Version 470.129.06(Linux)/473.47(Windows)

Release notes for the Release 470 family of NVIDIA® Data Center GPU Drivers for Linux and Windows.

This edition of Release Notes describes the Release 470 family of NVIDIA® Data Center GPU Drivers for Linux and Windows. NVIDIA provides these notes to describe performance improvements, bug fixes and limitations in each documented version of the driver.

1. Version Highlights

This section provides highlights of the NVIDIA Data Center GPU R470 Driver (version 470.129.06 Linux and 473.47 Windows).

For changes related to the 470 release of the NVIDIA display driver, review the file "NVIDIA_Changelog" available in the .run installer packages.

  • Linux driver release date: 05/16/2022
  • Windows driver release date: 05/16/2022

1.1. Software Versions

For this release, the software versions are listed below.

  • CUDA Toolkit 11: 11.4

    Note that starting with CUDA 11, individual components of the toolkit are versioned independently. For a full list of the individual versioned components (e.g. nvcc, CUDA libraries etc.), see the CUDA Toolkit Release Notes

  • NVIDIA Data Center GPU Driver: 470.129.06 (Linux) / 473.47 (Windows)

  • Fabric Manager: 470.129.06 (Use nv-fabricmanager -v)

  • GPU VBIOS:

    • 92.00.19.00.01 (NVIDIA A100 SKU200 with heatsink for HGX A100 8-way and 4-way)

    • 92.00.19.00.02 (NVIDIA A100 SKU202 w/o heatsink for HGX A100 4-way)

  • NVSwitch VBIOS: 92.10.14.00.01

  • NVFlash: 5.641

Due to a revision lock between the VBIOS and driver, VBIOS versions >= 92.00.18.00.00 must use corresponding drivers >= 450.36.01. Older VBIOS versions will work with newer drivers.

For more information on getting started with the NVIDIA Fabric Manager on NVSwitch-based systems (for example, HGX A100), refer to the Fabric Manager User Guide.

1.2. Fixed Issues

  • Fixed an issue that caused use-after-free when removing procfs entries during driver unload.
  • Fixed an issue causing GPU debug log buffers for 4+ GPU systems to become truncated causing logging from some GPUs to be lost.
  • Fixed an issue that caused error number Xid 62 in the GPU's clock error correction and monitoring component.

  • Fixed an issue that sometimes caused CUDA Graphs to provide incorrect results when using MemcpyAsync.

  • Fixed an issue the caused nvidia-smi topo -m to take a long time to finish in hosts with nvlink issues.
  • An issue that caused nvidia-peermem build failure on MLNX_OFED 5.5 is resolved.
  • An intermittent error CUDA_ERROR_NVLINK_UNCORRECTABLE caused by some non-fatal nvlink interrupts is resolved.

1.3. Known Issues

General

  • By default, Fabric Manager runs as a systemd service. If using DAEMONIZE=0 in the Fabric Manager configuration file, then the following steps may be required.
    1. Disable FM service from auto starting. (systemctl disable nvidia-fabricmanager)

    2. Once the system is booted, manually start FM process. (/usr/bin/nv-fabricmanager -c /usr/share/nvidia/nvswitch/fabricmanager.cfg). Note, since the process is not a daemon, the SSH/Shell prompt will not be returned (use another SSH shell for other activities or run FM as a background task).

  • On NVSwitch systems with Windows Server 2019 in shared NVSwitch virtualization mode, the host may hang or crash when a GPU is disabled in the guest VM. This issue is under investigation.

GPU Performance Counters

The use of developer tools from NVIDIA that access various performance counters requires administrator privileges. See this note for more details. For example, reading NVLink utilization metrics from nvidia-smi (nvidia-smi nvlink -g 0) would require administrator privileges.

NoScanout Mode

NoScanout mode is no longer supported on NVIDIA Data Center GPU products. If NoScanout mode was previously used, then the following line in the “screen” section of /etc/X11/xorg.conf should be removed to ensure that X server starts on data center products:

Option         "UseDisplayDevice" "None"

NVIDIA Data Center GPU products now support one display of up to 4K resolution.

Unified Memory Support

Some Unified Memory APIs (for example, CPU page faults) are not supported on Windows in this version of the driver. Review the CUDA Programming Guide on the system requirements for Unified Memory

CUDA and unified memory is not supported when used with Linux power management states S3/S4.

IMPU FRU for Volta GPUs

The driver does not support the IPMI FRU multi-record information structure for NVLink. See the Design Guide for Tesla P100 and Tesla V100-SXM2 for more information.

OpenCL 3.0 Known Issues

2. Virtualization

To make use of GPU passthrough with virtual machines running Windows and Linux, the hardware platform must support the following features:

  • A CPU with hardware-assisted instruction set virtualization: Intel VT-x or AMD-V.

  • Platform support for I/O DMA remapping.

  • On Intel platforms the DMA remapper technology is called Intel VT-d.

  • On AMD platforms it is called AMD IOMMU.

Support for these features varies by processor family, product, and system, and should be verified at the manufacturer's website.

Supported Hypervisors

The following hypervisors are supported:

Hypervisor Notes
Citrix XenServer Version 6.0 and later
VMware vSphere (ESX / ESXi) Version 5.1 and later.
Red Hat KVM Red Hat Enterprise Linux 7 with KVM
Microsoft Hyper-V

Windows Server 2016 Hyper-V Generation 2

Tesla products now support one display of up to 4K resolution.

Supported Graphics Cards

The following GPUs are supported for device passthrough:

GPU Family Boards Supported
NVIDIA Ampere GPU Architecture NVIDIA A100, A40, A30, A16, A10
Turing NVIDIA T4
Volta NVIDIA V100
Pascal

Tesla: P100, P40, P4

Maxwell

Tesla: M60, M40, M6, M4

Kepler

Tesla: K520, K80

3. Hardware and Software Support

Support for these features varies by processor family, product, and system, and should be verified at the manufacturer's website.

Supported Operating Systems for NVIDIA Data Center GPUs

The Release 470 driver is supported on the following operating systems:

  • Windows x86_64 operating systems:

    • Microsoft Windows® Server 2022

    • Microsoft Windows® Server 2019

    • Microsoft Windows® Server 2016

    • Microsoft Windows® 11

    • Microsoft Windows® 10
  • The table below summarizes the supported Linux 64-bit distributions. For a complete list of distributions, kernel versions supported, see the CUDA Linux System Requirements documentation.

    Distribution x86_64 POWER Arm64 Server
    OpenSUSE Leap 15.x (where y <=3) Yes No No
    Red Hat Enterprise Linux 8.y (where y <= 5) Yes Yes Yes
    Rocky Linux 8.y (where y <= 5) Yes No No
    Red Hat Enterprise Linux / CentOS 7.y (where y <= 9) Yes No No
    SUSE Linux Enterprise Server 15.y (where y <= 3) Yes No Yes (see note)
    Ubuntu 20.04.z LTS (where z <= 4) Yes No Yes
    Ubuntu 18.04.z LTS (where z <= 6) Yes No No

    Note that SUSE Linux Enterprise Server (SLES) 15.3 is provided as a preview for Arm64 server since there are known issues when running some CUDA applications related to dependencies on glibc 2.27.

Supported Operating Systems and CPU Configurations for HGX A100

The Release 470 driver is validated with HGX A100 on the following operating systems and CPU configurations:

  • Linux 64-bit distributions:

    • Red Hat Enterprise Linux 8.5 (in 4/8/16-GPU configurations)

    • Red Hat Enterprise Linux 7.9 (in 4/8/16-GPU configurations)

    • Rocky Linux 8.5 (in 4/8/16-GPU configurations)

    • CentOS Linux 7.9 (in 4/8/16-GPU configurations)

    • Ubuntu 18.04.6 LTS (in 4/8/16-GPU configurations)

    • SUSE SLES 15.3 (in 4/8/16-GPU configurations)

  • CPU Configurations:

    • AMD Rome in PCIe Gen4 mode

    • Intel Skylake/Cascade Lake (4-socket) in PCIe Gen3 mode

Supported Virtualization Configurations

The Release 470 driver is validated with HGX A100 on the following configurations:

  • Passthrough (full visibility of GPUs and NVSwitches to guest VMs):

    • 8-GPU configurations with Ubuntu 18.04.4 LTS

  • Shared NVSwitch (guest VMs only have visibility of GPUs and full NVLink bandwidth between GPUs in the same guest VM):

    • 16-GPU configurations with Ubuntu 18.04.4 LTS

    • 1/2/4/8-GPU configurations with Windows x86_64 operating systems:

      • Microsoft Windows® Server 2019

      • Microsoft Windows® Server 2016

      • Microsoft Windows® 10

API Support

This release supports the following APIs:

  • NVIDIA® CUDA® 11.4 for NVIDIA® KeplerTM, MaxwellTM, PascalTM, VoltaTM, TuringTM and NVIDIA Ampere architecture GPUs

  • OpenGL® 4.6

  • Vulkan® 1.2

  • DirectX 11

  • DirectX 12 (Windows 10)

  • Open Computing Language (OpenCLTM software) 3.0

Note that for using graphics APIs on Windows (i.e. OpenGL, Vulkan, DirectX 11 and DirectX 12) or any WDDM 2.0+ based functionality on Data Center GPUs, vGPU is required. See the vGPU documentation for more information.

Supported NVIDIA Data Center GPUs

The NVIDIA Data Center GPU driver package is designed for systems that have one or more Data Center GPU products installed. This release of the driver supports CUDA C/C++ applications and libraries that rely on the CUDA C Runtime and/or CUDA Driver API.

Attention: Release 470 will be the last driver branch to support Data Center GPUs based on the Kepler architecture. This includes discontinued support for the following compute capabilities:
  • sm_30 (Kepler)
  • sm_32 (Kepler)
  • sm_35 (Kepler)
  • sm_37 (Kepler)

For more information on GPU products and compute capability, see https://developer.nvidia.com/cuda-gpus.

NVIDIA Server Platforms
Product Architecture
NVIDIA HGX A100 A100 and NVSwitch
NVIDIA HGX-2 V100 and NVSwitch
RTX-Series / T-Series Products
Product GPU Architecture
NVIDIA RTX A6000 NVIDIA Ampere
NVIDIA RTX A5000 NVIDIA Ampere
NVIDIA RTX A4000 NVIDIA Ampere
Quadro RTX 8000 Turing
Quadro RTX 6000 Turing
NVIDIA T1000 Turing
NVIDIA T600 Turing
NVIDIA T400 Turing
Data Center A-Series Products
Product GPU Architecture
NVIDIA A100

NVIDIA A100 80 GB PCIe

NVIDIA Ampere
NVIDIA A40 NVIDIA Ampere
NVIDIA A30 NVIDIA Ampere
NVIDA A16 NVIDIA Ampere
NVIDIA A10 NVIDIA Ampere
Data Center T-Series Products
Product GPU Architecture
NVIDIA T4 Turing
Data Center V-Series Products
Product GPU Architecture
NVIDIA V100 Volta
Data Center P-Series Products
Product GPU Architecture
NVIDIA Tesla P100 Pascal
NVIDIA Tesla P40 Pascal
NVIDIA Tesla P4 Pascal
Data Center K-Series Products
Product GPU Architecture
NVIDIA Tesla K520 Kepler
NVIDIA Tesla K80 Kepler
Data Center M-Class Products
Product GPU Architecture
NVIDIA Tesla M60 Maxwell
NVIDIA Tesla M40 24 GB Maxwell
NVIDIA Tesla M40 Maxwell
NVIDIA Tesla M6 Maxwell
NVIDIA Tesla M4 Maxwell

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