8. How to get best performance with NICs on Intel platforms

This document is a step-by-step guide for getting high performance from DPDK applications on Intel platforms.

8.1. Hardware and Memory Requirements

For best performance use an Intel Xeon class server system such as Ivy Bridge, Haswell or newer.

Ensure that each memory channel has at least one memory DIMM inserted, and that the memory size for each is at least 4GB. Note: this has one of the most direct effects on performance.

You can check the memory configuration using dmidecode as follows:

dmidecode -t memory | grep Locator

Locator: DIMM_A1
Bank Locator: NODE 1
Locator: DIMM_A2
Bank Locator: NODE 1
Locator: DIMM_B1
Bank Locator: NODE 1
Locator: DIMM_B2
Bank Locator: NODE 1
...
Locator: DIMM_G1
Bank Locator: NODE 2
Locator: DIMM_G2
Bank Locator: NODE 2
Locator: DIMM_H1
Bank Locator: NODE 2
Locator: DIMM_H2
Bank Locator: NODE 2

The sample output above shows a total of 8 channels, from A to H, where each channel has 2 DIMMs.

You can also use dmidecode to determine the memory frequency:

dmidecode -t memory | grep Speed

Speed: 2133 MHz
Configured Clock Speed: 2134 MHz
Speed: Unknown
Configured Clock Speed: Unknown
Speed: 2133 MHz
Configured Clock Speed: 2134 MHz
Speed: Unknown
...
Speed: 2133 MHz
Configured Clock Speed: 2134 MHz
Speed: Unknown
Configured Clock Speed: Unknown
Speed: 2133 MHz
Configured Clock Speed: 2134 MHz
Speed: Unknown
Configured Clock Speed: Unknown

The output shows a speed of 2133 MHz (DDR4) and Unknown (not existing). This aligns with the previous output which showed that each channel has one memory bar.

8.1.1. Network Interface Card Requirements

Use a DPDK supported high end NIC such as the Intel XL710 40GbE.

Make sure each NIC has been flashed the latest version of NVM/firmware.

Use PCIe Gen3 slots, such as Gen3 x8 or Gen3 x16 because PCIe Gen2 slots don’t provide enough bandwidth for 2 x 10GbE and above. You can use lspci to check the speed of a PCI slot using something like the following:

lspci -s 03:00.1 -vv | grep LnkSta

LnkSta: Speed 8GT/s, Width x8, TrErr- Train- SlotClk+ DLActive- ...
LnkSta2: Current De-emphasis Level: -6dB, EqualizationComplete+ ...

When inserting NICs into PCI slots always check the caption, such as CPU0 or CPU1 to indicate which socket it is connected to.

Care should be take with NUMA. If you are using 2 or more ports from different NICs, it is best to ensure that these NICs are on the same CPU socket. An example of how to determine this is shown further below.

8.1.2. BIOS Settings

The following are some recommendations on BIOS settings. Different platforms will have different BIOS naming so the following is mainly for reference:

  1. Before starting consider resetting all BIOS settings to their default.
  2. Disable all power saving options such as: Power performance tuning, CPU P-State, CPU C3 Report and CPU C6 Report.
  3. Select Performance as the CPU Power and Performance policy.
  4. Disable Turbo Boost to ensure the performance scaling increases with the number of cores.
  5. Set memory frequency to the highest available number, NOT auto.
  6. Disable all virtualization options when you test the physical function of the NIC, and turn on VT-d if you wants to use VFIO.

8.1.3. Linux boot command line

The following are some recommendations on GRUB boot settings:

  1. Use the default grub file as a starting point.

  2. Reserve 1G huge pages via grub configurations. For example to reserve 8 huge pages of 1G size:

    default_hugepagesz=1G hugepagesz=1G hugepages=8
    
  3. Isolate CPU cores which will be used for DPDK. For example:

    isolcpus=2,3,4,5,6,7,8
    
  4. If it wants to use VFIO, use the following additional grub parameters:

    iommu=pt intel_iommu=on
    

8.2. Configurations before running DPDK

  1. Build the DPDK target and reserve huge pages. See the earlier section on Use of Hugepages in the Linux Environment for more details.

    The following shell commands may help with building and configuration:

    # Build DPDK target.
    cd dpdk_folder
    make install T=x86_64-native-linuxapp-gcc -j
    
    # Get the hugepage size.
    awk '/Hugepagesize/ {print $2}' /proc/meminfo
    
    # Get the total huge page numbers.
    awk '/HugePages_Total/ {print $2} ' /proc/meminfo
    
    # Unmount the hugepages.
    umount `awk '/hugetlbfs/ {print $2}' /proc/mounts`
    
    # Create the hugepage mount folder.
    mkdir -p /mnt/huge
    
    # Mount to the specific folder.
    mount -t hugetlbfs nodev /mnt/huge
    
  2. Check the CPU layout using the DPDK cpu_layout utility:

    cd dpdk_folder
    
    usertools/cpu_layout.py
    

    Or run lscpu to check the the cores on each socket.

  3. Check your NIC id and related socket id:

    # List all the NICs with PCI address and device IDs.
    lspci -nn | grep Eth
    

    For example suppose your output was as follows:

    82:00.0 Ethernet [0200]: Intel XL710 for 40GbE QSFP+ [8086:1583]
    82:00.1 Ethernet [0200]: Intel XL710 for 40GbE QSFP+ [8086:1583]
    85:00.0 Ethernet [0200]: Intel XL710 for 40GbE QSFP+ [8086:1583]
    85:00.1 Ethernet [0200]: Intel XL710 for 40GbE QSFP+ [8086:1583]
    

    Check the PCI device related numa node id:

    cat /sys/bus/pci/devices/0000\:xx\:00.x/numa_node
    

    Usually 0x:00.x is on socket 0 and 8x:00.x is on socket 1. Note: To get the best performance, ensure that the core and NICs are in the same socket. In the example above 85:00.0 is on socket 1 and should be used by cores on socket 1 for the best performance.

4. Check which kernel drivers needs to be loaded and whether there is a need to unbind the network ports from their kernel drivers. More details about DPDK setup and Linux kernel requirements see Compiling the DPDK Target from Source and Linux Drivers.