OmniSwitch R6 Bootcamp

In Bangalore

Price on request
You can also call the Study Centre
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Important information

Typology Course
Location Bangalore
Duration 1 Day
  • Course
  • Bangalore
  • Duration:
    1 Day


Where and when

Starts Location
On request
#70/1, 2nd Floor, Dr.Brownamma Towers 2nd Cross, Mission Road, CSI Compund, Opp: HCG Hospital, 560027, Karnataka, India
See map
Starts On request
#70/1, 2nd Floor, Dr.Brownamma Towers 2nd Cross, Mission Road, CSI Compund, Opp: HCG Hospital, 560027, Karnataka, India
See map

Course programme

Program Structure

Unit 1 - 1 hr
Prologue to transmission Network

* Newly developed system development
* Synchronous Digital pecking order
* Traditional Legacy Networks in addition to Transmission
* Next Generation Networks in addition to Transmission
* Competing Core technology
* Carrier-Based Ethernet
* Pseudo Wires

Unit 2 - 2 hrs
Options for Layer 2 elementary Circuit

* Leased Lines in addition to IP VPN
* Frame Relay Frame Structure in addition to QoS
* ATM Terminology, Interfaces in addition to variation Layers
* The ATM Layered Reference Model
* ITU-T and ATM Forum Correlation
* Peer-to Peer-Model - MPLS
* Mapping ATM Cells into SDH
* MPLS and ATM expressions
* MPLS Shim Header
* Architecture of and motivation for MPLS-based IP-VPN

Unit 3 - 2 hrs
Carrier-Based Ethernet and Transmission System

* Advantages and Disadvantages of Ethernet
* Metro Ethernet Forum
* Carrier-Based Ethernet intervention
* Virtual Bridged Local Area Network
* IEEE 802.1q/ad/q/ag
* IEEE 802.3ad Link Aggregation
* Gigabit Ethernet
* Frame Size in addition to Segment time-span
* Gigabit Ethernet Operation
* Ethernet Technologies in addition to Protocols

Unit 4 -- 3 hrs
Synchronous Digital pecking order

* Next Generation Networks and Transmission
* The Synchronous Digital pecking order
* Layered Networks
* Network Node Interfaces
* SDH Functional process
* Multiplexing structure
* Payload Options
* Mapping Transport structure into the VC-4
* Primary Level Payload Mapping plus Pointer
* The STM-N Signal N>1
* Unit visual projection
* Trail Termination Functions
* Tandem Connections in addition to Tandem association monitor
* Circuit Layer Payloads in addition to STM Pay-loads
* Synchronous Multiplexer
* Terminal Multiplexer
* Add and Drop Multiplex
* SDH Digital Cross-Connect system
* SDH Digital Radio-Relay System
* Access SDH
* SDH organization practical area
* SDH Protection mechanism in addition to Network organization

Unit 5 - 1 hour
Next Generation SDH

* Next Generation SDH
* Drivers for V-CAT
* SDH Overheads for GFP and V-CAT
* V-CAT in addition to LCAS
* Generic Framing Procedure

Unit 6 - 1 hr
Wavelength separation Multi-flexing

* Options for increasing capability
* The Multiplexing and De-multiplexing procedure
* The disparity flanked by CW-DM and DW-DM
* The ITU WDM incidence grid
* Dense Wave-length Division Multi-plexing
* Embedded Systems and Open Systems
* Practical DWDM Transmission Systems
* The Optical Multiplexer/De-multiplexer
* Optical amplifier
* Optical Cross-Connect
* WDM in Metropolitan in addition to Access network

Unit 7- 4 hrs
Optical Transport Network

* OTN Standards in addition to structural design
* OTN Network covered organization
* Optical conduit Layer arrangement
* Optical Multi-plex Unit Layer system
* OTN Frame arrangement
* Layer Network organization provisions
* OTM Overhead indication
* OTN Trails
* Virtual Concatenation
* Interconnecting Non-OTN Devices
* Forward blunder alteration
* Protection technique

Unit 8 - 2 hrs
MPLS in Optical network

* Intelligent Optical Network standard
* Mechanical switch convey Network
* AS-ON Layered Network demonstration
* Generalized Multi Protocol Label switch
* Traffic Engineering Label portion protocol
* Routing in addition to Call representation by means of CR-LDP
* Transport MP-LS
* TMPLS Client the time-span of with Servers
* TMPLS in addition to transfer technology

Unit 9 - 2 hrs
Pseudo Wires

* Point of reproduction ropes
* Simulated Wire principles in addition to apprehension
* P W Protocol Layer
* P W E 3 over I P
* P W E 3 over M P L S
* T D M over IP simulated chains
* I E T F T D MoIP