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Course. Contact us at: Information 1/8. Introducing Cisco Data Center Networking No. Days: 4. Course Code

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Information

Price Free

Course Code

No. Courses: 2

Course

Introducing Cisco Data Center Networking No. Days: 4

Introducing Cisco Data Center Technologies No. Days: 5

Contact us at:

Telephone: 888-305-1251

Email: [email protected], [email protected] Address: 24 Inverness Place East Englewood, CO 80112 United States Telephone: 888-305-1251

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Introducing Cisco Data Center

Networking

Information

Length: 4 Days

Course code: CI-DCICN

Price: $3,295

Description

This course introduces you to the Cisco technologies that are deployed in the Data Center. The introductory level of content is focused on basic concepts like Ethernet, the OSI Layer Model, and TCP/IP. It then takes you through basic configuration tasks, including VLANs, network addressing, and subnet masks. Together with Introducing Cisco Data Center Technologies (DCICT), this course prepares you for the CCNA Data Center certification.

Authorized Cisco training provided through Arrow's partnership with Fast Lane.

Objectives

Upon completing this course, you will be able to meet these overall objectives:

Describe how a network works 

Configure, verify, and troubleshoot a switch with VLANs and interswitch communications 

Implement an IP addressing scheme and IP services to meet network requirements 

Configure, verify, and troubleshoot routing operations on Cisco Nexus switches 

Participants

The primary audience for this course is as follows: Network administrators

Network engineers Cisco Integrators/Partners Systems engineers 

The primary audience for this course is as follows: 

Network administrators Network engineers Cisco Integrators/Partners Systems engineers 

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Network designers Network managers Consulting systems engineers Technical solutions architects

Prerequisite(s)

The knowledge and skills that you must have before attending this course are as follows: 

Basic computer literacy Basic knowledge of Microsoft Windows operating systems Basic Internet usage skills

Course Outline

1: Simple Network Design

Understanding the Functions of Networking What Is a network? Common Physical Components of a Network Interpreting a Network Diagram Resource-Sharing Functions and Benefits Network User Applications Impact of User Applications on the Network Characteristics of a Network Physical Topologies Connection to the Internet 

Understanding the Host-to-Host Communications Model Understanding Host-to-Host Communications OSI Reference Model OSI Model Layers and Their Functions Encapsulation and De-Encapsulation Peer-to-Peer Communication TCP/IP Suite 

Describing Ethernet Connections Ethernet LAN Hardware Ethernet Transceivers and Cables UTP Implementation 

Describing Ethernet Communications Standards Definition of a LAN Components of a LAN Functions of a LAN Ethernet Ethernet LAN Standards Role of CSMA/CD in Ethernet Ethernet Frames Ethernet Frame Addressing Ethernet Addresses MAC Addresses and Binary-Hexadecimal Numbers  Describing OSI Network Layer Addressing IP Overview IP Addressing Public and Private IP Addresses DHCP Method Domain Name System Using Common Host Tools to Determine the IP Address of a Host 

Describing the TCP/IP Transport Layer Transport Layer Functions Reliable vs. Best–Effort UDP Characteristics TCP Characteristics TCP/IP Applications Mapping Layer 3 to Layer 4 Mapping Layer 4 to Applications Establishing a Connection with a Peer System Flow Control TCP Acknowledgment Windowing TCP Sequence Number and Acknowledgment Numbers 

Describing the Packet Delivery Process Layer 1 Devices and Their Function Layer 2 Devices and Their Function Layer 2 Addressing Layer 3 Devices and Their Function Layer 3 Addressing Mapping Layer 2 Addressing to Layer 3 Addressing ARP Table Host-to-Host Packet Delivery Function of the Default Gateway Using Common Host Tools to Determine the Path Between Two Hosts Across a Network 

2: Switched Network Implementation

Describing Switching Understanding the Challenges of Shared LANs Solving Network Challenges with Switched LAN Technology 

Describing the Packet Delivery Process Layer 2 Addressing Layer 3 Addressing Host-to-Host Packet Delivery 

Describing Cisco NX-OS Software Cisco NX-OS Software Architecture Cisco NX-OS Process Recovery 

Operating Cisco NX-OS Software Describing the Features of the CLI Identifying the Help Functions of the CLI Describing the Startup Characteristics of the Switch Describing Configuration Management 

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Implementing VLANs and Trunks Understanding VLANs Understanding Trunking with 802.1Q Understanding VTP Configuring VTP, Trunks, and VLANs 

Building a Redundant Switched Topology Recognizing Issues of a Redundant Switched Topology Resolving Issues with STP Describing 802.1w RSTP Describing 802.1s MSTP Describing LAN Port Channels Verifying LAN Port Channels 

3: IP Addressing

Describing an IP Addressing Scheme Describing Routing Understanding Numbering Systems Constructing a Network Addressing Scheme 

Transitioning to IPv6 Reasons for Using IPv6 Understanding IPv6 Addresses Assigning IPv6 Addresses Strategies for Implementing IPv6 

4: Routing on the Cisco Nexus Switch

Exploring the Packet Delivery Process Host-to-Host Packet Delivery Cisco NX-OS Tools 

Exploring the Routing Process on Cisco Nexus Switches Traditional Inter-VLAN Routing Multilayer Switching Routing Tables Distance Vector Routing Protocols Link-State Routing Protocols 

Exploring Routing Protocols on Cisco Nexus Switches Routing Information Protocol Open Shortest Path First Enhanced Interior Gateway Routing Protocol 

Exploring ACLs on Cisco Nexus Switches Understanding ACLs ACL Processing Configuring ACLs Understanding Object Groups 

Course Labs

Lab 1-1: Using Windows Applications as Network Tools Lab 1-2: Observing the TCP Three-Way Handshake Lab 1-3: Observing Extended PC Network Information Lab 2-1: Connecting to Cisco Nexus Switches Lab 2-2: Configuring Cisco Nexus Switches Lab 2-3: Configuring VLANs and Trunks Lab 2-4: Verifying and Configuring Spanning Tree Lab 2-5: Configuring EtherChannel Lab 3-1: Converting Decimal to Binary and Binary to Decimal Lab 3-2: Classifying Network Addressing Lab 3-3: Computing Usable Subnetworks and Hosts Lab 3-4: Calculating Subnet Masks Lab 4-1: Configuring Multilayer Switching

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Introducing Cisco Data Center

Technologies

Information

Length: 5 Days

Course code: CI-DCICT

Price: $3,695

Description

This course expands on what you learned in Introducing Cisco Data Center Networking (DCICN), introducing you to unified computing, unified fabric, and network services. You will learn about the Cisco Nexus, MDS and UCS product families, and how they fit into Data Center network designs. These courses prepare you for the CCNA Data Center certification.

Authorized Cisco training provided through Arrow's partnership with Fast Lane.

Objectives

Upon completing this course, you will be able to meet these overall objectives: 

Describe and verify Cisco data center fundamentals  Describe Cisco data center virtualization 

Describe Cisco data center storage networking  Describe Cisco data center unified fabric  Describe and verify Cisco UCS

Participants

The primary audience for this course is as follows: Network designers

Network engineers

Technical solutions architects Systems engineers

Cisco Integrators/Partners

The primary audience for this course is as follows: 

Network designers Network engineers Technical solutions architects Systems engineers Cisco Integrators/Partners 

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Network administrators Storage administrators Server administrators Network managers

Prerequisite(s)

The knowledge and skills that you should have before attending this course are as follows: 

Introducing Cisco Data Center Networking (DCICN) or equivalent knowledge

Course Outline

1: Cisco Data Center Network Services

Examining Functional Layers of the Data Center Traditional Isolated LAN and SAN Networks LAN Core, Aggregation, and Access Layers Core and Access Layers in a LAN Collapsed Core Design Core and Edge Layers in a Data Center SAN Design Collapsed-Core SAN Design 

Reviewing the Cisco Nexus Product Family Cisco Nexus Data Center Product Portfolio Cisco Nexus 7000 Series Chassis Options Cisco Nexus 7000 Series Supervisor Module Cisco Nexus 7000 Series Licensing Options Cisco Nexus 7000 Series Fabric Modules Cisco Nexus 7000 Series I/O Modules Cisco Nexus 7000 Series Power Supply Options Cisco Nexus 5000 Series Chassis Options Cisco Nexus 5010 and 5020 Switches Features Cisco Nexus 5010 and 5020 Expansion Modules Cisco Nexus 5500 Platform Switches Features Cisco Nexus 5500 Platform Switches Expansion Modules Cisco Nexus 5000 Switch Series Software Licensing Cisco Nexus 2000 Series Fabric Extenders Function in the Cisco Data Center Cisco Nexus 2000 Series Fabric Extenders Features 

Reviewing the Cisco MDS Product Family Cisco MDS 9000 Series Product Suite Cisco MDS 9500 Series Chassis Options Cisco MDS 9500 Series Supervisor Modules Cisco MDS 9500 Series Licensing Options Cisco MDS 9000 Series Switching Modules Cisco MDS 9500 Series Power Supply Options Cisco MDS 9100 Series Switches Cisco MDS 9222i Switch 

Monitoring the Cisco Nexus 7000 and 5000 Series Switches Connecting to the Console Port Running the Initial Setup Script Connecting to the Cisco Nexus 7000 CMP Connecting to the Switch Using SSH to Connect to the Management VRF Reviewing the ISSU on the Cisco Nexus Switches Verifying VLANs Examining the Operational Plane Reviewing Cisco NX-OS Default Control Plane Policing Using Important CLI Commands 

Describing vPCs and Cisco FabricPath in the Data Center Virtual Port Channels Verifying vPCs Cisco FabricPath Verifying Cisco FabricPath  Using OTV on Cisco Nexus 7000 Series Switches OTV on the Cisco Nexus 7000 Series Switches Verifying OTV on the Cisco Nexus 7000 Series Switches 

2: Cisco Data Center Virtualization

Virtualizing Network Devices Describing VDCs on the Cisco Nexus 7000 Series Switch Verifying VDCs on the Cisco Nexus 7000 Series Switch Navigating Between VDCs on the Cisco Nexus 7000 Series Switch Describing NIV on Cisco Nexus 7000 and 5000 Series Switches 

Virtualizing Storage LUN Storage Virtualization Storage-System Virtualization 

Virtualizing Server Solutions Benefits of Server Virtualization Available Data Center Server Virtualization Solutions 

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Using the Cisco Nexus 1000V Series Switch Limitations of VMware vSwitch Advantages of VMware vDS How the Cisco Nexus 1000V Series Switch Brings Network Visibility to the VM Level How the VSM and VEM Integrate with VMware ESX or ESXi and vCenter 

Verifying Setup and Operation of the Cisco Nexus 1000V Series Switch Verify the Initial Configuration and Module Status on the Cisco Nexus 1000V Series Switch Verifying the VEM Status on the ESX or ESXi Host Validating VM Port Groups 

3: Cisco Data Center Storage Networking

Comparing Storage-Connectivity Options in the Data Center Comparing Block- and File-Based Network Storage NFS, Fibre Channel, iSCSI, and SCSI SCSI Evolution from DAS to SAN 

Describing Fibre Channel Storage Networking Fibre Channel SAN Topologies Fibre Channel Port Types Fibre Channel Addressing Fibre Channel Layered Model FCNS and the FLOGI process Fibre Channel Zoning and LUN Masking 

Verifying Fibre Channel Communications on Cisco MDS 9000 Series Multilayer Switches Configure a Cisco MDS 9000 Series Multilayer Switch from the CLI Setup Script Update the Cisco NX-OS on a Cisco MDS 9000 Series Multilayer Switch Update Licensed Features on the Cisco MDS 9000 Series Multilayer Switch Verify Initiator and Target Fabric Login Verify Fibre Channel Zoning on a Cisco MDS 9000 Series Multilayer Switch Collect Technical Support Data on a Cisco MDS 9000 Series Multilayer Switch  4: Cisco Data Center Unified Fabric

Describing DCB Unified Fabric Benefits IEEE Standards That Enable FCoE Priority Flow Control Enhanced Transmission Selection DCB Exchange  Identifying Connectivity Options for FCoE on the Cisco Nexus 5000 Series Switch SFP modules Cabling Requirements and Distance Limitations for Common SFP and SFP+ Transceivers Connecting the Cisco UCS P81E Virtual Interface Card to Cisco Nexus 5500UP Unified Fabric Switches Connecting the Cisco Nexus 5500UP Unified Fabric Switch to Northbound LAN and SAN Fabrics 

Describing Enhanced FCoE Scalability with Cisco Nexus 2232 10GE Fabric Extenders Scaling the Data Center Virtualized Access Layer with the Cisco Nexus 2232 10GE Fabric Extenders Cisco Nexus 2232 10GE Fabric Extender-to-Cisco Nexus 5500 Switch Connectivity Adapter FEX on the Cisco Nexus 2232 10GE Fabric Extender Verifying Adapter FEX on the Cisco Nexus 2232 10GE Fabric Extender 

5: Cisco UCS

Describing the Cisco UCS B-Series Product Family Cisco UCS 6100 and 6200 Series Fabric Interconnects Cisco UCS 5108 Blade Server Chassis Cisco UCS B200 M3 Blade Server Cisco UCS B230 M2 Blade Server Cisco UCS B250 M2 Extended Memory Blade Server Cisco UCS B440 M2 High-Performance Blade Server Mezzanine Card Options for Cisco UCS B-Series Blade Servers Memory Population Guidelines for Cisco UCS B-Series Blade Servers 

Describing the Cisco UCS C-Series Product Family Cisco UCS C-Series Product Family Cisco UCS C200 M2 High-Density Rack Server Cisco UCS C210 M2 General-Purpose Rack Server Cisco UCS C220 M3 Rack Server Cisco UCS C240 M3 Rack Server Cisco UCS C250 M2 Extended-Memory Rack Server Cisco UCS C260 M2 Rack Server Cisco UCS C460 M2 High-Performance Rack Server PCIe Adapter Options for Cisco UCS C-Series Rack Servers RAID Adapter Options for Cisco UCS C-Series Rack Servers Memory Population Guidelines for Cisco UCS C-Series Rack Servers 

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Connecting Cisco UCS B-Series Blade Servers Chassis-to-Fabric

Interconnect Physical Connectivity I/O Module Architectures Cisco Integrated Management Controller Chip on Cisco UCS B-Series Blade Servers Three Basic Port Personalities in the Fabric Interconnect Discovery Process 

Setting up an Initial Cisco UCS B-Series Cluster Cabling a Cisco UCS Fabric Interconnect Cluster Initial Setup Script for the Primary Peer Initial Setup Script for the Secondary Peer Verifying a Fabric Interconnect Cluster  Describing Cisco UCS Manager Operations Cisco UCS Manager Layout of the Cisco UCS Manager GUI Navigation Window Tabs Device Discovery in Cisco UCS Manager Verifying Device Discovery in UCS Manager 

Describing Cisco UCS Manager Pools, Policies, Templates, and Service Profiles Benefits of Stateless Computing Using Identity Pools in Service Profiles Using Service Profile Templates to Enable Rapid Provisioning and Consistent Application of Policy Creation of Policies for Service Profiles and Service Profile Templates Chassis and Blade Power Capping 

Course Labs

Lab 1-1: Connecting to a Cisco Nexus 7000 Series Switch Using SSH Lab 1-2: Connecting to a Cisco Nexus 5000 Series Switch Using SSH Lab 1-3: Running CLI Commands Lab 1-4: Configuring vPCs Lab 1-5: Validating Cisco FabricPath Configuration Lab 1-6: Validating OTV Configuration Lab 2-1: Verifying Current VDC Settings Lab 2-2: Validating a Cisco Nexus 2000 Series Fabric Extender Configuration Lab 2-3: Validating a Cisco Nexus 1000V Series Switch Configuration Lab 3-1: Validating a Cisco MDS 9100 Series Multilayer Fabric Switch License Lab 3-2: Configuring VSANs and Zoning Lab 3-3: Validating FLOGI and FCNS Lab 3-3: Viewing the tech-support Command Output Lab 4-1: Validating the Physical Connections for FCoE Lab 5-1: Exploring the Cisco UCS Manager GUI Lab 5-2: Creating a Service Profile from a Template and Performing VMware ESXi 5.0 SAN Boot

References

Related documents

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