Difference between revisions of "EJFAT UDP General Performance Considerations"
| Line 15: | Line 15: | ||
<blockquote> | <blockquote> | ||
<pre> | <pre> | ||
| − | ethtool -n | + | ethtool -n enp193s0f1np1 rx-flow-hash udp4 |
</pre> | </pre> | ||
</blockquote> | </blockquote> | ||
Revision as of 16:12, 21 December 2023
NIC queues on multi-cpu nodes
Contemporary NICs support multiple receive and transmit descriptor queues. On reception a NIC distributes packets by applying a filter to each that assigns it to one of a number of logical flows. Packets for each flow are steered to a separate receive queue, which in turn can be processed by a separate CPU. The goal of this is to increase performance.
The filter used is typically a hash function over the network and/or transport layer headers -- for ejfat nodes, a 4-tuple hash over IP addresses and ports of a packet. The most common implementation uses an indirection table where each entry stores a queue number. The receive queue for a packet is determined by masking out the low order seven bits of the computed hash for the packet (usually a Toeplitz hash), taking this number as a key into the indirection table and reading the corresponding value.
Some advanced NICs allow steering packets to queues based on programmable filters.
To find out which filter is being used:
ethtool -n enp193s0f1np1 rx-flow-hash udp4
- Contemporary NICs support multiple receive and transmit descriptor queues. On reception, a NIC can send different packets to different queues to distribute processing among CPUs. Find out how many NIC queues there are on your node by looking at the combined property:
// See how many queues there are sudo ethtool -l enp193s0f1np1
Effect of NIC queues on UDP transmission
- In the case of ejfat nodes, there are a max of 63 queues even though there are 128 cores. It seems odd to me that there isn't 1 queue per cpu, and it does not appear to be changeable so most likely it's built into the kernel when first created.
Jumbo Frames