ATM Training | Asynchronous Transfer Mode Training

ATM Training | Asynchronous Transfer Mode Training

Introduction:

Why Should I choose ENO for ATM Training | Asynchronous Transfer Mode Training Course?

This ATM Training | Asynchronous Transfer Mode Training course lays the foundation for ATM by explaining all the basics from formats and headers to virtual circuits and connections. A network technology based on transferring data in cells or packets of a fixed size. The small, constant cell size allows ATM equipment to transmit video, audio, and computer data over the same network, and assure that no single type of data hogs the line. ATM creates a fixed channel, or route, between two points whenever data transfer begins. This differs from TCP/IP, in which messages are divided into packets and each packet can take a different route from source to destination. This difference makes it easier to track and bill data usage across an ATM network, but it makes it less adaptable to sudden surges in network traffic.

This ATM Training | Asynchronous Transfer Mode Training course provides the concepts you need to understand Asynchronous Transfer Mode (ATM) in both practice and potential. This ATM Training | Asynchronous Transfer Mode Training class lays the foundation for ATM by explaining all the basics from formats and headers to virtual circuits and connections. We also explore the evolution to an ATM network from a non-ATM network. You will gain a business perspective on how ATM compares with alternative technologies, review the any interfaces, and examine the protocol. In addition to an ATM overview, specific topics featured in this ATM Training | Asynchronous Transfer Mode Training course include: congestion control, the adaptation layer, carrier services, ATM backbones, IP over ATM, voice and video over ATM, Private Network-to-Network Interface (PNNI), MPLS and ATM standard interfaces.

Customize It:

With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.

ATM Training | Asynchronous Transfer Mode TrainingRelated Courses:

Duration: 2-3 days

Objectives:

◾Select ATM equipment and WAN services
◾Deploy ATM in your networks
◾Integrate ATM with existing networks at the desktop and infrastructure
◾Operate TCP/IP and other protocols in an ATM environment.

Course Content:

Introduction
◾ATM Key Benefits
◾Asynchronous vs isochronous communication
◾Frames, packets and cells
◾Congestion, flow control, error control
◾Physical and virtual circuits
◾Connection-oriented and connectionless communication

ATM development
◾Associated technologies
◾The need for ATM its markets
◾Quality of Service
◾The five categories of service
◾Bandwidth on demand
◾ATM-related standards
◾Speed and addressing options
◾The ATM/B-ISDN protocol stack
◾User Plane, Control Plane and Management Plane
◾User Network Interface (UNI)

ATM principles and operation
◾Cells and cell segmentation
◾The ATM header
◾Transmission Paths
◾Virtual Paths
◾ATM PVCs
◾The basic ATM cell
◾Physical layer, PDH, SDH

ATM architecture
◾ATM Layer, UNI, NNI and PNNI types
◾ATM Switched Virtual Circuit operation
◾ATM Meta Signalling
◾ATM Signalling, Q.2931
◾Quality of Service components and negotiation
◾Leaky bucket and alternative algorithms

ATM Classes of Service
◾Controlling delay and delay variation
◾Accommodating bursty traffic
◾The significance of signalling
◾CBR, VBR-RT, VBR-NRT, ABR, UBR

ATM Adaptation Layer (AAL)
◾Emulating circuits with AAL1
◾Timing and clocking recovery
◾SAR functions
◾AAL user data types
◾AAL service specific part
◾AAL common convergence part AAL 2
◾AAL 3/4
◾AAL 5 (SEAL)

ATM Signalling
◾Signalling ATM Adaptation Layer
◾Call Set-up, Release
◾ITU-T Q.2931 signalling, messages, Information Elements
◾ATM Addresses
◾PNNI Signalling and Routing
◾PNNI Groups, Logical Networks, Transit Lists
◾PNNI Messages

Network Management
◾Operations, Administration and Maintenance (OAM)
◾SNMP and ATM
◾ILMI and ATM MIB
◾uUME and nUME
◾Address Registration
◾Connectivity Monitor

Traffic Management
◾Connection Admission Control
◾Virtual Bandwidth
◾Traffic Policing
◾Usage Parameter Control
◾Generic Cell Rate Algorithm
◾Congestion Control (EFCI)
◾Traffic Shaping
◾Performance Parameters
◾CLR, CDV, CTD, MCR, PCR, BT, SCR, CDVT

Other protocols and ATM
◾LAN Emulation (LANE)
◾BUS, LECS and LES
◾Multi-Protocol Over ATM (MPOA)
◾Encapsulating multiple protocols
◾Segregating protocols using VCCs
◾TCP/IP over ATM
◾Frame Relay and other protocols over ATM

ATM switching
◾ATM switch design
◾Performance measurement
◾Deploying ATM in the LAN

ATM services and equipment
◾Review of mainstream ATM vendor equipment
◾Review of national and international ATM network services

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Time Frame: 0-3 Months4-12 Months

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