COURSE # TOO-370
UNDERSTANDING ATM TECHNOLOGY AND DESIGN
ATM technology at a glance – from the concepts to the most current
applications.
Asynchronous transfer mode (ATM) is a high-bandwidth, low-delay switching and multiplexing technology now available to corporate planners. It is being deployed in support of networks that carry an organization's traditional data and LAN traffic, video flows, image information, and even voice. In addition, nearly all major carriers in the United States (interexchange carriers, competitive local exchange carriers, and incumbent local exchange carriers) are now deploying or
plan to deploy some form of ATM-based backbone.
This course provides the essential information needed for understanding of this technology.
Applications and benefits:
You will benefit by enhancing your understanding of the:
- Wideband communications requirements.
- ATM technology: current and future.
- Fundamental elements of ATM networks.
- ATM systems and networks
Who should attend:
This course provides essential information needed to assist corporate and carrier planners in making ATM a reality for their organizations. Users, equipment suppliers, and carriers who need to understand ATM switching technology, economics, design considerations, and available carrier service in order to effectively deploy ATM and its capabilities. This course has no prerequisites; however, prior training in telecommunications of equivalent experience will be helpful.
Course Outline:
- Evolving Roles of ATM and IP
- Promise of ATM
- Market/Technical Realities
- Internet explosion; Technology evolution; Difficulties with implementation of Multiservice
- Networks; Lack of a "Killer Application"
- Evolving role for ATM
- Drivers; Evolving ATM Network Architecture
- Support of IP over ATM
- Economic and Design Considerations
- ATM Communications Model
- Layer Principles
- Protocol Control Information; Segmentation/Reassembly; Layer Multiplexing/Demultiplexing
- Physical Layer
- SONET Overview; SONET Rates and Formats; SONET Pointer Mechanism;
- SONET Layer Functions and Protocol Control Information; SONET Payloads; LAN Physical Media
- ATM Layer
- Services; ATM Primitives; Quality of Service; Traffic Parameters; Service Categories
- ATM Adaptation Layer
- Service Classes; AAL Services and Protocols
- References
- ATM Standards
- Overview of ATM Standards Bodies
- ITU-T
- ATM Forum
- Initial Activities - ATM User-Network Interface; ATM Forum Working Groups;
- Additional ATM Forum Specifications; Bellcore Documents; Internet Engineering Task Force
- Summary
- Case Study: The NCX IE6 Multiservice ATM Switch from ECI Telematics Inc.
- Company and Products Overview
- ECI Telecom; NCX IE6 ATM Switch; Open Management System; Network Components; Connecting User Equipment; Understanding the Subscriber; Making the Most of Expensive Resources; Implementing Subscriber-Oriented Networking; Virtual Networks
- NCX IE6 Architectural Design
- Introduction; Principal components
- Hardware Overview
- Chassis; Power supply; ATM Control Switch; I/O Cards; Subscriber interfaces
- Telematics Network Architecture
- Connection; Call; Subscriber; Network; Node; Topology; Route; Media
- Telematics Extended Signaling System
- Internet Protocol service; Topology Provider; Route Provider; Central Call Service
- Routing Mechanisms
- Routing Detail; Network Failure
- Traffic Management
- Policing; Cell Loss Priority Marking/Discrimination; Traffic Shaping; Discard/Marking Strategy; Cell Queuing
- Node Commissioning
- Configuration
- NCX IE6 Switch and Network Management; OMS Features; HP OpenView;
Views; Event Monitoring; Performance Management; Configuration
Management; Change control; Statistics
- Case Study: Frame Relay - ATM Internetworking – Ascend Communications
- B-STDX 8000/9000
- About Ascend Communications Corporation
- B-STDX 900/900 Platform
- B-STDX Hardware Architecture
- Principal components; Networking Resiliency Features; I/O modules; Data flow through the B- STDX
- Virtual Network Navigator
- Overview; Functional description; Relevance of VNN in a Frame Relay-ATM context
- Interworking Product Overview
- ATM CS Module; ATM MU Module
- Applications
- Trunking; Service Interworking
- Logical Port Types
- ATM UNI DTE/DCE; Direct Cell Trunks; OPTimum Frame Trunks; OPTimum Cell Trunks; Network Interworking (FRE5)
- Cell Admission Control and Bandwidth Mapping
- Traffic Shaping
- Addressing
- ATM Quality of Service
- Summary
- Enterprise Networks and the Internet: Carrying IP over ATM
- Need for IP Support
- Key motivations; Why routers were need to begin with in enterprise networks
- A Baseline for Discussion: Dynamics in Enterprise Networking Designs
- Internetworking Level; WAN Level; LAN Level
- Methods of IP Support
- LANE; Classical IP over ATM; MPQA; Network Layer Switching
- ATM-like Services without ATM
- References
- ATM Economics
- Decision Approach
- Cost/Feature Reference Modeling
- ATM Deployment Options
- ATM Equipment and costs
- PC/Workstation Adapters; Access Multiplexers; Layer 2 Switches; ATM Interface Cards for routers; Premises/Carrier Switches; Testing Equipment; Network Services
- Future Cost Trends for ATM Equipment
- Competitive Technologies
- Conclusion
- Reference
- ATM Network Design Considerations
- Design Consideration
- Local Area ATM Network Design
- LAN Design Issues; Traffic Management
- Wide Area ATM Network Design
- Public Network Design; ATM Service Classes used in design; WAN Design Issues; CALL Admission Control; Call Admission Control Example; Carrier Services; Private WAN Design
- Design Tools
- Conclusion
- References
- Making Broadband Services Real: Carrier Challenges
- Carrier Challenges
- Services to be offered
- Switch requirements
- Access issues
- Service-supporting carrier processes
- Customer network management
- References
- Voice over ATM
- Introduction
- Voice Support in ATM Environments
- Evolving Voice applications and directions; ATM Technology relevant to voice; Voice compression and approaches; Advantages of the Integrated ATM Data/Voice Approach; The Voice over ATM CPE Market; Conclusion: Voice over ATM
- Voice Over Frame Relay (over ATM)
- Enterprise Networking Applications; Frame Relay Background; Voice Compression and Approaches for Frame Relay; Other methods for Voice Over Data Network; Advantages of Integrated Frame Relay (over ATM) approach; The Voice Over Frame Relay CPE Market; Access Technology: Generic FRAD Approaches; Conclusion: Voice over Frame Relay
- References
Text: IP Applications with ATM, John Amoss and Daniel Minoli, 1998.
About the Instructors
John Amoss, Ph.D. is a member of the technical staff at LucentTechnologies, where he is responsible for developing Lucent's data product strategy. Prior to joining Lucent he spent more than 20 years in broadband communications at Bell Labs and Bellcore. Amoss is also an Adjunct Professor of Telecommunications at Stevens Institute of Technology.
Daniel Minoli is Director of Engineering and Development, Broadband Services and Internet, at the Teleport Communications Group. A former developer of broadband communications technology at Bellcore, he also teaches as Adjunct Professor at Stevens Institute of Technology and New York University. Mr. Minoli has written more than 25 books on broadband communications.
Details:
Course: TOO-370 Duration: 3 Days FEE: $1,399 CEUs: 2.16
Please direct any additional inquiries regarding this course
to Anita Hellstrom, Program Coordinator, by e-mail, FAX: (636) 273-4955 or TELEPHONE: (636) 273-9608.
Call toll free 1-800-683-7267 from anywhere in the
Continental U.S. or CANADA.
Last modified June 25, 2004.
