EX4200 OSPF & LACP SW#3

root@SW3# run show configuration | display set
set version 12.3R9.4
set system host-name SW3
set system root-authentication encrypted-password "$1$BnuMHZY/$aBijYYixSLmMp10AgebVH/"
set system login user isd uid 1001
set system login user isd class super-user
set system login user isd authentication encrypted-password "$1$D9Ehoc0n$1X9.3nHgjxy2ldjOkaTDU1"
set system services telnet
set system syslog user * any emergency
set system syslog file messages any notice
set system syslog file messages authorization info
set system syslog file interactive-commands interactive-commands any
set system syslog file interface daemon info
set system syslog file interface match "SNMP_TRAP_LINK_UP|SNMP_TRAP_LINK_DOWN"
set chassis aggregated-devices ethernet device-count 4
set chassis alarm management-ethernet link-down ignore
set chassis auto-image-upgrade
set interfaces ge-0/0/0 hold-time up 0
set interfaces ge-0/0/0 hold-time down 500
set interfaces ge-0/0/0 unit 0 family inet address 13.13.13.2/24
set interfaces ge-0/0/1 unit 0 family ethernet-switching
set interfaces ge-0/0/2 hold-time up 0
set interfaces ge-0/0/2 hold-time down 500
set interfaces ge-0/0/2 ether-options 802.3ad ae0
set interfaces ge-0/0/3 hold-time up 0
set interfaces ge-0/0/3 hold-time down 500
set interfaces ge-0/0/3 ether-options 802.3ad ae0
set interfaces ge-0/0/4 unit 0 family ethernet-switching
set interfaces ge-0/0/5 unit 0 family ethernet-switching
set interfaces ge-0/0/6 unit 0 family ethernet-switching
set interfaces ge-0/0/7 unit 0 family ethernet-switching
set interfaces ge-0/0/8 unit 0 family ethernet-switching
set interfaces ge-0/0/9 unit 0 family ethernet-switching
set interfaces ge-0/0/10 unit 0 family ethernet-switching
set interfaces ge-0/0/11 unit 0 family ethernet-switching
set interfaces ge-0/0/12 unit 0 family ethernet-switching
set interfaces ge-0/0/13 unit 0 family ethernet-switching
set interfaces ge-0/0/14 unit 0 family ethernet-switching
set interfaces ge-0/0/15 unit 0 family ethernet-switching
set interfaces ge-0/0/16 unit 0 family ethernet-switching
set interfaces ge-0/0/17 unit 0 family ethernet-switching
set interfaces ge-0/0/18 hold-time up 0
set interfaces ge-0/0/18 hold-time down 500
set interfaces ge-0/0/18 unit 0 family inet address 23.23.23.2/24
set interfaces ge-0/0/19 unit 0 family ethernet-switching
set interfaces ge-0/0/20 unit 0 family ethernet-switching
set interfaces ge-0/0/21 unit 0 family ethernet-switching
set interfaces ge-0/0/22 unit 0 family ethernet-switching
set interfaces ge-0/0/23 unit 0 family ethernet-switching
set interfaces ge-0/1/0 unit 0 family ethernet-switching
set interfaces xe-0/1/0 unit 0 family ethernet-switching
set interfaces ge-0/1/1 unit 0 family ethernet-switching
set interfaces xe-0/1/1 unit 0 family ethernet-switching
set interfaces ge-0/1/2 unit 0 family ethernet-switching
set interfaces xe-0/1/2 unit 0 family ethernet-switching
set interfaces ge-0/1/3 unit 0 family ethernet-switching
set interfaces ae0 aggregated-ether-options lacp active
set interfaces ae0 unit 0 family inet address 35.35.35.1/24
set interfaces lo0 unit 0 family inet address 3.3.3.3/32
set routing-options forwarding-table export ecmp
set routing-options forwarding-table ecmp-fast-reroute
set protocols ospf area 0.0.0.0 interface ge-0/0/0.0 interface-type p2p
set protocols ospf area 0.0.0.0 interface ge-0/0/18.0 interface-type p2p
set protocols ospf area 0.0.0.0 interface lo0.0 passive
set protocols ospf area 0.0.0.0 interface ae0.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface ge-0/0/0.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface ge-0/0/18.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface lo0.0 passive
set protocols ospf3 area 0.0.0.0 interface ae0.0 interface-type p2p
set protocols igmp-snooping vlan all
set protocols igmp-snooping vlan default
set protocols lldp interface all
set protocols lldp-med interface all
set policy-options policy-statement ecmp then load-balance per-packet
set ethernet-switching-options storm-control interface all
set poe interface all

EX4200 OSPF & LACP SW#2

root@SW2# run show configuration | display set
set version 12.3R9.4
set system host-name SW2
set system root-authentication encrypted-password "$1$vcM9OeNk$kg8GieApqxCPRRoYsSEBE/"
set system login user isd uid 1001
set system login user isd class super-user
set system login user isd authentication encrypted-password "$1$q6DRrUnW$6Z8kjfmMnvCL5JCRESE9r."
set system services telnet
set system syslog user * any emergency
set system syslog file messages any notice
set system syslog file messages authorization info
set system syslog file interactive-commands interactive-commands any
set system syslog file interface daemon info
set system syslog file interface match "SNMP_TRAP_LINK_UP|SNMP_TRAP_LINK_DOWN"
set chassis aggregated-devices ethernet device-count 4
set chassis alarm management-ethernet link-down ignore
set chassis auto-image-upgrade
set interfaces ge-0/0/0 hold-time up 0
set interfaces ge-0/0/0 hold-time down 500
set interfaces ge-0/0/0 unit 0 family inet address 12.12.12.2/24
set interfaces ge-0/0/1 unit 0 family ethernet-switching
set interfaces ge-0/0/2 hold-time up 0
set interfaces ge-0/0/2 hold-time down 500
set interfaces ge-0/0/2 ether-options 802.3ad ae0
set interfaces ge-0/0/3 hold-time up 0
set interfaces ge-0/0/3 hold-time down 500
set interfaces ge-0/0/3 ether-options 802.3ad ae0
set interfaces ge-0/0/4 unit 0 family ethernet-switching
set interfaces ge-0/0/5 unit 0 family ethernet-switching
set interfaces ge-0/0/6 unit 0 family ethernet-switching
set interfaces ge-0/0/7 unit 0 family ethernet-switching
set interfaces ge-0/0/8 unit 0 family ethernet-switching
set interfaces ge-0/0/9 unit 0 family ethernet-switching
set interfaces ge-0/0/10 unit 0 family ethernet-switching
set interfaces ge-0/0/11 unit 0 family ethernet-switching
set interfaces ge-0/0/12 unit 0 family ethernet-switching
set interfaces ge-0/0/13 unit 0 family ethernet-switching
set interfaces ge-0/0/14 unit 0 family ethernet-switching
set interfaces ge-0/0/15 unit 0 family ethernet-switching
set interfaces ge-0/0/16 unit 0 family ethernet-switching
set interfaces ge-0/0/17 unit 0 family ethernet-switching
set interfaces ge-0/0/18 hold-time up 0
set interfaces ge-0/0/18 hold-time down 500
set interfaces ge-0/0/18 unit 0 family inet address 23.23.23.1/24
set interfaces ge-0/0/19 unit 0 family ethernet-switching
set interfaces ge-0/0/20 unit 0 family ethernet-switching
set interfaces ge-0/0/21 unit 0 family ethernet-switching
set interfaces ge-0/0/22 unit 0 family ethernet-switching
set interfaces ge-0/0/23 unit 0 family ethernet-switching
set interfaces ge-0/1/0 unit 0 family ethernet-switching
set interfaces xe-0/1/0 unit 0 family ethernet-switching
set interfaces ge-0/1/1 unit 0 family ethernet-switching
set interfaces xe-0/1/1 unit 0 family ethernet-switching
set interfaces ge-0/1/2 unit 0 family ethernet-switching
set interfaces xe-0/1/2 unit 0 family ethernet-switching
set interfaces ge-0/1/3 unit 0 family ethernet-switching
set interfaces ae0 aggregated-ether-options lacp active
set interfaces ae0 unit 0 family inet address 24.24.24.1/24
set interfaces lo0 unit 0 family inet address 2.2.2.2/32
set routing-options forwarding-table export ecmp
set protocols ospf area 0.0.0.0 interface ge-0/0/0.0 interface-type p2p
set protocols ospf area 0.0.0.0 interface ge-0/0/18.0 interface-type p2p
set protocols ospf area 0.0.0.0 interface lo0.0 passive
set protocols ospf area 0.0.0.0 interface ae0.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface ge-0/0/0.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface ge-0/0/18.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface lo0.0 passive
set protocols ospf3 area 0.0.0.0 interface ae0.0 interface-type p2p
set protocols igmp-snooping vlan default
set protocols lldp interface all
set protocols lldp-med interface all
set policy-options policy-statement ecmp then load-balance per-packet
set ethernet-switching-options storm-control interface all
set poe interface all

EX2300 OSPF SW#1

root# run show configuration | display set 
set version 18.1R3.3
set system host-name SW1
set system auto-snapshot
set system root-authentication encrypted-password "$6$FK6HaYna$XQSYA7w2uEinKCHLLhzBlvYfkbl.PPMzpSLf0N6QumR7o5JPOXEHl2.i7pNV6eYpVwk1oJzpIG6Awk/cBswS9/"
set system login user isd uid 1001
set system login user isd class super-user
set system login user isd authentication encrypted-password "$6$3HkcK3hW$EFdDbLKU0l96FZjjx/w2/iC/eYADMC7Kr4GVRIxQikLb.fGgI8mn92nLYaf9SttFEV1Luy.8NjoJrmWswnxlX/"
set system services telnet
set system syslog user * any emergency
set system syslog file messages any notice
set system syslog file messages authorization info
set system syslog file interactive-commands interactive-commands any
set system syslog file interface daemon info
set system syslog file interface match "SNMP_TRAP_LINK_UP|SNMP_TRAP_LINK_DOWN"
set chassis redundancy graceful-switchover
set chassis alarm management-ethernet link-down ignore
set interfaces ge-0/0/0 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/1 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/2 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/3 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/4 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/5 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/6 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/7 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/8 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/9 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/10 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/11 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/12 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/13 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/14 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/15 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/16 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/17 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/18 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/19 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/20 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/21 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/22 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/23 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/24 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/25 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/26 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/27 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/28 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/29 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/30 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/31 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/32 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/33 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/34 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/35 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/36 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/37 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/38 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/39 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/40 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/41 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/42 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/43 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/44 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/45 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/46 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/0/47 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/1/0 hold-time up 0
set interfaces ge-0/1/0 hold-time down 500
set interfaces ge-0/1/0 unit 0 family inet address 12.12.12.1/24
set interfaces xe-0/1/0 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/1/1 hold-time up 0
set interfaces ge-0/1/1 hold-time down 500
set interfaces ge-0/1/1 unit 0 family inet address 13.13.13.1/24
set interfaces xe-0/1/1 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/1/2 unit 0 family ethernet-switching storm-control default
set interfaces xe-0/1/2 unit 0 family ethernet-switching storm-control default
set interfaces ge-0/1/3 unit 0 family ethernet-switching storm-control default
set interfaces xe-0/1/3 unit 0 family ethernet-switching storm-control default
set interfaces irb unit 0 family inet address 7.7.5.254/24
set interfaces lo0 unit 0 family inet address 1.1.1.1/32
set forwarding-options storm-control-profiles default all
set forwarding-options analyzer gm-monitor input ingress interface ge-0/1/0.0
set forwarding-options analyzer gm-monitor input ingress interface ge-0/1/1.0
set forwarding-options analyzer gm-monitor output interface ge-0/0/47.0
set routing-options static route 0.0.0.0/0 next-hop 7.7.5.1
## set routing-options forwarding-table export ecmp
## set routing-options forwarding-table ecmp-fast-reroute
set protocols ospf export redi2ospf
set protocols ospf area 0.0.0.0 interface ge-0/1/0.0 interface-type p2p
set protocols ospf area 0.0.0.0 interface ge-0/1/1.0 interface-type p2p
set protocols ospf area 0.0.0.0 interface lo0.0 passive
set protocols ospf area 0.0.0.0 interface irb.0 passive
set protocols ospf3 export redi2ospf
set protocols ospf3 area 0.0.0.0 interface ge-0/1/0.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface ge-0/1/1.0 interface-type p2p
set protocols ospf3 area 0.0.0.0 interface lo0.0 passive
set protocols ospf3 area 0.0.0.0 interface irb.0 passive
set protocols lldp interface all
set protocols lldp-med interface all
set protocols igmp-snooping vlan default
set policy-options policy-statement ecmp then load-balance per-packet
set policy-options policy-statement redi2ospf from protocol static
set policy-options policy-statement redi2ospf from protocol direct
set policy-options policy-statement redi2ospf then accept
set vlans default vlan-id 1
set vlans default l3-interface irb.0

Beginners guide to setting up NetFlow v9

Set up for Netflow v9 explained in bite-size chunks.

2019. 8. 7•How to

Feature

GS-NetFlow

Title

Beginners guide to setting up NetFlow v9

Objective

How to set up Netflow v9 for the very first time.

Environment

H-Series GigaSMART Netflow

Procedure

1. Identify the GigaVUE port for sending the Netflow reports out of
    a. This port gets connected to your switch and allows you to send Netflow records to your Netflow collector.
    b. Defined as a tunnel port

example uses port 1/1/g1

2. Identify incoming traffic streams to report on
    a. Defined on the GigaVUE as network ports

example uses ports 1/2/x1 to x3

3. Define Netflow Exporterapps netflow exporter alias exp1 destination ip4addr 10.11.12.13 dscp 10 netflow-version netflow-v9 transport udp 9999 template-refresh-interval 15 ttl 64 exit
4. Define Netflow Recorderapps netflow record alias rec1 netflow-version netflow-v9 collect add ipv4 destination address collect add datalink vlan collect add ipv4 tos collect add ipv4 fragmentation id collect add ipv4 fragmentation offset collect add ipv4 source address collect add transport destination-port collect add transport source-port collect add ipv4 protocol collect add counter bytes collect add counter packets collect add timestamp sys-uptime first collect add timestamp sys-uptime last match add ipv4 destination address match add ipv4 source address match add transport destination-port match add transport source-port match add ipv4 protocol exit
5. Define Netflow Monitorapps netflow monitor alias mon1 cache timeout active 30 cache timeout inactive 60 cache timeout event transaction-end record add rec1 exit
6. Define the GigaSMART components for Netflow V9 and configure the tunnel port
Assume Gigasmart card is in slot 3
Note that in 5.5 we introduced ip interfaces, replacing the tunneling ports in previous versions
 gsgroup alias gs1 port-list 1/3/e1 gsop alias gsop1 flow-ops netflow port-list gs1 port 1/1/g1 type tool Pre 5.5. tunneled-port 1/1/g1 ip 10.11.12.28 255.255.255.0 gateway 10.11.12.1 mtu 1500 port-list gs1 tunneled-port 1/1/g1 netflow-exporter add exp1 5.5 Onwards ip interface alias <alias>  attach 1/1/g1  ip address 10.11.12.28 /24  gw 10.11.12.1  mtu 1500  gsgroup add gs1  netflow-exporter add exp1 exit gsparams gsgroup gs1 netflow-monitor add mon1
7. Create flow-mapping for netflow to report onmap alias for-netflow-v9 from 1/2/x1..x3 use gsop gsop1 to 1/1/g1 rule add pass ipver 4 exit

Beginners guide to setting up NetFlow v9
Set up for Netflow v9 explained in bite-size chunks.

2019. 8. 7•How to
Feature
GS-NetFlow
Title
Beginners guide to setting up NetFlow v9
Objective
How to set up Netflow v9 for the very first time.
Environment
H-Series
GigaSMART Netflow
Procedure
1. Identify the GigaVUE port for sending the Netflow reports out of
    a. This port gets connected to your switch and allows you to send Netflow records to your Netflow collector.
    b. Defined as a tunnel port

example uses port 1/1/g1

2. Identify incoming traffic streams to report on
    a. Defined on the GigaVUE as network ports

example uses ports 1/2/x1 to x3

3. Define Netflow Exporter
apps netflow exporter alias exp1
destination ip4addr 10.11.12.13
dscp 10
netflow-version netflow-v9
transport udp 9999
template-refresh-interval 15
ttl 64
exit

4. Define Netflow Recorder
apps netflow record alias rec1
netflow-version netflow-v9
collect add ipv4 destination address
collect add datalink vlan
collect add ipv4 tos
collect add ipv4 fragmentation id
collect add ipv4 fragmentation offset
collect add ipv4 source address
collect add transport destination-port
collect add transport source-port
collect add ipv4 protocol
collect add counter bytes
collect add counter packets
collect add timestamp sys-uptime first
collect add timestamp sys-uptime last
match add ipv4 destination address
match add ipv4 source address
match add transport destination-port
match add transport source-port
match add ipv4 protocol
exit

5. Define Netflow Monitor
apps netflow monitor alias mon1
cache timeout active 30
cache timeout inactive 60
cache timeout event transaction-end
record add rec1
exit

6. Define the GigaSMART components for Netflow V9 and configure the tunnel port
Assume Gigasmart card is in slot 3
Note that in 5.5 we introduced ip interfaces, replacing the tunneling ports in previous versions
 
gsgroup alias gs1 port-list 1/3/e1
gsop alias gsop1 flow-ops netflow port-list gs1

port 1/1/g1 type tool

Pre 5.5.
tunneled-port 1/1/g1 ip 10.11.12.28 255.255.255.0 gateway 10.11.12.1 mtu 1500 port-list gs1
tunneled-port 1/1/g1 netflow-exporter add exp1

5.5 Onwards
ip interface alias <alias>
 attach 1/1/g1
 ip address 10.11.12.28 /24
 gw 10.11.12.1
 mtu 1500
 gsgroup add gs1
 netflow-exporter add exp1
exit
 

gsparams gsgroup gs1 netflow-monitor add mon1

7. Create flow-mapping for netflow to report on
map alias for-netflow-v9
  from 1/2/x1..x3
  use gsop gsop1
  to 1/1/g1  
  rule add pass ipver 4
exit

https://www.gigamon.com/products/optimize-traffic/subscriber-intelligence/5g-correlation.html

Subscriber-Aware Forwarding in a 5G and CUPS World

In a new 5G or 4G LTE world, where the control and user planes are separated (known as CUPS), obtaining coherent visibility of sessions is more challenging than ever. The physical separation of the user-plane traffic from the control-plane traffic, often in different locations, makes it difficult to associate the GTP user-plane tunnel sessions with the user or equipment identification.

With Gigamon 5G Correlation, 5G and LTE CUPS mobile operators can now intelligently forward subscriber sessions to specific tools by filtering on subscriber or equipment IDs — from ranges of subscribers down to a specific, high-value subscriber. Other benefits include:

• More efficient, effective tool processing throughput
• Improved analytics accuracy from reliable correlation of subscriber sessions
• Maximized quality of experience and monetizing services
• Increased reliability in accounting, billing and subscription management

It’s all part of Gigamon Subscriber Intelligence solutions made specifically for service providers.

Plus, be sure to take advantage of our new bundled GigaSMART® apps to be subscriber-aware!
 

https://www.gigamon.com/products/optimize-traffic/subscriber-intelligence/sip-rtp-correlation.html

VoIP Subscriber- and User-Aware Forwarding

It just got easier — and more efficient — to monitor voice- and video-over-IP (VOIP) sessions carried in Real-Time Transport Protocol (RTP) and managed by Session Initiation Protocol (SIP) signaling. It’s called the SIP/RTP Correlation application, and is a licensable and intelligent addition to the GigaSMART® engine that enables enterprises and service providers to monitor VoIP traffic.

Because it understands the stateful nature of the SIP protocol, the SIP/RTP Correlation application can match and pass an identified user’s SIP signaling and RTP media sessions to the appropriate analytics, performance and security subsystems. That’s a big help ensuring an accurate view of the session performance, the user’s quality of experience and secureness of the communication.

With the SIP/RTP Correlation application, service providers and enterprises can now intelligently forward VoIP sessions to specific tools by filtering on ranges of or specific user IDs, sampling just a percentage of media sessions and/or balancing the aggregate SIP and RTP sessions.

Benefits of the SIP/RTP Correlation Application:

• More efficient, effective tool processing throughput
• Improved analytics accuracy from reliable correlation of user sessions
• Enables improved user experiences and service monetization with more accurate end-user quality of experience metrics
• More reliable accounting, billing and subscription management
• Fewer errors through accurate correlation of subscriber or user data fragmented in transit

Take advantage of our new bundled GigaSMART apps to be subscriber-aware!

https://www.gigamon.com/products/optimize-traffic/subscriber-intelligence/flowvue-subscriber-awareness.html

Carriers: make big data manageable

The FlowVUE® feature is a licensable addition to the GigaSMART® engine that provides subscriber IP-based flow sampling, which enables existing security and monitoring tools to connect to the latest high-speed pipes by providing a representative view of traffic for diagnostic coverage. Unlike traditional diagnostic methods, the FlowVUE feature intelligently reduces the amount of traffic, while keeping the integrity of the data flows intact, but at a lower speed feed within a smaller pipe.

The FlowVUE feature allows for active sampling of a subscriber’s device (known as a user endpoint IP or UE IP) across GPRS Tunneling Protocol user-data plane (GTP-u) tunnels. The integrity of the subscriber flows is preserved by forwarding all the flows associated with the sampled UE IP to the appropriate monitoring and analytic tools.

The numerous benefits of FlowVUE

• Enhances accuracy of Quality of Experience (QoE) monitoring.
• Cost-effectively reduces the amount of data, while enabling Big Data throughput processing.
• Further reduces traffic volumes to the tool infrastructure when combined with the advanced filtering capabilities of GigaSMART Adaptive Packet Filtering.
• Enables operators to detect and replace inactive devices through user-configurable timeouts.

Take advantage of our new bundled GigaSMART apps to be subscriber-aware!

https://www.gigamon.com/products/optimize-traffic/subscriber-intelligence/gtp-correlation.html

Subscriber-aware forwarding

The GTP Correlation feature is a licensable, robust and intelligent addition to the GigaSMART® engine that enables mobile service providers to monitor subscriber data in GPRS Tunneling Protocol (GTP) tunnels. Because it understands the stateful nature of this protocol, the GTP Correlation feature can match and pass all of an identified subscriber’s control and data sessions to the appropriate analytics, performance and billing subsystems to help ensure an accurate view of the session performance and the subscriber’s quality of experience.

With GTP Correlation, mobile operators can now intelligently forward subscriber sessions to specific tools by filtering on subscriber IDs or tunnel IDs -- from ranges of subscribers down to a specific, high-value subscriber.

Benefits of the GTP Correlation feature:

• More efficient, effective tool processing throughput.
• Improved analytics accuracy from reliable correlation of subscriber sessions.
• Helps maximize quality of experience and monetizing services with more accurate end-user quality of experience metrics.
• More reliable accounting, billing, and subscription management.
• Fewer errors through accurate correlation of subscriber data fragmented in transit.

Take advantage of our new bundled GigaSMART apps to be subscriber-aware!