network requirements
DESCRIPTION
Network Requirements. Introducing Campus Networks. Intelligent Information Network. Intelligent Information Network (IIN) integrates networked resources and information assets. IIN extends intelligence across multiple products and infrastructure layers. - PowerPoint PPT PresentationTRANSCRIPT
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Introducing Campus Networks
Network Requirements
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Intelligent Information Network
• Intelligent Information Network (IIN) integrates networked resources and information assets.
• IIN extends intelligence across multiple products and infrastructure layers.
• IIN actively participates in the delivery of services and applications.
• Three phases in building an IIN are:
– Integrated transport
– Integrated services
– Integrated applications
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Cisco SONA Framework
• The Cisco Service-Oriented Network Architecture (SONA) is an architectural framework.
• SONA brings several advantages to enterprises:
– Outlines how enterprises can evolve toward the IIN
– Illustrates how to build integrated systems across a fully converged intelligent network
– Improves flexibility and increases efficiency
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Cisco SONA Framework Layers
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Cisco Enterprise Architecture
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Nonhierarchical Network Devices
• Large collision domain
• Large broadcast domain
• High latency
• Difficult to troubleshoot
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Issues• No traffic between VLANs
• Unbounded broadcast domain
• Servers not centrally located
Layer 2 Switching
• Hardware-based bridging
• Wire-speed performance
• Collision domain per port
• Traffic containment based on MAC address
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Layer 3 Routing
• Single broadcast domain per interface
• ACLs can be applied between segments
Issues• High per-port cost
• Layer 3 processing required
• High latency over Layer 2 switching
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Multilayer Switching
• Combined functionality
– Layer 2 switching
– Layer 3 switching
– Layer 4 switching
• Low latency
• High-speed scalability
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Issues with Multilayer Switchesin a Nonhierarchical Network
• Single point of failure for Layer 2 and Layer 3
• Underutilization of hardware
• Spanning tree complexity
• Servers not centrally located
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Hierarchical Campus Model
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ECNM Functional Areas
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Enterprise Composite Network Model
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Modules in the Enterprise Campus
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Campus Infrastructure Module
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Switch Configuration Interfaces
• Two interfaces are used to configure Cisco Catalyst switches:
– Cisco Catalyst software
– Cisco IOS
• Cisco Catalyst software was traditionally used to configure Layer 2 parameters on the modular switches:
– Cisco Catalyst 4000, 5500, 6500 Series
– These switches now support Cisco IOS (native IOS)
• Cisco IOS software is standard for most other switches and for Layer 3 configuration on the modular switches.
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Cisco Catalyst Software
• Cisco Catalyst software is used to configure Layer 2 parameters.
• Cisco Catalyst software configuration commands are prefaced with the keyword set.
– Console(enable) set port enable 3/5
• Layer 3 configuration is implemented on MSFC with the Cisco IOS interface.
• Some platforms can now use the Cisco IOS interface to configure both Layer 2 and Layer 3 (native IOS).
Cisco Catalyst 4000, 5500, and 6500 switches
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Cisco IOS Interface
On most Catalyst switches, Cisco IOS interface is standard for• Layer 2 configuration
• Layer 3 configuration on multilayer switch
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Summary
• The SONA framework guides the evolution of the enterprise network toward IIN.
• Cisco enterprise architecture with a hierarchical network model facilitates the deployment of converged networks.
• Nonhierarchical network designs do not scale and do not provide the required security necessary in a modern topology.
• Layer 2 networks do not provide adequate security or hierarchical networking.
• Router-based networks provide greater security and hierarchical networking; however, they can introduce latency issues.
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Summary (Cont.)
• Multilayer switches combine both Layer 2 and Layer 3 functionality to support the modern campus network topology.
• Multilayer switches can be used in nonhierarchical networks; however, they will not perform at the optimal level.
• The enterprise composite model identifies the key components and logical design for a modern topology.
• Implementation of an ECNM provides a secure, robust network with high availability.
• The Campus infrastructure, as part of an ECNM, provides additional security and high availability at all levels of the campus.
• The two Cisco Catalyst switch interfaces have different features and different font.
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