reliability of the NVIDIA product and may result in additional or different conditions and/or requirements beyond those contained in this guide. NVIDIA does not accept any liability related to any default, damage, costs or problem which may be based on or attributable to: (i) the use of the NVIDIA product in any manner that is contrary to this guide, or (ii) customer product designs.

Other than the right for customer to use the information in this guide with the product, no other license, either expressed or implied, is hereby granted by NVIDIA under this guide. Reproduction of information in this guide is permissible only if reproduction is approved by NVIDIA in writing, is reproduced without alteration, and is accompanied by all associated conditions, limitations, and notices.

Trademarks

NVIDIA and the NVIDIA logo are trademarks and/or registered trademarks of NVIDIA Corporation in the Unites States and other countries. Other company and product names may be trademarks of the respective companies with which they are associated.

Copyright

В© 2020 NVIDIA Corporation. All rights reserved.

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