From: Souradeep Chakrabarti <schakrabarti@xxxxxxxxxxxxxxxxxxx> Sent: Wednesday, January 10, 2024 10:13 PM > > The test topology was used to check the performance between > cpu_local_spread() and the new approach is : > Case 1 > IRQ Nodes Cores CPUs > 0 1 0 0-1 > 1 1 1 2-3 > 2 1 2 4-5 > 3 1 3 6-7 > > and with existing cpu_local_spread() > Case 2 > IRQ Nodes Cores CPUs > 0 1 0 0 > 1 1 0 1 > 2 1 1 2 > 3 1 1 3 > > Total 4 channels were used, which was set up by ethtool. > case 1 with ntttcp has given 15 percent better performance, than > case 2. During the test irqbalance was disabled as well. > > Also you are right, with 64CPU system this approach will spread > the irqs like the cpu_local_spread() but in the future we will offer > MANA nodes, with more than 64 CPUs. There it this new design will > give better performance. > > I will add this performance benefit details in commit message of > next version. Here are my concerns: 1. The most commonly used VMs these days have 64 or fewer vCPUs and won't see any performance benefit. 2. Larger VMs probably won't see the full 15% benefit because all vCPUs in the local NUMA node will be assigned IRQs. For example, in a VM with 96 vCPUs and 2 NUMA nodes, all 48 vCPUs in NUMA node 0 will all be assigned IRQs. The remaining 16 IRQs will be spread out on the 48 CPUs in NUMA node 1 in a way that avoids sharing a core. But overall the means that 75% of the IRQs will still be sharing a core and presumably not see any perf benefit. 3. Your experiment was on a relatively small scale: 4 IRQs spread across 2 cores vs. across 4 cores. Have you run any experiments on VMs with 128 vCPUs (for example) where most of the IRQs are not sharing a core? I'm wondering if the results with 4 IRQs really scale up to 64 IRQs. A lot can be different in a VM with 64 cores and 2 NUMA nodes vs. 4 cores in a single node. 4. The new algorithm prefers assigning to all vCPUs in each NUMA hop over assigning to separate cores. Are there experiments showing that is the right tradeoff? What are the results if assigning to separate cores is preferred? My bottom line: The new algorithm adds complexity. We should be really clear on where it adds performance benefit and where it doesn't, and be convinced that the benefit is worth the extra complexity. Michael
