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Slide 1
ROUTE: IMPLEMENTING CISCO
IP ROUTING
Course 1: Routing Services
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Slide 2
Course 1 Objectives
Describe common enterprise traffic
requirements and network design models.
Describe how to create a plan for implementing
routing services in an enterprise network.
Review the fundamentals of routing and
compare various routing protocols.
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Slide 3
Topic A
Complex Enterprise Network Frameworks,
Architectures, and Models
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Slide 4
Traffic Conditions in a Converged Network
Converged networks support the following types of traffic:
Routing protocol traffic
Network management traffic
Transactional traffic
Mission-critical traffic
Voice and video traffic
Voice applications traffic
The listed traffic has great effects on network performance and security.
Cisco has developed the Intelligent Information Network (IIN) in order to enhance enterprise networks.
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Slide 5
IIN: Cisco Intelligent Information Network
IIN or Intelligent Information Network:
Plays an active role in delivering services and applications.
Bridges and extends intelligence across infrastructure
layers and multiple products.
The Intelligent Information Network consists of three
phases in which functionality can be integrated with
to the infrastructure in the forms of:
Integrated applications
Integrated services
Integrated transport
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Slide 6
Three Phases of the Intelligent Information
Network
Phase 1: Integrated transport
Integrates video, voice, and data transport into one modular and
standards-based network in order to generate enterprise-wide
efficiencies and simplify network management.
Phase 2: Integrated services
Integrated services help to unify data center server capacity and
storage.
The Intelligent Information Network provides business continuity in order
to survive local systems failure. This can be achieved thanks to shared
resources across the Intelligent Information Network.
Phase 3: Integrated applications
This phase optimizes application performance and delivers networked
applications to users in an efficient way in order to making the network
application aware.
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Slide 7
Three Phases of the Intelligent Information
Network Graph
Phase 1: Integrated Systems
Phase 2: Integrated Services
Phase 3: Integrated Applications
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Slide 8
Cisco SONA Framework
SONA or Cisco Service-Oriented Network Architecture is an architectural framework used to provide operational efficiency through standardization and virtualization and create a flexible and dynamic architecture. SONA provides blueprints guidance, and best practices for
connecting applications and network services enabling business solutions.
In the SONA framework, the common element that connects and enables all components of the information technology infrastructure is the network.
SONA enables corporations to achieve their business goals by leveraging: The experience of Cisco and its partners
The proven Cisco architectures
The extensive Cisco product-line services
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Slide 9
Cisco SONA Framework Layers
Application Layer
Interactive Services Layer
Networked Infrastructure Layer
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Slide 10
SONA: Networked Infrastructure Layer
Campus BranchData
CenterEnterprise
EdgeWAN/MAN Teleworker
Server Storage ClientsNetw
ork
ed
Infr
astr
uctu
re
La
ye
r
Intelligent Information Network
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Slide 11
SONA: Interactive Services LayerIn
tera
ctive
Serv
ices
Laye
r
Serv
ices M
anagem
ent
Serv
ices
Virtu
aliz
ation
Advanced Analytics & Decision Support
Application Delivery Application-Oriented Networking
Security Services
Mobility Services
Storage Services
Infrastructure
Services
Infrastructure Management
Network Infrastructure Virtualization Adaptive M
anagem
ent
Serv
ices
Voice &Collaboration Services
Compute Services
Identity Services
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Slide 12
SONA: Application Layer
Middleware & Application Platforms
Applic
ation
Laye
r
PLM CRM ERP
HCM SCMProcurement
Colla
bo
ratio
n
La
ye
r
Instant
MessagingUnified
Messaging
Meeting
Place
IPCC IP PhoneVideo
Delivery
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Slide 13
Updated SONA Framework
Cisco designs, tests, and validates sets of modular,
connected infrastructure elements organized by places in
the network (PINs).
Cisco designs, tests, and validates sets of modular,
connected infrastructure elements organized by places in
the network (PINs).
Software as
a Service
(SaaS)
Physical Infrastructure
Applications
Commercial
Applications
Internally
DevelopedComposite
Apps / SOA
Server
Places in the Network
ClientsStorage
Ne
two
rke
d
Infr
astr
uctu
re
La
ye
r
Middleware & Application Platforms
Applic
ation
Laye
r Business
Applications C
olla
bo
ratio
n
La
ye
r Collaboration
Applications
Inte
ractive
Se
rvic
es
La
ye
r
Application Networking Services
Infrastructure
Services Ad
ap
tive
Ma
na
ge
me
nt
Se
rvic
es
Core Common Services R
ea
l Tim
e
Com
mu
nic
atio
n
Mo
bility
Ap
plic
atio
n
Deliv
ery
Se
cu
rity
Ma
na
ge
me
nt
Virtu
aliz
atio
n
Tra
nsp
ort
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Slide 14
Updated SONA Framework Continued
Applications
Commercial
Applications
Internally
Developed
Software as a
Service (Saas)
Composite
Apps / SOA
Core Common Services
TransparentExposed
Real Time
Communication Mobility Application
Delivery Security Management Virtualization Transport
Multimedia
Bridge
Multimedia
Record &
Playback
Presence
Session Control
Session
Management
Topology
Management
Voice Recognition
Location
Telemetry
Context
Aware
MobileIntelligent
Routing
XML
Processing
Compression
Content
Distribution
Content-
Based Routing
Caching
Protocol
Optimization
Physical Infrastructure
AAA
Policy
Device ID
Management
End Point Attack
Prevention
Virus Protection
End Point Posture
Validation
Data Loss
Prevention
Firewall
Intrusion/Anomaly
Detection
Intrusion Prevention
Filtering
Encryption/
Decryption
Configuration
Accounting
Provisioning
Performance
Fault
Discovery
Power
Management
VPN
VLAN
VSAN
Switch
Service
Partitioning
I/O
Load
Balancing
Multicast
Network
Heuristics
Switching
Routing
Transcoding
Quality of
Service
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Slide 15
Cisco Enterprise Architecture
Network Locations of SONA Network Infrastructure
Layer
Campus
Data Center
Branch
Teleworker
Enterprise Architecture enables organizations to:
Grow
Optimize
Protect
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Slide 16
Campus Architecture
Provides:
Flexibility
Integrated security
QoS
Multicast
Automatic procedures
High availability
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Slide 17
Branch Architecture
Central configuration and management
Integration
Head-office support
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Slide 18
Data Center Architecture
Scalability
Load balancing
Redundancy
Adaptive network architecture
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Slide 19
Teleworker Architecture
Campus security policies
Centralized management
Enterprise Branch-of-One
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Slide 20
Cisco Hierarchical Network Model
The three-layer hierarchical model is used to
design networks.
The three-layer model consists of the:
Access layer
Distribution layer
Core layer
This flexible modular framework allows for better
implementation and troubleshooting.
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Slide 21
Hierarchical Campus Model
Workgroup Access
Policy-Based
Connectivity
High-Speed
Switching
Access
Distribution
Core
Server Farm
Departmental
Switch Block
Edge
Distribution
Module
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Slide 22
The Hierarchical Model in a Wide Area
Network
Core
Layer
Distribution
Layer
Access
Layer
Access
Layer
Distribution
Layer
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Slide 23
The Enterprise Composite Network Model
The following three functional areas are a result
of the network division carried by the Enterprise
Composite Network Model:
1- Enterprise Campus
2- Enterprise Edge
3- Service Provider Edge
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Slide 24
Topic B
Creating, Documenting, and Executing an
Implementation Plan
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Slide 25
Creating an Implementation Plan
A well written implementation plan is a result of
good procedures and processes during network
design, deployment, and testing.
There are two approaches to making network
changes:
Structured approach
Ad-hoc approach
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Slide 26
Structured Approach
Considerations are taken into account
Changes to network parameters
Meeting both business and technical
requirements
Documentation and implementation
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Slide 27
Ad-hoc Approach
The many tasks that do not require planning
With such an approach, issues can occur
An effective implementation plan is needed to
avoid issues
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Slide 28
Methodologies and Models
In the industry, there are various methodologies and models used to depict a lifecycle approach.
Examples of current major models: Telecommunications Standardization Sector (ITU-T)
The Telecommunications Management Network (TMN) model International Organization for Standardization (ISO)
The Fault, Configuration, Accounting, Performance, and Security (FCAPS) model
IT Infrastructure Library (ITIL)
The Cisco Lifecycle Services (PPDIOO) model
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Slide 29
Cisco Lifecycle Services (PPDIOO) Model
The Cisco Lifecycle Services approach or PPDIOO model consists of six phases in the network lifecycle:
Step 1: Identify customer requirements
Step 2: Characterize the existing network and sites
Step 3: Design the network topology and solutions
Step 4: Plan the implementation
Step 5: Implement and verify the design
Step 6: Monitor and optionally redesign
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Slide 30
Implementation Plan Documentation
The implementation plan documentation includes the following elements: Photos and screen shots
Performance measurement and results
Verification tasks
Implementation plan tasks
Resources required
Tools required
Network information
Once the verification information is added at the end of the project, the documentation creation process is deemed complete or finished.
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Slide 31
Sample Implementation Plan
Project contact list (listing involved employees or team members)
Statements of work (listing the role of each employee or team member)
Equipment, location of project site, and premises related information
Resources, material, and tools
Project related assumptions
Detailed tasks to be completed in the project
Network staging plan
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Slide 32
Example of Project Contact List
Project manager name:
Project manager phone:
Project manager email:
Network engineer name:
Network engineer phone:
Network engineer email:
Network designer name:
Network designer phone:
Network designer email:
Network technician name:
Network technician phone:
Network technician email:
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Slide 33
Example of Implementation Task List
Step 1: Access the switch management interface
Step 2: Backup the IOS
Step 3: Update the IOS
Step 4: Disable all unused access ports
Step 5: Deploy the extra switch
Step 5: Configure an Accounting VPN
Step 6: Configure a VoIP VPN
Step 7: Verify configuration and record the results
Step 8: Backup the running config on both switches
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Slide 34
Example of Tools Required
Item 1: Ethernet cable, 25 meters
Item 2: Laptop to manage switch configuration
Item 3: Console port cable
Item 4: 16 port switch
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Slide 35
Example of Equipment Floor Plan
Location address:
Building (in case of multiple buildings):
Floor number:
Suite number:
Room number:
Installation position:
Rack and shelf numbers:
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Slide 36
Topic C
Overview of IP Routing
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Slide 37
IP Routing
A router can be made aware of non-directly
attached networks in two ways:
Dynamic routing: the router learns from other routers.
Static routing: a network engineer inputs the
information by manually configuring the router.
Routing tables contain both dynamic and static
routes.
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Slide 38
Dynamic Routing
The dynamic routing protocols that do not call for human configuration are:
IS-IS
OSPF
EIGRP
RIPv1
RIPv2
Routing protocols use interface speed, and hop counts as measurements to determine their metrics. They then exchange their metrics or distance to various destinations.
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Slide 39
Static Routing
Static routes are configured with the IP Route
command.
For example: Router(config)#
ip route prefix mask address interface dhcp
distance name next-hop-name permanent track
number tag tag
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Slide 40
Third Option: OnDemand Routing
Known as the Cisco On-Demand Routing (ODR) feature. ODR requires a lot less admin configuration than
static route and uses a lot less overhead than dynamic routing.
It only functions in hub-and-spoke networks and uses CDP for this purpose.
It is configured by using the Router ODR global config command on the hub router and shows as an O under the routing table.
It has an administrative distance of 160.
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Slide 41
Link-State Versus Distance Vector Protocols
Link-state routing protocol:
Routers send the state of their own interfaces to all other area routers whenever there is a change.
Routers use the received information above to recalculate the best path to each network and then save this received information to their routing tables.
Distance vector protocol:
Routers send their entire routing tables or a portion of them to their neighboring routers on a periodic basis.
The received updates are used by routers to determine whether any changes need to be made to their routing tables.
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Slide 42
Classless Versus Classful Routing
Classless Routing Protocol:
RIPv2, EIGRP, OSPF, IS-IS, and BGP are classless
routing protocols.
Routing updates sent include the subnet mask.
Supports VLSM.
Classful Routing Protocol:
RIP Version 1 (RIPv1) is a classful routing protocol.
Routing updates sent do not include the subnet mask.
Does not support VLSM.
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Slide 43
Discontiguous Subnets - Classful Routing
Discontiguous networks are not supported by
classful routing protocols.
Example of a discontiguous network:
Fa0/0
172.16.1.0 /24
192.168.1.0 /24 192.168.2.0 /24
Fa0/0
172.16.2.0 /24RIPv1 update
172.16.0.0RIPv1 update
172.16.0.0
R2 R1 R3
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Slide 44
Discontiguous Subnets - Classless Routing
Discontiguous networks are supported by
classless routing protocols
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Slide 45
IP classless Command
When the ip classless global config command is applied, it alters the behavior of a classful routing protocol.
Classful protocols are programmed to assuming that if a router knows one or more network subnets of a classful network such as 10.0.0.0, then it knows all existing subnets on that network.
IP classless is enabled by default and not to be disabled with IOS release 12.0 and all newer releases.
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Slide 46
Automatic Route Summarization
This does not apply to classless routing as this
feature is disabled.
The IS-IS and OSPF routing protocols do not offer
automatic network summarization option.
The EIGRP and RIPv2 run network summarization
automatically to maintain backward compatibility with
the IGRP and RIPv1 routing protocols.
We can always use the no auto-summary router
configuration command in order to disable automatic
summarization on the EIGRP and RIPv2 routing
protocols.
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Slide 47
Criteria of Routing Table
By considering the following four points, routing
protocols can chose the best route selected
from various routing protocols for destinations:
Prefix
Metric
Administrative distance
Valid next-hop IP address
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Slide 48
Administrative Distance
Administrative distance is used by a Cisco Router to select the best path when it learns of various possible routes to the desired destination with the same prefix from various routing protocols.
Administrative distance is used to rate the believability of a routing protocol.
A default administrative distance value has been assigned to each routing protocol by Cisco. Routing protocols are prioritized in the order of most
to least believable.
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Slide 49
Connected interface
Static route out an interface
Static route to a next-hop address
EIGRP summary route
External BGP
Internal EIGRP
IGRP
OSPF
IS-IS
RIPv1, RIPv2
Exterior Gateway Protocol (EGP)
ODR
External EIGRP
Internal BGP
Unknown
0
0
1
5
20
90
100
110
115
120
140
160
170
200
255
The Route Source Corresponding Default Distance
Administrative Distances
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Slide 50
Floating Static Route
Static routes always have priority over dynamic
routes.
We can always create a floating static route to
alter this default router behavior by simply
reconfiguring the administrative distance of the
static route to a less believable or higher
distance that the dynamic route. This enables
the modified route to float. This is configured on a static route by using the ip route command
with the distance parameter.
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Slide 51
Course 1 Summary
Describe common enterprise traffic
requirements and network design models.
Describe how to create a plan for implementing
routing services in an enterprise network.
Review the fundamentals of routing and
compare various routing protocols.
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Review Questions:
1. Converged networks contain a variety of different types of traffic. Which of the
following is one of those types?
A. Routing Protocol Traffic
B. Routed Protocol Traffic
C. Network Administration Traffic
D. Non-Mission Critical Traffic
2. What is one of the three phases of the Intelligent Information network?
A. Integrated Protocols
B. Integrated Applications
C. Integrated Systems
D. Integrated Transmission
3. Campus architecture provides which of the following?
A. Interoperability
B. Integrated Systems
C. QoC
D. High Availability
4. Which of the following does Branch Architecture offer?
A. Active interaction
B. Decentralized configuration and management
C. Integration
D. Independent support
5. True or False: Data Center Architecture allows for growth.
A. True
B. False
Answer Key:
1. A
Routing Protocol Traffic is a type of traffic contained on a converged network.
2. B
Integrated Applications is one of the three phases of the Intelligent Information
network. The other two are Integrated Services and Integrated Transport.
3. D
Campus architecture provides high availability.
4. C
Branch Architecture offers integration.
5. A
True. Data Center Architecture offers scalability, and therefore allows for growth.