This section describes the hardware and software requirements for SBC SWe on an OpenStack platform.
OpenStack Software Requirements
The SBC SWe supports the following OpenStack environments: The SBC SWe was tested on OpenStack Queens with RHOSP 13 and RHEL 7.5.
Note
Server Hardware Requirements
Intel Xeon processors (Nehalem micro-architecture or above) with 6 cores and above (processors should support hyper-threading). Ribbon recommends Westmere (or newer) processors for better SRTP performance. These processors have the AES-NI instruction set for performing cryptographic operations in hardware. Minimum 4 NICs. Make sure NICs have multi-queue support which enhances network performance by allowing RX and TX queues to scale with the number of CPUs on multi-processor systems. The Intel I350, x540, x550, and 82599 Ethernet adapters are supported for configuring as SR-IOV and DirectPath I/O pass-through devices. The PKT ports must be 10 Gbps SR-IOV enabled ports. 6 NICs are required to support PKT port redundancy. To configure VLAN on SRIOV and PCI Passthrough Ethernet interfaces, disable the Data Center Bridging (DCB) on the switch connected to the interfaces.Configuration Requirement Processor
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RAM Minimum 24 GiB Hard Disk Minimum 100 GB Network Interface Cards (NICs)
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S-SBC SWe Requirements
The system hosting the SBC SWe must meet the following requirements to achieve the performance targets listed: 32 vCPUs Due to the workload characteristics, allocate 20 physical cores with two hyper-threaded CPUs from each core to the SBC. 128 GiB RAM 100 GB Disk None 4 vNICs/6 vNICs Attach MGT0 port to the Management VirtIO Tenant network. HA port has to be on IPv4 VirtIO Tenant network. Attach PKT0 and PKT1 ports to SR-IOV and Provider network. You must have 6 vNICs to enable PKT port redundancy. For more information, refer to the SBC SWe Features Guide. All NIC ports must come from the NUMA node 0. The S-SBC SWe instance is hosted on dual-socket physical server with 10 physical cores coming from each NUMA node.S-SBC SWe Requirements
for 1000 CPS/120K Signaling Sessions Notes Must be Huge Page memory. The minimum page size is 2048 KiB, but 1048576 is recommended.
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M-SBC SWe Requirements
16 vCPUs Due to the workload characteristics, allocate 10 physical cores with two hyper-threaded CPUs from each core and from single NUMA node to the SBC. 32 GiB RAM 100 GB Disk None 4 vNICs/ 6 vNICs Attach MGT0 port to the Management VirtIO Tenant network. HA port has to be on IPv4 VirtIO Tenant network. Attach PKT0 and PKT1 ports to SR-IOV and Provider network. All NIC ports must come from the same NUMA node from which the M-SBC SWe instance is hosted.M-SBC SWe Requirements
for 40K Media SessionsNotes Must be Huge Page memory. The minimum page size is 2048 KiB, but 1048576 is recommended.
You must have 6 vNICs to enable PKT port redundancy. For more information, refer to the SBC SWe Features Guide.
Note
OAM Node Requirements
| OAM Node (minimum) | Notes |
|---|---|
4 vCPUs | None |
16 GiB RAM | None |
80 GB Disk | None |
4 vNICs | None |
I-SBC SWe Requirements
| I-SBC SWe Requirements | Notes |
|---|---|
20 vCPUs | |
32 GiB RAM | Must be Huge Page memory. The minimum page size is 2048 KiB, but 1048576 is recommended. |
100 GB Disk | None |
4 vNICs/ 6 vNICs | Attach MGT0 port to the Management VirtIO Tenant network. HA port has to be on IPv4 VirtIO Tenant network. Attach PKT0 and PKT1 ports to SR-IOV and Provider network. |
Note
For deployments that require it, you can instantiate the SBC SWe in smaller-sized configurations that use limited memory and vCPU resources. However, the limited resources place some restrictions on capacity and capabilities. Refer to Small SBC SWe Deployment Characteristics and Performance Metrics for Small SBC SWe Configurations for more information.
Recommended Host Settings: Setting disk cache mode to "writethrough"
In order to prevent the SBC from crashing when the compute host power cycle is reset, it is recommended to set the cache mode for the disk type "file" to "writethrough". Execute the following steps on the compute host:
Retrieve the current disk cache modes in the nova configuration on the compute host by executing the following command:
Commandcrudini --get /var/lib/config-data/puppet-generated/nova_libvirt/etc/nova/nova.conf libvirt disk_cachemodes
Sample Outputfile=none,block=writeback,network=writeback
NoteNote that "
file=none" in the sample output above. Continue to Step 2 to set "file=writethrough".Set the disk type "
file" to "writethrough" by executing the following command:Commandcrudini --set /var/lib/config-data/puppet-generated/nova_libvirt/etc/nova/nova.conf libvirt disk_cachemodes 'file=writethrough,block=writeback,network=writeback'
NoteThe cache mode for the two other disk types "
block" and "network" are determined by the customer. The available cache modes are "writethrough", "writeback", and "none".Restart all nova containers by executing the following command:
Commanddocker restart $(docker ps|grep nova|sed -r 's/^([^ ]+).*/\1/')
NoteThe container restart procedure may vary depending on the container management tool. When in doubt, reboot the compute host.
Verify in the nova configuration that the cache mode "
file" is set to "writethrough" by executing the following command:Commandcrudini --get /var/lib/config-data/puppet-generated/nova_libvirt/etc/nova/nova.conf libvirt disk_cachemodes
Sample Outputfile=writethrough,block=writeback,network=writeback
If any VMs/instances exist on the compute host, verify in libvertd that "
cache='writethrough'" for the disk type "file" by executing the following command:Commandvirsh dumpxml <instance_name> | grep -A 1 "disk type='file'"
NoteIn the command above, replace
<instance_name>with the actual name of the instance.Sample Output<disk type='file' device='disk'> <driver name='qemu' type='qcow2' cache='writethrough'/>
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