Cisco CCNP Certification Training Online Courses
Netwind Learning Center Learn Now Cisco ® Online training course consists of the following:
Online Self-Study Course in a full multi-media flash format
- Study at your own pace anytime you want
- Interactive Lab exercises
- Pre and Post exam quizzers
- We also offer Live Online Classes and Live Boot Camp Classes
- 24 x 7 online mentoring support for 1 year
- One year of FREE Upgrades
- 24 x 7 365 days a year online access to training
- Our Money Back Guarantee Call for details
- Our Guarantee to Pass Call for details
Training Covers the Following Courses
|
Cisco CCNP Training Course Online Includes the BSCI, BCNSN, ONT and ISCW
|
knccnpln
|
$799.00
|
|
Includes the Following Four Online Training Courses for the CCNP Certification
Building Cisco Multilayer Switched Networks (BCMSN) | 3.0
Description Building Cisco Multilayer Switched Networks (BCMSN) is recommended for individuals seeking certification as a Cisco
Certified Network Professional. This expert-led course enables learners to implement appropriate technologies to build
scalable multilayer switched networks; create and deploy a global intranet, and implement basic troubleshooting
techniques in environments that use Cisco multilayer switches for client hosts and services. BCMSN also teaches
students how to improve traffic flow, reliability, redundancy, and performance for LAN switching that are self- supported
or transported via service providers. This engaging, hands-on course deftly enables students to achieve a mid-career professional level competency.
Objectives Upon completion of the Building Cisco Multilayer Switched Networks course, the student will be able to:
- Implement multilayer switching in the campus network
- Implement the necessary services at each layer of the network to all users to obtain services in a working multilayer switched network
- Control network traffic by implementing the necessary admission policy at each layer of the network topology
- Troubleshoot an incorrectly configured multilayer switched network
- Explain how service providers implement transparent LAN services to deliver Ethernet connectivity to the customer site
Audience The primary audiences for Building Cisco ® Multilayer Switched Networks are:
- Network administrators and technicians who are responsible for implementing or troubleshooting a multilayer switched network in an enterprise environment.
- CCNP and CCDP candidates
- CCIE candidates
- System Engineers, Account Managers, Channel Partner/Reseller
Prerequisites To fully benefit from BCMSN, students must have the following prerequisite skills and knowledge:
- Basic router configuration
- Basic switch configuration
- Basic VLAN configuration
- Spanning Tree Protocol configuration
- Inter-Switch Link configuration
- Standard access list configuration
- Note: These topics are covered in the Interconnecting Cisco Network Devices (ICND) course. A student enrolled
in the Cisco Career Certification program must be a Cisco Certified Network Associate (CCNA) prior to taking this
course. Students not seeking certification should possess the equivalent skills prior to enrolling in the course.
Included Materials Interactive Self-Paced courses provide:
- Unlimited 24 x 7 access to Campus for the entire program (all courses are launched from a personalized web site that organizes and manages your training experience).
- Hands-on Labs - a perfectly simulated, real-world environment to test skills without risk. Based on availability.
- Engaging course demos and real-world examples
- Access to a variety of training resources and certification information.
Outline Building Cisco Multilayer Switched Networks (BCMSN) Training
- Mod 1: Applying the Enterprise Composite Network Model to Ethernet Networks
1-03 Using Switching and Routing in Ethernet Networks 1-19 Addressing Common Network Problems
1-33 Using Multilayer Switches in the Campus Infrastructure Model 1-45 Using Data-Link Technologies in an Enterprise Composite Network Basic Configs - Access Basic Configs - Distribution
Basic Configs - Core Switch Domain Management (Hybrid)
- Mod 2: Configuring VLANs and VTP
2-03 Implementing VLANs 2-33 Supporting Multiple VLANs between Two Switches 2-47 Defining Trunking Protocols
2-66 Configuring Trunking Protocols 2-81 Maintaining VLAN Consistency Across the Network Configuring VTP/VLANs VTP and VLANs (Hybrid)
- Mod 3: Implementing Spanning Tree Protocol
3-03 Preventing Bridging Loops Using Spanning Tree Protocol 3-13 Defining Spanning Tree Protocol Operations
3-33 Establishing a Loop Free Topology in a New Network 3-51 Configuring Spanning Tree Protocol Implementing STP
- Mod 4: Enhancing Spanning Tree Protocol
4-03 Examining the Spanning Tree Protocol Enhancements 4-19 Accelerating Spanning Tree Convergence
4-44 Configuring Spanning Tree Protocol Enhancements 4-79 Tuning the Spanning Tree Protocol 4-112 Selecting a Troubleshooting Approach Enhancing STP Spanning Tree Protocol and EtherChannel (Hybrid)
- Mod 5: Implementing Multilayer Switching in the Network
5-04 Examining Multilayer Switching 5-26 Configuring Multilayer Switching 5-46 Routing Between VLANs
Layer 3 Services Multilayer Switching
- Mod 6: Improving Availability on Multilayer Switched Networks
6-03 Implementing Module Redundancy in a Multilayer Switched Network
6-28 Implementing Router Redundancy in a Multilayer Switched Network Improving Availability
- Mod 7: Examining Cisco AVVID Services and Applications
7-04 Examining IP Multicast in a Multilayer Switched Network
7-34 Configuring IP Multicast in a Multilayer Switched Network 7-53 Introducing Cisco IP Telephony
- Mod 8: Implementing QoS in Multilayer Switched Networks
8-04 Examining the Cisco QoS Solution 8-54 Configuring QoS in Multilayer Switched Networks Policy Maps for QoS
Egress Queues
- Mod 9: Optimizing and Securing Multilayer Switched Networks
9-04 Optimizing Multilayer Switched Networks 9-28 Securing Multilayer Switched Networks Implementing Security
- Mod 10: Understanding Metro Ethernet
10-04 Examining Metro Ethernet Connectivity Services and Layer 1 Transport Options 10-32 Examining Metro Ethernet Tunneling
Skills This course provides instruction in the use of the following hardware/operating system technologies:
Hardware:
- All Cisco IOS Switches
Software/Operating Systems:
- All Cisco IOS releases
Building Scalable Cisco Internetworks (BSCI) | 3.0
Description Building Scalable Cisco Internetworks (BSCI) 2.1 is a critical course for anyone interested in Cisco networking and/or
Cisco professional certification. Our Cisco experts lead in-depth discussions, and the course includes "real world,"
hands-on exercises focused around the most robust dynamic routing protocols available today for Cisco equipment,
including OSPF, IS-IS, EIGRP, and BGP. BSCI 2.1 also ensures network administrators of medium-to-large network
sites can implement advanced IP addressing designs for scalability of Cisco routers connected to LANs and WANs. A
key goal of the course is to train network administrators to implement a routed network that may feature an increasing
number of routers/sites and guarantee a substantial redesign for the routing infrastructure is never required. Due to the
critical nature of this content, Building Scalable Cisco Internetworks is a prerequisite for many other advanced Cisco
courses and is considered an absolute must for any individual contemplating the Cisco Certified Internetwork Expert (CCIE) designation.
Objectives Upon completion of the Building Scalable Cisco Internetworks (BSCI) course, the student will be able to:
- Understand and implement advanced IP addressing techniques including variable-length subnet masking (VLSM),
route summarization, classless interdomain routing (CIDR), basic IP version 6 (IPv6), and Network Address Translation (NAT) with route maps
- Identify advanced IP routing principles, including static and dynamic routing characteristics, classless versus classful routing protocols, and network boundary summarization
- Configure Enhanced Interior Gateway Routing Protocol (EIGRP) for a scalable Cisco network
- Configure Open Shortest Path First (OSPF) for a scalable, multiarea network
Configure Intermediate System-to-Intermediate System (IS-IS) for a scalable, multiarea network
- Manipulate routing updates and packet flow using advanced techniques such as redistribution, distribution lists, administrative distance, route maps, and policy-based routing
- Configure basic Border Gateway Protocol (BGP) for internal and external Border Gateway Protocol connections
- Describe Network Address Translation (NAT) using route maps, and elaborate on problems solved with this technology
Audience This course is a necessity for any student that desires to learn more about Cisco networking - especially the
implementation of scalable, routed networks. This course is also recommended for any student interested in professional level Cisco certifications or beyond.
Prerequisites The BSCI course focuses on the technology required for enabling scalable routed networks. To fully benefit from this
course, the student must be familiar with general networking concepts and have Cisco router operation and configuration
experience. In addition, the course requires an understanding of TCP/IP and routing protocols, standard and extended
access lists, PPP configuration over serial links, and Frame Relay operation and configuration on interfaces and sub
-interfaces. Successful completion of the following courses (or equivalent experience) is strongly recommended:
- Introduction to Cisco Networking Technologies (INTRO)
- Interconnecting Cisco Network Devices (ICND)
Included Materials Interactive Self-Paced courses provide:
- Unlimited 24 x 7 access to Campus for the entire program (all courses are launched from a personalized web site that organizes and manages your training experience).
- Hands-on Labs - a perfectly simulated, real-world environment to test skills without risk. Based on availability.
- Engaging course demos and real-world examples
- Access to a variety of training resources and certification information.
Outline: Building Scalable Cisco Internetworks (BSCI)
- Chap 1: Advanced IP Addressing
1-03 Purpose of Address Planning 1-23 Hierarchical Addressing Using Variable-Length Subnet Masks
1-41 Route Summarization and Classless Interdomain Routing 1-56 Understanding IP Version 6 1-81 Network Address Translation 1-92 Summary Verifying Basic Connectivity Configuring NAT
- Chap 2: Routing Principles
2-03 IP Routing Overview 2-21 Characteristics of Routing Protocols 2-47 IP Routing Protocols Comparison 2-59 Summary
Configuring RIP Version 2
- Chap 3: Configuring Enhanced Interior Gateway Routing Protocol (EIGRP)
3-03 EIGRP Overview 3-21 EIGRP Operations 3-45 EIGRP Diffusing Update Algorithm
3-63 Configuring and Verifying EIGRP 3-81 Advanced EIGRP Configuration Options 3-99 EIGRP in a Scalable Network 3-120 Summary Configuring and Tuning EIGRP
- Chap 4: Configuring the Open Shortest Path First Protocol
4-03 Open Shortest Path First Protocol Overview 4-21 Open Shortest Path First Packet Types
4-41 Configuring Basic Open Shortest Path First 4-59 Open Shortest Path First Network Types 4-93 Types of OSPF Routers and LSAs 4-115 OSPF Route Summarization Techniques 4-133 OSPF Special Area Types
4-153 OSPF Virtual Links 4-164 Summary Configuring and Verifying Single Area OSPF Configuring OSPF for Frame Relay Configuring Multi-Area OSPF Configuring OSPF Summarization and Stub Areas
Configuring OSPF Virtual Links
- Chap 5: Configuring the IS-IS Protocol
5-03 Overview of IS-IS Routing and CLNS 5-25 Understanding CLNS Addressing 5-37 Basic Operations of IS-IS in a CLNS Environment
5-69 Basic Operations of Integrated IS-IS in an IP and CLNS Environment 5-89 Configuring Basic Integrated IS-IS 5-104 Summary Configuring Integrated IS-IS
- Chap 6: Manipulating Routing Updates
6-03 Migration and Route Selection Between Multiple IP Routing Protocols 6-29 Configuring and Verifying Route Redistribution
6-55 Controlling Routing Update Traffic 6-69 Using Route Maps to Control Routing Updates 6-85 Using Administrative Distance to Influence the Route Selection Process 6-101 Policy-Based Routing
6-120 Summary Configuring Advanced Redistribution Configuring Policy-Based Routing
- Chap 7: Configuring Basic Border Gateway Protocol
7-03 BGP Overview 7-19 BGP Concepts and Terminology 7-33 Basic Border Gateway Protocol Operations
7-79 BGP Route Summarization 7-99 BGP Path Selection Process 7-119 Basic BGP Path Manipulation Using Route Maps 7-143 Design Options for Multihoming 7-157 Summary Configuring Basic BGP
Advanced BGP Configuration
Skills This course provides instruction in the use of the following hardware/operating system technologies:
|