Table of Contents
PPT Slide
Convergence - Merging Voice, Video and Data
Requirements of Converged Ethernet Campus Networks
Requirements of Converged Ethernet Campus Networks
Converged LAN Control
Defined: Class of Service (CoS) & Quality of Service (QoS)
Communicating Application Requirements to the Network
Transformation at the Desktop
How Traffic Prioritization Works
DynamicAccess Software and IEEE 802.1p CoS
Optimizing the Windows® Networking Experience
Control Example: Traffic Prioritization
Control Making Sense of the Standards Soup
IP Precedence and ToS (Type of Service) RFCs 791 and 1349*
Mapping 802.1 to IP Precedence
Implementing Bandwidth Reservations: Static on one link
Static Rate Limits for Many Flows On one link with Routers or L3+ Switches
Traffic Prioritization in the LAN: Layer 2 or Layer 3?
Mapping 802.1p CoS to ATM CoS One Approach
New Work in the ATM Forum to support LAN and IP based CoS
Multicast Switching Features
Smart Layer 2 + Layer 3 Switching Distributing Intelligence, Not Complexity
Requirements of Converged Ethernet Campus Networks
The Bottleneck Starts at the Edge
Why Buy 10 When You Can Afford 10/100 ?
Migrating Desktops: 10/100 NICs Overtake 10M NICs
The Bottleneck Moves to the Downlinks
Massive Capacity = Reduced Complexity
Link Aggregation - Trunking (Layer 2)
Requirements of Converged Ethernet Campus Networks
Multi-Point Link Aggregation Start with Link Aggregation (Trunking)
Multi-Point Link Aggregation Add device redundancy
Multi-Point Link Aggregation Scale to Multiple Building Backbones
Multi-Point Link Aggregation Scale to Multiple Building Backbones
Multi-Point Link Aggregation Extending Redundancy to the edge
Multi-Point Link Aggregation Key Benefits
Layer 3 Routed Mesh Backbone
Network Redundancy - VRRP (Layer 3)
3Com Ethernet Availability Technologies
PPT Slide
Capacity Business Benefits Reduced Complexity
Capacity and Control: Convergence with Ethernet
PPT Slide
The Role of Policy in QoS/CoS Critical to its Success
PPT Slide
PPT Slide
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