Working draft: to be finalized when use cases have been finalized.
The section provides information for hardware and network configuration. ONAP Open Labs are collections of dedicated hardware, generally partitioned into pods with servers. Pods can be used for different testings like development, CI/CD, ONAP platform testing, or E2E testing. The minimal requirements for each pod are defined in the following.
Hardware Summary
A lab compliant pod provides:
- 2-8 controller / compute nodes depends on the use case (please refer to Server Pod session)
- A configured network topology allowing for IPMI, Admin(PXE), Public, Private, and Storage Networks
- Remote access through VPN
- Security through a firewall
Server Pod
In the following table, we define 3 types of pod based on the resource usage assumption. Please note in lab and real deployment scenarios, resource can be over subscribed depending on workload. Also we assume that ONAP platform will be deployed in a separate pod from VNFs.
Type of Pod | Compute Nodes | Number of Control Nodes | |||
Total Memory(GB) | Total VCPU | Total Storage | Number of Compute Nodes | ||
Large | 600GB | 120 | 4TB | >=2 | 3 |
Medium | 200GB | 80 | 2TB | >=2 | 3 |
Small | 40GB | 24 | 1TB | >=1 | 1 |
In addition, you may need a provisioning server to help install and access a server pod.
A recommended node (server) configuration is as following:
- Memory: 256GB RAM
- CPU: Intel Xeon E5-2658v3 Series or newer, with 12 cores and 24 hyper-threads
- Firmware: BIOS/EFI compatible for x86-family servers
- Local Storage: 2 x 1TB HDD, virtual ISO boot capabilities or a separate PXE boot server (DHCP/tftp or Cobbler)
Networking
Network Hardware
- 48-Port TOR Switch
- NICs - Combination of 1GE and 10GE based on network topology options
- Connectivity for each data/control network is through a separate NIC port or a shared port. Separate port simplifies switch management however requires more NICs on the server and also more switch ports
- BMC (Baseboard Management Controller) for lights-out management network using IPMI (Intelligent Platform Management Interface)
Remote Management
- Developers to access deploy/test environments at aggregate 100Mbps upload and download speed
Basic requirements:
- SSH sessions can be established (initially on the jump server)
- Packages can be installed on a system by pulling from an external repo.
Firewall rules accommodate:
- SSH sessions
Requirements for 3 use cases supported by ONAP Release 1 (to be finalized), not including ONAP:
ONAP itself will need a medium sized server pod.
Use Cases | VNFs | Deployment Topology | Server Pod Number | Network Hardware | Software |
---|---|---|---|---|---|
Development or vFW/vDNS demo apps | Open sourced vFW/vDNS | 1 (Small) | TOR | Cloud OS | |
vCPE | vCPE | 2 (Medium) | WAN/SPTN Router (2) DC Gateway (2) TOR (n) ThinCPE (1) | Cloud OS (for Edge and Core) WAN/SPTN Controller DC Controller Specific VNFM & EMS | |
VoLTE | vIMS/vEPC | 2 (Large) | WAN/SPTN Router (2) DC Gateway (2) TOR (n) Wireless Access Point (2) VoLTE Terminal Devices (2) | Cloud OS (for Edge and Core) WAN/SPTN Controller DC Controller Specific VNFM & EMS |