NFM-P Scalability guidelines

Scalability limits

Table 5-7, NFM-P Release 23.11 scalability limits represents the scalability limits for Release 23.11. Note that:

NFM-P Hardware platform requirements contains information about identifying the correct platform for a particular network configuration. To achieve these scale limits, a distributed NFM-P configuration is required, and may also require an NFM-P auxiliary statistics collector and a storage array for the NFM-P database station.

Contact Nokia to ensure that you have the correct platform and configuration for your network size.

Table 5-7: NFM-P Release 23.11 scalability limits

Attribute of managed network

Scaling limit

Maximum number of managed MDAs

60 000

Maximum number of network elements

50 000

Maximum number of GNEs 1

50 000

Maximum number of managed services

4 000 000

Maximum number of optical transport services

20 000

Maximum number of 1830 VWM RMUs

60 000

Maximum number of SAPs

12 000 000

Maximum number of simultaneous NFM-P GUI sessions

250

Maximum number of simultaneous web UI client sessions

4–250 Table 5-9, NFM-P apps maximum number of concurrent sessions

Maximum number of simultaneous active XML API HTTP applications

30

Maximum number of simultaneous active XML API JMS applications

20

Maximum number of outstanding alarms

50 000

Maximum number of outstanding alarms - Distributed Configuration

250 000

Maximum number of Historical Alarms

9 600 000

Maximum number of TCAs

250 000

Maximum number of monitored services in the Service Supervision application

1 000 000

Maximum number of concurrent NSP analytics users

10

Notes:
  1. The number of interfaces on a GNE and the traps that may arise from them is the key factor determining the number of GNE devices that can be managed. As GNE devices are expected to be access devices the sizing is based on an average of 10 interfaces of interest on each device (10 x 50 000 = 500 000 interfaces). Processing of traps from interface types that are not of interest can be turned off in NFM-P. Under high trap load, NFM-P may drop traps.

NFM-P uses the number of MDAs as the fundamental unit of network dimensioning. To determine the current or eventual size of a network, the number of deployed or expected MDAs, as opposed to the capacity of each router, must be calculated.

Table 5-8: Network element maximums and equivalency

Network element type

Maximum number of network elements supported

MDA equivalency

7750 SR, 7450 ESS, 7450 SR

50 000

1 MDA == 1 equivalent MDA 1 2

7705 SAR

50 000

1 NE == 1 equivalent MDA

7250 IXR-6 / 7250 IXR-10 / 7250 IXR-R4 / 7250 IXR-R6 / 7250 IXR-R6d / 7250 IXR-R6dl

50 000

1 MDA == 1 equivalent MDA

7250 IXR-s / 7250 IXR-e / 7250 IXR-e2

25 000

1 NE == 2 equivalent MDAs

7210 SAS

50 000

1 NE == 1 equivalent MDA

OMNISwitch 6250, 6400, 6450, 6850, 6855 (each shelf in the stackable chassis)

50 000

1 NE == 1 equivalent MDA

OMNISwitch 6350, 6465, 6560, 6865 (each shelf in the stackable chassis)

5000

1 NE == 1 equivalent MDA

OMNISwitch 6860, 6860E, 6860N

5000

1 NE == 1 equivalent MDA

OMNISwitch 6900

800

1 NE == 1 equivalent MDA

OMNISwitch 9600, 9700, 9700E, 9800, 9800E (each NI)

1000

1 NI == 1 equivalent MDA

OMNISwitch 10K (each NI)

400

1 NI == 1 equivalent MDA

9500 MPR / Wavence SM

15 000

1 NE == 1 equivalent MDA

1830 VWM OSU

2000

3

VSC

1

N/A

Notes:
  1. The IMM card has an MDA equivalency of 2 MDAs per card.

  2. The CMA card has an MDA equivalency of 1 MDA per card.

  3. The 1830 VWM OSU Card Slot has an MDA equivalency of 1/4 MDA per card to a maximum MDA equivalency of 30 000

Table 5-9: NFM-P apps maximum number of concurrent sessions

NFM-P application

Maximum number of concurrent sessions

Analytics

10

Fault Management

250

Help Center

250

Network Supervision

50

Service Supervision

250

Wireless Supervision

50

Wireless NE Views

50

NFM-P performance targets

Table 5-10, NFM-P performance targets represents the performance targets for the NFM-P. Factors that may result in fluctuations of these targets include:

Table 5-10: NFM-P performance targets

Performance item description

Target

NFM-P client GUI performance

Time to launch an NFM-P client GUI

1 - 2 minutes

Time to launch an NFM-P client GUI configuration form

~5 seconds

Time to save an NFM-P client GUI configuration form

~2 seconds

NFM-P server performance

Time to restart the NFM-P server

15 - 30 minutes (subject to network dimensions)

NFM-P database Backup (without statistics)

Up to 60 minutes (subject to network size)

NFM-P database Restore

~45 minutes

NFM-P server activity switch

10 - 30 minutes (subject to network dimensions)

NFM-P DB switchover (by invoking through the GUI)

<10 minutes

NFM-P DB failover

30 minutes when managing maximum number of devices

Recovery of standby NFM-P database after failover

<75 minutes

Upgrade Performance

NFM-P client Upgrade

~10 minutes

NFM-P complex upgrade (server, database, auxiliaries) 1

<6 hours

NFM-P upgrade maximum visibility outage with NFM-P redundant system 2

15 - 30 minutes

Notes:
  1. The target includes the installation of the software on the existing servers and NFM-P database conversion. Operating System installation/upgrades, patching, pre/post-upgrade testing and file transfers are excluded from the target.

  2. Provided proper planning and parallel execution procedures were followed.