A vSAN administrator wants to implement end-to-end prioritization of vSAN traffic across the network in a shared network infrastructure that is using vSphere
Distributed Switches (VDS).
Which two can help achieve this objective? (Choose two.)
A vSAN administrator wants to implement end-to-end prioritization of vSAN traffic across the network in a shared network infrastructure that is using vSphere
Distributed Switches (VDS).
Which two can help achieve this objective? (Choose two.)
To implement end-to-end prioritization of vSAN traffic across a shared network infrastructure using vSphere Distributed Switches (VDS), configuring CoS (Class of Service) or DSCP (Differentiated Services Code Point) with a high priority tag at the VDS and ensuring equivalent settings in the physical network can achieve this objective. Additionally, enabling Network I/O Control and allocating higher shares for vSAN traffic allows the system to prioritize vSAN traffic effectively. These methods ensure that vSAN traffic is recognized and given priority from end-to-end, enhancing the overall performance and reliability of vSAN operations.
I think A and C too: https://docs.vmware.com/en/VMware-vSphere/7.0/com.vmware.vsphere.vsan-planning.doc/GUID-031F9637-EE29-4684-8644-7A93B9FD8D7B.html "Example Network I/O Control Configuration for a Physical Adapter That Handles vSAN" "Marking vSAN Traffic"
I think A and C: https://blogs.vmware.com/virtualblocks/2019/04/21/designing-vsan-networks-2019-update/
A and C, based on this article, same as one below https://docs.vmware.com/en/VMware-vSphere/7.0/com.vmware.vsphere.vsan-planning.doc/GUID-031F9637-EE29-4684-8644-7A93B9FD8D7B.html
A and C. Jumbo frames do not prioritize traffic.
I think C and E are correct.
I think C-E