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CCIP programı 4 eğitimden oluşmaktadır. Program toplam 21
hafta sürmektedir.
Advanced
Routing, 6 hafta
Advanced
BGP, 5 hafta
Deploying QoS, 5
hafta
Deploying MPLS, 5
hafta
(*) Kur süreleri ile ilgili
açıklamalar için lütfen eğitim
takvimi bölümünü okuyunuz.
CCIP 2.Kur Advanced BGP, 5
hafta
1. BGP Overview
1.1. Informational
Topics on BGP
1.1.1.
Who needs BGP?
1.1.2.
IP Address Allocation among Major Geographic Areas
1.1.3.
Classless Interdomain Routing (CIDR) and Summarization
1.1.3.1.
Reducing Routing Table Explosion X
1.1.3.1.1.
The growth of Internet Routing Tables
1.1.3.2.
Reducing Class B Address Space Depletion
1.1.3.3.
Difficulties with CIDR
1.1.3.3.1.
Portability & Black holes
1.1.3.3.2.
Provider-independent/Portable address space
1.1.3.3.3.
Longest Matching Rule (IRA, 71)
1.1.3.3.4.
Less-specific Routes of a Network’s Own Aggregate
1.1.4.
Internet Hierarchy
1.1.4.1.
ISPs and NAPs (Network Access Points)
1.1.4.2.
What is a NAP?
1.1.4.2.1.
Typical NAP Physical Infrastructure.
1.1.4.2.2.
NSP, vBNS
1.1.4.3.
Direct Interconnections
1.1.4.4.
Routing Arbiter Project
1.1.4.4.1.
Route Servers
1.1.4.4.2.
Network Management System
1.1.4.4.3.
Routing Arbiter Database (RADB)
1.1.4.4.4.
Routing Engineering Team
1.1.4.5.
NIC
1.1.4.5.1.
Creation of InterNIC
1.1.4.5.2.
Directory and Database Services
1.1.4.5.3.
Registration Services
1.1.4.5.4.
NIC Support Services
1.1.4.5.5.
Other Internet Registries
1.1.4.5.5.1.
ARIN
1.1.4.5.5.2.
RIPE NIC
1.1.4.5.5.3.
APNIC
1.1.4.6.
Internet Routing Registries
1.1.4.6.1.
Internet Routing Registry (IRR)
1.1.4.7.
Level of ISP Internet Access Redundancy
2. Basic BGP
Configuration
2.1.
BGP Session Establishment
2.2.
BGP Route Processing
2.3.
Basic BGP Setup (network command details)
2.5.
Monitoring and Troubleshooting BGP
3. Route Selection
Using Policy Controls
3.1.
Multi-Homed BGP Networks
3.2.
AS-Path Filters
3.3.
Prefix-List Filters
3.4.
Outbound Route Filtering
3.5.
Route-Maps as BGP Filters
3.6.
Implementing Changes in BGP Policy
4. Route Selection
Using Attributes
4.1.
BGP Path Attributes
4.2.
BGP Local Preference
4.3.
BGP Multi-Exit-Discriminator (MED)
4.4.
BGP Communities
5. Customer-to-Provider Connectivity with
BGP
5.1.
Customer Connectivity Requirements
5.2.
Static Routing Toward the Customer
5.3.
BGP Customer Multi-Homed to a Single Service Provider
5.4.
BGP Customer Multi-Homed to Multiple Service Providers
6.
BGP Transit Autonomous System
6.1.
Transit Autonomous System Functions
6.2.
Packet Forwarding in Transit Autonomous Systems
6.3.
Configuring a Transit Autonomous System
6.4.
Monitoring and Troubleshooting IBGP in Transit AS
7. BGP
Route Reflectors
7.1.
Introduction to Route Reflectors
7.2.
Network Design with Route Reflectors
7.3.
Configuring and Monitoring Route Reflectors
8. Advanced
BGP Configuration
8.1.
Limiting the Number of Prefixes Received from a BGP Neighbor
8.2.
AS-Path Prepending
8.3.
BGP Peer Group
8.4.
BGP Route Flap Dampening
9. Scaling IGP and BGP in Service
Provider Networks
9.1.
Common Routing Issues in Service Provider Networks
9.2.
Optical Networking Designs
9.3.
Scaling BGP in Service Provider Networks
CCIP 3.Kur, Deploying QoS, 5
hafta
1. QoS Overview
1.1. QoS: Tuning Bandwidth, Delay, Jitter, and Loss
1.1.1. Bandwidth
1.1.2. Delay
1.1.3. Jitter
1.1.4. Loss
1.2. Traffic Characteristics of Voice, Video,
and Data
1.2.1. Voice Traffic Characteristics
1.2.2. Video Traffic Characteristics
1.3. Data Traffic Characteristics
1.3.1. IP Data Basics
1.3.2. Data Bandwidth Considerations
1.3.3. Data Delay Considerations
1.3.4. Data Jitter Considerations
1.3.5. Data Loss Considerations
1.3.6. Comparing Voice, Video, and Data: Summary
2. QoS Tools and Architectures
2.1. Introduction to IOS QoS Tools
2.1.1. Classification and Marking
2.1.2. Queuing
2.1.3. Shaping and Policing
2.1.4. Congestion Avoidance
2.1.5. Link Efficiency
2.1.6. Call Admission Control and RSVP
2.1.7. Management Tools
2.2. The Good-Old Common Sense QoS Model
2.2.1. GOCS Flow-Based QoS
2.2.2. GOCS Class-Based QoS
2.3. The Differentiated Services QoS Model
2.3.1. DiffServ Specifications and Terminology
2.3.2. DiffServ Per-Hop Behaviors
3. Classification and Marking
3.1. Classification and Marking Concepts
3.1.1. Classification
3.1.2. Marking
3.1.3. Classification and Marking Design Choices
3.2. Classification and Marking Tools
3.2.1. Class-Based Marking (CB Marking)
3.2.2. Committed Access Rate (CAR)
3.2.3. Policy-Based Routing (PBR)
3.2.4. VoIP Dial Peer
4. Congestion Management
4.1. Queuing Concepts
4.1.1. Output Queues, TX Rings, and TX Queues
4.1.2. Queuing on Interfaces Versus Subinterfaces and Virtual
Circuits (VCs)
4.2. Queuing Tools
4.2.1. FIFO Queuing
4.2.2. Priority Queuing
4.2.3. Custom Queuing
4.2.4. Weighted Fair Queuing (WFQ)
4.2.5. Class-Based WFQ (CBWFQ)
4.2.6. Low Latency Queuing (LLQ)
4.2.7. IP RTP Priority
5. Traffic Policing and Shaping
5.1. Traffic-Policing and Traffic-Shaping Concepts
5.1.1. When and Where to Use Shaping and Policing
5.1.2. How Shaping Works
5.1.3. How Policing Works
5.1.4. Traffic-Shaping Tools
5.1.5. Traffic-Policing Tools
6. Congestion Avoidance Through Drop Policies
6.1. Congestion-Avoidance Concepts and Random Early Detection
(RED)
6.1.1. TCP and UDP Reactions to Packet Loss
6.1.2. Tail Drop, Global Synchronization, and TCP Starvation
6.1.3. Random Early Detection (RED)
6.2. Weighted RED (WRED)
6.2.1. How WRED Weights Packets
6.2.2. WRED and Queuing
6.2.3. WRED Configuration
6.2.4. WRED Summary
6.3. Flow-Based WRED (FRED)
6.3.1. FRED Configuration
7. Link-Efficiency Tools
7.1. Payload and Header Compression
7.1.1. Payload Compression
7.1.2. Header Compression
7.1.3. Payload Compression Configuration
7.1.4. TCP and RTP Header Compression Configuration
7.2. Link Fragmentation and Interleaving
7.2.1. Multilink PPP LFI
7.2.2. Frame Relay LFI Using FRF.12
7.2.3. Multilink PPP Interleaving Configuration
7.2.4. Frame Relay Fragmentation Configuration
8. Call Admission Control and QoS Signaling
8.1. Call Admission Control Overview
8.1.1. Call Rerouting Alternatives
8.1.2. Bandwidth Engineering
8.1.3. CAC Mechanisms
8.1.4. CAC Mechanism Evaluation Criteria
8.2. Local Voice CAC
8.2.1. Physical DS0 Limitation
8.2.2. Max-Connections
8.2.3. Voice over Frame Relay—Voice Bandwidth
8.2.4. Trunk Conditioning
8.2.5. Local Voice Busyout
8.3. Measurement-Based Voice CAC
8.3.1. Service Assurance Agents
8.3.2. Advanced Voice Busyout
8.3.3. PSTN Fallback
8.4. Resource-Based CAC
8.4.1. Resource Availability Indication
8.4.2. Cisco CallManager Resource-Based CAC
8.4.3. Gatekeeper Zone Bandwidth
8.4.4. Integrated Services / Resource Reservation Protocol
9. Management Tools and QoS Design
9.1. QoS Management Tools
9.1.1. QoS Device Manager
9.1.2. QoS Policy Manager
9.1.3. Service Assurance Agent
9.1.4. Internetwork Performance Monitor
9.1.5. Service Management Solution
9.1.6. QoS Management Tool Summary
9.2. QoS Design for the Cisco QoS Exams
9.2.1. Four-Step QoS Design Process
9.2.2. QoS Design Guidelines for Voice and Video
10. LAN QoS
10.1. The Need for QoS on the LAN
10.1.1. Buffer Overflow (Overrun)
10.1.2. Marking and Classification
10.1.3. Layer 3-to-Layer 2 Classification Mapping
10.1.4. Layer 2 Queues
10.1.5. Drop Thresholds
10.1.6. Trust Boundries
10.2. Cisco Catalyst Switch QoS Features
10.2.1. Catalyst 6500 QoS Features
10.2.2. QoS Flow on the Catalyst 6500
10.2.3. Catalyst 6500 QoS Summary
10.2.4. Cisco Catalyst 4500/4000 QoS Features
10.2.5. Cisco Catalyst 3550 QoS Features
10.2.6. Cisco Catalyst 3524 QoS Features
10.3. QoS Configurations on Catalyst Switches
10.3.1. Configuration of a Catalyst Switch Using Catalyst OS
10.3.2. Configuration of a Catalyst Switch Using IOS
CCIP 4.Kur, Deploying MPLS, 5
hafta
Ocak 2004'te eğitimlere başlanılacaktır.
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