1 © 2001, Cisco Systems, Inc. Catalyst 3550-12T Product Overview April 2001.

Slides:



Advertisements
Similar presentations
Ethernet Switch Features Important to EtherNet/IP
Advertisements

Identifying MPLS Applications
Chapter 1: Introduction to Scaling Networks
M A Wajid Tanveer Infrastructure M A Wajid Tanveer
Antonio González Torres
© 2006 Cisco Systems, Inc. All rights reserved. ICND v2.3—2-1 Extending Switched Networks with Virtual LANs Introducing VLAN Operations.
Introducing Campus Networks
UTC-N Overview of Campus Networks Design.
Introducing New Additions to ProSafe Advanced Smart Switch Family: GS724TR and GS748TR (ProSafe 24 and 48-port Gigabit Smart Switches with Static Routing)
WGS Port 10/100Mbps with 4G TP/SFP Layer 3 Managed Switch Copyright © PLANET Technology Corporation. All rights reserved.
Sales Guide for DES-3810 Series Aug 2011 D-Link HQ.
© 2006 Cisco Systems, Inc. All rights reserved.QoS v2.2—5-1 Congestion Management Configuring LAN Congestion Management.
Implementing Inter-VLAN Routing
111 © 2003, Cisco Systems, Inc. All rights reserved. 7680_03_2003_c1.
Nortel Networks Passport 1600 Intelligent Ethernet Switches.
1 preso_CMS_public.ppt © 2002, Cisco Systems, Inc. All rights reserved. Cisco Cluster Management Suite Network Management Software for Cisco Catalyst Desktop.
Module 5 - Switches CCNA 3 version 3.0 Cabrillo College.
SUNNYSLOPE SCHOOL PROJECT BY SWG ENGINEERING Group Members CINDY CINDY STEVE STEVE GALLO GALLO York Technical College Cisco Networking ACADEMY.
Campus LAN Overview. Objectives Identify the technical considerations in campus LAN design Identify the business considerations in campus LAN design Describe.
Multi-Layer Switching Layers 1, 2, and 3. Cisco Hierarchical Model Access Layer –Workgroup –Access layer aggregation and L3/L4 services Distribution Layer.
© 2006 Cisco Systems, Inc. All rights reserved. Module 4: Implement the DiffServ QoS Model Lesson 4.10: Deploying End-to-End QoS.
© 2006 Cisco Systems, Inc. All rights reserved. Optimizing Converged Cisco Networks (ONT) Module 4: Implement the DiffServ QoS Model.
1 © 2001, Cisco Systems, Inc. All rights reserved. NIX Press Conference Catalyst 6500 Innovation Through Evolution 10GbE Tomáš Kupka,
1 13-Jun-15 S Ward Abingdon and Witney College LAN design CCNA Exploration Semester 3 Chapter 1.
Ch.6 - Switches CCNA 3 version 3.0.
ROYAL PALM NETWORK PROJECT John Healy Tom Jamieson
Layer 2: Redundancy and High Availability Part 1: General Overview on Assignment 1.
The Network Works 800_105/c _015/c12 Current LAN Technologies 10/100Mbs to the desktop 100Mbs or 1000Mbs to servers Wireless LAN Gigabit between.
CAN Design Last Update Copyright Kenneth M. Chipps PhD 1.
Chapter 1: Hierarchical Network Design
Chapter 6 High-Speed LANs Chapter 6 High-Speed LANs.
InterVLAN Routing Design and Implementation. What Routers Do Intelligent, dynamic routing protocols for packet transport Packet filtering capabilities.
IPv6 Deployment Plan The Global IPv6 Summit 2001.
Tiziana Ferrari Quality of Service Support in Packet Networks1 Quality of Service Support in Packet Networks Tiziana Ferrari Italian.
Top-Down Network Design Chapter Thirteen Optimizing Your Network Design Oppenheimer.
Network Admin Course Plan Accede Institute Of Science & Technology.
Brierley 1 Module 4 Module 4 Introduction to LAN Switching.
Repeaters and Hubs Repeaters: simplest type of connectivity devices that regenerate a digital signal Operate in Physical layer Cannot improve or correct.
The University of Bolton School of Games Computing & Creative Technologies LCT2516 Network Architecture CCNA Exploration LAN Switching and Wireless Chapter.
LAN Switching and Wireless – Chapter 1
© 1999, Cisco Systems, Inc. Module 9: Understanding Virtual LANs.
Threaded Case Study for Phoenix, AZ. School District Sunny Slope & Sunset Elementary present by Todd Thousand, Bill Siepel, and Jeff Moore.
© 2002, Cisco Systems, Inc. All rights reserved..
© 2006 Cisco Systems, Inc. All rights reserved.Cisco Public 1 Version 4.0 Introducing Network Design Concepts Designing and Supporting Computer Networks.
LOGO Local Area Network (LAN) Layer 2 Switching and Virtual LANs (VLANs) Local Area Network (LAN) Layer 2 Switching and Virtual LANs (VLANs) Chapter 6.
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 1: Introduction to Scaling Networks Scaling Networks.
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 1: Introduction to Scaling Networks Scaling Networks.
© 1999, Cisco Systems, Inc. 1-1 Chapter 2 Overview of a Campus Network © 1999, Cisco Systems, Inc.
© 2006 Cisco Systems, Inc. All rights reserved. 3.5: Implementing QoS with Cisco AutoQoS.
1 © 2003, Cisco Systems, Inc. All rights reserved. CCNP 1 v3.0 Module 1 Overview of Scalable Internetworks.
1 © 2003, Cisco Systems, Inc. All rights reserved. CISCO CONFIDENTIAL Advancing the Carrier IP/MPLS Edge Routing Technology Group Cisco Systems, Inc. April.
Cisco S3C3 Virtual LANS. Why VLANs? You can define groupings of workstations even if separated by switches and on different LAN segments –They are one.
© 2006 Cisco Systems, Inc. All rights reserved.Cisco PublicITE I Chapter 6 1 Introducing Network Design Concepts Designing and Supporting Computer Networks.
1 © 2003, Cisco Systems, Inc. All rights reserved. CCNA 3 v3.0 Module 8 Virtual LANs Cisco Networking Academy.
Network design Topic 4 LAN design. Agenda Modular design Hierarchal model Campus network design Design considerations Switch features.
. Large internetworks can consist of the following three distinct components:  Campus networks, which consist of locally connected users in a building.
© 2006 Cisco Systems, Inc. All rights reserved.Cisco PublicITE I Chapter 6 1 Switching in an Enterprise Network Introducing Routing and Switching in the.
Advanced Computer Networks Lecturer: E EE Eng. Ahmed Hemaid Office: I 114.
1 © 2003, Cisco Systems, Inc. All rights reserved. CCNP 3 v4 Module 1 Designing a Network Using the Campus Infrastructure Model.
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 1: Hierarchical Network Design Connecting Networks.
catalyst-2960_c19.
Cisco Catalyst 2960 LAN Lite Switches Feature Comparison.
Network Concepts.
Instructor Materials Chapter 1: LAN Design
© 2002, Cisco Systems, Inc. All rights reserved.
Catalyst 2960 LAN Lite.
Optical-Based Switching Solutions
© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 6: Quality of Service Connecting Networks.
Module 5 - Switches CCNA 3 version 3.0.
Presentation transcript:

1 © 2001, Cisco Systems, Inc. Catalyst T Product Overview April 2001

2 © 2001, Cisco Systems, Inc. AgendaAgenda Catalyst T Overview and Positioning Technical Overview Design Examples Selling the Catalyst T—Competitive Guide

3 © 2001, Cisco Systems, Inc. Cisco Delivers the Most Complete Line of LAN Products in the Industry Price/Performance Function/Flexibility Wiring Closet - L2 Mid-sized Network Backbone/ “Top of the Stack” Aggregation - L3 Catalyst 1900 Low-cost 10 Mbps switching Clustering capable FastHub 400 Low-cost shared 10/100 Stackable Catalyst 2950 Wire-speed standalone 10/100 switching 10/100/1000BaseT uplinks Clustering capable Catalyst 3500 Series XL Stackable 10/100/1000 plus GBIC ports High performance L3 switching and routing Catalyst 4908G-L3 Stackable 10/100 switching Gigabit optimized Clustering capable Standalone Gigabit switching Wire-speed L3 switching and routing NEW Catalyst T

4 © 2001, Cisco Systems, Inc. New Catalyst T 10 10/100/1000BaseT ports with two GBIC ports Offers 17 Mpps forwarding rate performance at Layer 2 and Layer 3 Layer 3 capable hardware preinstalled Limited lifetime warranty Full Cisco GBIC support All existing GBICs (GigaStack™ GBIC, SX, LX, and ZX) New single-port 1000BaseT GBIC Catalyst T GBIC-Based or 1000BaseT Gigabit Ethernet Ports NEW

5 © 2001, Cisco Systems, Inc. Catalyst T Key Benefits Security Access control lists for data plane security Support for 802.1x TACACS+ for management access Availability HSRP for router redundancy Redundant routed uplinks Faster network convergence Scalability Scalable L3 routing protocols Multicast routing scalability Broadcast domain segmentation Control Top-of-the-stack routing for deterministic traffic control L3 QoS extends end-to-end trust boundry Granular traffic rate limiting Simplicity Switch clustering extends ease of use to Cisco IOS Intelligent Network Services Fewer Spanning Tree instances and trunked VLANs Common IOS CLI

6 © 2001, Cisco Systems, Inc. In the wiring closet Provides Layer 2 device aggregation, broadcast domain segmentation, and efficient routed uplinks to the core Extend the QoS trust boundary by classifying, marking, and policing traffic using L2 through L4 parameters Enforce security, policy, and intelligent bandwidth management Efficient and flexible multicast distribution with IGMP Snooping or PIM In the distribution layer Terminate Layer 2 VLANs and perform inter-VLAN routing and access control; Order of magnitude processing power is greater than S/W based routers CoS to DSCP mapping, enforce security, policy, and intelligent bandwidth management via ACLs Multicast routing for IP multicast domains Deployment Scenarios

7 © 2001, Cisco Systems, Inc. Cisco’s Midmarket 1000BaseT Solution Why 1000BaseT? Protects investment in installed horizontal cabling (Category 5) Leverages investment in installed gear Extends Cisco IOS® Intelligent Network Services at 17 Mpps forwarding rate over copper Where in the network? Aggregation of wiring closets Uplinks to distribution layer Data centers Wiring Closet Distribution 1000T L3 Core Wiring Closet 1000T Wiring Closet 1000T Catalyst T Catalyst 2950T-24

8 © 2001, Cisco Systems, Inc. Software Feature Summary IP forwarding CEF-based IP Forwarding RIP, RIP 2, OSPF IGRP, EIGRP Quality of Service Classification of frames Policing Egress queuing (WRR, WRED for Gig) L p, L3 DiffServ Multicast Management PIM: Dense-Sparse mode IGMP Snooping CGMP server Reliability HSRP Routed uplinks Equal cost routing Mobility/Security BootP, DHCP relay TACACS x support (future) Standard and extended ACLs VLAN ACLs Management CMS for Layer 3 Switch clustering Integration with CiscoWorks VLAN Services ISL, IEEE 802.1Q VTP server, client, and transparent VTP pruning

Catalyst T Quality of Service 91069_05F9_c1 © 1999, Cisco Systems, Inc.

10 © 2001, Cisco Systems, Inc. PCs Servers Voice Mission Critical Video Surveillance Mission- Critical Servers Existing NetworkNew Additions Protect Mission-Critical Traffic! Evolving Campus Network

11 © 2001, Cisco Systems, Inc. Voice Video Data (Best-Effort) Mission- Critical Data Bandwidth Low to Moderate Moderate to High Low to Moderate Random Drop Sensitivity Low High Delay Sensitivity High Low Moderate to High Jitter Sensitivity High Low Low to Moderate Not All Traffic Is Created Equal

12 © 2001, Cisco Systems, Inc. Why not just increase the link speed? Throw more bandwidth at the problem! QoS in Campus Networks?

13 © 2001, Cisco Systems, Inc. QoS vs. More Bandwidth More Bandwidth Simplicity TCP will eventually retransmit any dropped packets Data traffic is not delay or drop sensitive QoS Differentiated traffic (video, voice, critical data) Output buffers have tendency to be operating at 100% in the campus at congestion points Buffer management is required to control delay or drops Do you care about delay/drops at congestion points?

14 © 2001, Cisco Systems, Inc. AggregationSpeed Mismatch 10 Mbps 1000 Mbps LAN to WAN 10 Mbps 64 Kbps Where Does Congestion Exist? Where QoS Applies QoS required where there is congestion in links and buffers Points of substantial speed mismatch and points of aggregation Transmit buffers have the tendency to fill (TCP windowing) Buffering reduces loss, introduces delay

15 © 2001, Cisco Systems, Inc. Key QoS Benefits Extends Layer 3 QoS trust boundary Manages congestion points via line rate classification and queuing QoS aggregation occurs in the wiring closet Define incoming traffic using Layer 2-4 information at the network access Deliver cost effective “distribution” QoS (reclassify out-of-profile traffic) QoS implementation via QoS access control lists

Catalyst T Management and Clustering _05F9_c1 © 1999, Cisco Systems, Inc.

17 © 2001, Cisco Systems, Inc. Switch Clustering Uses any supported physical media and transport technologies: copper, fiber, Fast Ethernet, Gigabit Ethernet Up to 16 interconnected, geographically dispersed switches can be managed by a single IP address Fully backward compatible with all Catalyst 2900 XL, 3500 XL, 1900 or 2820, or new Catalyst 2950 products Web-based interface for easy configuration and management of all clustered switches Award-Winning Cisco Cluster Management Suite

18 © 2001, Cisco Systems, Inc. Switch Clustering Investment Protection Command Catalyst T Closet C Combination Closet A Catalyst 2950 Daisy Chain with Gig E ports Closet B Catalyst 3500 XL Daisy Chain with GigaStack GBICs Members Single IP Managed Domain Catalyst 6500 Gigabit Ethernet or Gigabit EtherChannel® Redundant Commander NEW 1000BaseT GBIC NEW

19 © 2001, Cisco Systems, Inc. Cluster Management Suite

20 © 2001, Cisco Systems, Inc. Cluster Management Suite Enhancements

21 © 2001, Cisco Systems, Inc. Enhancements to Switch Clustering User interface improvements Multilayer feature configuration QoS, Dynamic Routing, ACLs Context-sensitive help Guide and Expert mode configuration Wizards/templates

22 © 2001, Cisco Systems, Inc. QoS Configuration Wizard Catalyst T Cluster Management Suite Network Administrator Input Designated video ports Wizard configures Layer 2/3 QoS policies by mapping traffic characteristics to desired QoS behavior Video Traffic Characteristics High bandwidth Symmetric two- way traffic Low drops Low delay Low jitter QoS Behavior for Video Ports Assign appropriate DSCP value to voice packets Set Strict Priority scheduling for voice traffic Map voice DSCP value to Strict Priority Queue Set Policing for packets in Priority Scheduling Queue

23 © 2001, Cisco Systems, Inc. Clustering Supported Configurations Centralized Server Farm Internet Cisco 2600/3600 Catalyst T Command Switch Subnet/VLAN 1 Subnet/VLAN 2 Subnet/VLAN 3 Subnet/VLAN 4 Manage WAN access (including voice) L2/L3 Redundant Commander

Catalyst T Design Examples _05F9_c1 © 1999, Cisco Systems, Inc.

25 © 2001, Cisco Systems, Inc. Top of the Stack Wiring Closet Multilayer Switching Core Catalyst 2950T 1000BaseT Uplinks Gig EtherChannel Catalyst T Wiring Closet #1 Redundant Routed Uplinks Wiring Closet #2 1000BaseT GBIC Catalyst 3524-PWR Catalyst 3500 XL NEW Catalyst T CallManager

26 © 2001, Cisco Systems, Inc. Distribution Layer Wiring Closet Aggregation 1000BaseT Uplinks Gig EtherChannel Catalyst T HSRP Catalyst 3524 XL- PWR NEW Catalyst T Daisy-Chained Catalyst 2950T 1000BaseT GBIC Cross Stack UplinkFast NEW Centralized Server Farm Network Core Distribution Layer CallManager

27 © 2001, Cisco Systems, Inc. Stackable Multilayer Backbone Internet Cisco 2600/3600 Catalyst 3550 Command Switch Catalyst 2950T point-to-point 1000BaseT links Catalyst 3500 XL GigaStack cascade or 1000BaseT GBIC point-t- point links WAN Access Call Manager

28 © 2001, Cisco Systems, Inc. Server Aggregation Catalyst T 1000BaseT Server Links Centralized Servers ISP #1 Cisco 2600/3600 Multi Homed ISPs to Remote Sites Campus Core ISP #2 10/100 Links Equal Cost Routes to Campus Benefits Central physical security and aAdministration Access control lists for server access Scalable design Dynamic IP routing at 17 Mpps forwarding rate QoS/policing to prioritize mission-critical applications Redundant links to core Efficient use of network resources

29 Presentation_ID © 1999, Cisco Systems, Inc.

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.