Lines Matching refs:MSI
26 # 4. MSI-X Vectors: 1088. A complication here is that the PCI-E SR-IOV
28 # same umber of MSI-X Vectors as the base Physical Function.
30 # not, their MSI-X "needs" are counted by the PCI-E implementation.
41 # to allow for this. And because of the MSI-X resource allocation
54 # Ingress Queues and MSI-X Vectors to allow up to some number of CPUs
62 # 8 Ingress Queue/MSI-X Vectors per application function
64 # for a total of 96 Ingress Queues and MSI-X Vectors on the Unified PF.
159 # NMSIX = 1088 # available MSI-X Vectors
170 # Each Ingress Queue can use one MSI-X interrupt but some Ingress Queues can
174 # Thus, the number of MSI-X Vectors assigned to the Unified PF will be less
182 # NMSIX_NIC = 32 # NIC MSI-X Interrupt Vectors (FLIQ)
189 # NMSIX_OFLD = 16 # Offload MSI-X Interrupt Vectors (FLIQ)
196 # NMSIX_RDMA = 4 # RDMA MSI-X Interrupt Vectors (FLIQ)
207 # NMSIX_ISCSI = 4 # ISCSI MSI-X Interrupt Vectors (FLIQ)
214 # NMSIX_FCOE = 34 # FCOE MSI-X Interrupt Vectors (FLIQ)
244 # The sum of all the MSI-X resources above is 74 MSI-X Vectors but we'll round
249 # The Storage PFs could need up to NPORTS*NCPUS + NMSIX_EXTRA MSI-X Vectors
255 # associated with it. Thus, the MSI-X Vector allocations we give to the
267 # For PF4, the Unified PF, we give it an MSI-X Table Size as outlined above.
269 # For PF5-6 we assign enough MSI-X Vectors to support FCoE and iSCSI
561 # MSI-X Vectors: 736