203 Cisco Certified Network Professional certification (CCNP) courses delivered Online

Duration 5 Days 30 CPD hours This course is intended for Network engineer Systems engineer Wireless engineer Technical solutions architect Network administrator Wireless design engineer Network manager Overview After taking this course, you should be able to: Describe and implement foundational wireless theory Describe and implement basic wireless security and client access Describe and implement a Cisco wireless network architecture Configure Cisco centralized wireless networks Describe and implement WLAN maintenance and troubleshooting Thisÿcourse gives you the knowledge and skills you need to position, plan, implement, operate, and manage a Cisco WLAN network. This course teaches you how to design, install, configure, monitor, and conduct basic troubleshooting tasks on a Cisco WLAN network of any size. Course Outline DESCRIBING AND IMPLEMENTING FOUNDATIONAL WIRELESS THEORY DESCRIBING AND IMPLEMENTING FOUNDATIONAL WIRELESS MATH AND ANTENNAS DESCRIBING AND IMPLEMENTING FOUNDATIONAL WIRELESS OPERATION DESCRIBING AND IMPLEMENTING BASIC WIRELESS SECURITY DESCRIBING AND IMPLEMENTING 802.1X AND EAP IMPLEMENTING WIRELESS GUEST ACCESS AND CONFIGURING WIRELESS SECURITY DESCRIBING AND IMPLEMENTING CISCO WIRELESS NETWORK ARCHITECTURE DESCRIBING AND IMPLEMENTING CISCO WIRELESS NETWORK DESCRIBING AND IMPLEMENTING CISCO WIRELESS NETWORK WIRED SUPPORT CONFIGURING CISCO CENTRALIZED WIRELESS NETWORKS DESCRIBING AND IMPLEMENTING WLAN MAINTENANCE AND TROUBLESHOOTING

Duration 4 Days 24 CPD hours This course is intended for Technical decision makers Network architects Data center systems engineers Field engineers Overview After taking this course, you should be able to: Discover and describe the Cisco Multilayer Director Switch (MDS) platform of multilayer switches and directors Provision Cisco MDS Switches Describe key product features of the MDS platform Describe and implement automation an Cisco MDS Switches Configure and implement the Cisco MDS switches and platform features Resolve issues and troubleshoot FC domains, zones and zone merges, and switch boot and firmware upgrades The Configuring Cisco MDS 9000 Series Switches (DCMDS) v3.6 course teaches you to implement, manage, and troubleshoot Cisco© MDS 9000 Series Switches to build highly available, scalable storage networks. Through expert instruction and extensive hands-on practice, you will learn how to deploy and utilize capabilities such as Virtual Storage Area Networks (VSANs), Role-Based Access Control (RBAC), N-Port Virtualization (NPV) fabric security, zoning, automation with NX-API, Slow Drain Analysis, SAN analytics, Fibre Channel over TCP/IP (FCIP) tunnels, and more. You will learn how to configure and implement platform features and learn troubleshooting techniques pertaining to Fibre Channel (FC) domains, firmware upgrades, zones, and zone mergers.This course helps you prepare to take the 300-625 Implementing Cisco Storage Area Networking (DCSAN) exam, which leads to CCNP Data Center and the Certified Specialist - Data Center SAN Implementation certifications. Course Outline Describing Cisco MDS Platform Provisioning Cisco MDS Switches Building the Fibre Channel Fabric with Cisco MDS Switches Automating Cisco MDS Fabric Monitoring and Reporting Cisco MDS Features Troubleshooting Common Cisco MDS Issues

Duration 5 Days 30 CPD hours This course is intended for This course benefits individuals responsible for configuring and monitoring devices running the Junos OS. Overview After successfully completing this course, you should be able to: Describe the various OSPF link-state advertisement (LSA) types. Explain the flooding of LSAs in an OSPF network. Describe the shortest-path-first (SPF) algorithm. Describe OSPF link metrics. Describe the various OSPF authentication methods. Explain the differences between OSPFv2 and OSPFv3. Describe OSPF area types and operations. Configure various OSPF area types. Summarize and restrict routes. Configure OSPF multi-area adjacencies. Configure OSPF virtual links. Explain OSPF external reachability. List useful commands that are used to troubleshoot and verify OSPF. Isolate different OSPF issues. Describe BGP operations. Configure various BGP options. Explain the route selection process for BGP. Describe how to alter the route selection process. Explain the use of routing policies in BGP. Explain how BGP routes are processed. Describe the various BGP attributes and their use. Manipulate common BGP attributes. Review common BGP troubleshooting procedures. List common BGP troubleshooting commands. Identify issues with BGP peering. Explain reasons to use BGP in the Enterprise. Explain how ISP policies can influence external connectivity. Describe three common routing policies for external connectivity in the enterprise. Identify common commands for troubleshooting routing policy. Describe basic multicast terminology. Describe the multicast address space. Describe how RPF is used in a multicast network. Describe the basic functionality of IGMP. Describe the multicast service models and modes. Describe PIM-SM operation and configuration when using the ASM model. Describe PIM-SM operation and configuration when using the SSM model. Verify and troubleshoot multicast. Identify environments that may require a modified CoS implementation. Describe the various CoS components and their respective functions. Explain the CoS processing along with CoS defaults on SRX Series devices. Describe situations in which some CoS features are used in the enterprise. Describe the use of the Real-Time Performance Monitoring tool. Verify and troubleshoot CoS. Describe a traditional Campus network design. Understand the need for a new architectural design. Describe the five key concepts of the Evolved Core. Describe the benefits of a Layer 3-based Campus Networks. Describe Layer 2 tunneling. Explain VXLAN functionality. Describe VXLAN gateways. Describe EVPN features. Describe EVPN operations. This five-day course is designed to provide students with the tools required for implementing, monitoring, and troubleshooting Layer 3 components in an enterprise network. Chapter 1: Course Introduction Course Introduction Chapter 2: OSPF OSPFv2 Review Link-State Advertisements Protocol Operations OSPF Authentication OSPFv3 Lab 1: Configuring and Monitoring OSPF Chapter 3: OSPF Areas Review of OSPF Areas Stub Area Operation Stub Area Configuration NSSA Operation NSSA Configuration Route Summarization Lab 2: Configuring and Monitoring OSPF Areas and Route Summarization Chapter 4: Advanced OSPF Options OSPF Multi-Area Adjacencies Virtual Links External Reachability Lab 3: Configuring and Monitoring Routing Policy and Advanced OSPF Options Chapter 5: Troubleshooting Troubleshooting LSDB Consistency Issues Case Study: Adjacency Issues Lab: Troubleshooting OSPF Chapter 6: BGP Review of BGP BGP Configuration Options BGP Operations BGP Path Selection and Options Lab: Implementing BGP Chapter 7: BGP Attributes and Policy Policy and BGP BGP Attributes Details and Manipulation of Common BGP Path Attributes Lab: BGP Attributes Chapter 8: Troubleshooting BGP BGP Troubleshooting BGP Case Study Lab: Troubleshooting BGP Chapter 9: Enterprise Routing Policies Enterprise BGP Core Network Design Enterprise External Network Deployment Lab: Implementing Enterprise Routing Policies Chapter 10: Troubleshooting Policies Routing Policy Structure Using RegEx Routing Policy Troubleshooting Case Study Lab: Troubleshooting Routing Policies Chapter 11: Introduction to Multicast Overview of Multicast Multicast Addressing RPF IGMP Lab: PIM-SM Chapter 12: Multicast Routing Protocols and SSM Overview of Multicast Routing Protocols PIM-SM Using the ASM Model PIM-SM Using the SSM Model Lab: Implementing PIM-SM Lab: Implementing SSM Chapter 13: Troubleshooting Multicast Multicast Troubleshooting Multicast Case Study Lab: Troubleshooting Multicast Chapter 14: Class of Service CoS Components Review and Case Study CoS Processing and CoS Defaults on the SRX Series Device Policing Virtual Channels Monitoring with Resource Performance Monitoring Lab 9: Implementing CoS Features in the Enterprise Chapter 15: Troubleshooting Class of Service CoS Troubleshooting CoS Case Study Lab: Troubleshooting Class of Service Chapter 16: Enterprise Architectures Traditional Enterprise Networks A New Architecture Key Concepts of the Evolved Core IP Fabric Campus Design Chapter 17: VXLAN Layer 2 Connectivity over a Layer 3 Network VXLAN Overview VXLAN Gateways Chapter 18: EVPN-VXLAN Overview of EVPN EVPN Operations EVPN and VXLAN Chapter 19: Configuring EVPN-VXLAN Configuring EVPN-VXLAN Spine Only network Add IP Fabric leaf nodes to a Spine Only design Configuring a new IP Fabric EVPN-VXLAN network Chapter 20: Migrating to an IP Fabric EVPN Routes Useful EVPN Commands Appendix A: BGP Route Reflection Route Reflection Operation Configuration and Routing Knowledge Lab: BGP Route Reflection (Optional) Appendix B: Troubleshooting IS-IS IS-IS Troubleshooting Lab: Troubleshooting IS-IS and Mixed Environments Additional course details: Nexus Humans AJER - Advanced Junos Enterprise Routing training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the AJER - Advanced Junos Enterprise Routing course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.

Duration 5 Days 30 CPD hours This course is intended for Network engineers and technicians that are working in the enterprise sector. Overview - Describe the factors that led to the development of IPv6 and possible uses of this new IP structure - Describe the structure of the IPv6 address format, how IPv6 interacts with data link layer technologies, and how IPv6 is supported in Cisco IOS Software - Implement IPv6 services and applications - Understand the updates to IPv4 routing protocols needed to support IPv6 topologies - Understand multicast concepts and IPv6 multicast specifics - Evaluate the scenario and desired outcome and identify the best transition mechanism for the situation - Describe security issues, how security for IPv6 is different than for IPv4, and emerging practices for IPv6-enabled networks - Describe the standards bodies that define IPv6 address allocation, in addition to one of the leading IPv6 deployment issuesâ€'multihoming - Describe the deployment strategies that service providers might consider when deploying IPv6 - Describe case studies for enterprise, service provider, and branch networks This course is a five-day course aimed at providing network engineers and technicians that are working in the enterprise sector with the knowledge and skills that are needed to study and configure Cisco IOS Software IPv6 features. Introduction to IPv6 Explaining the Rationale for IPv6 Evaluating IPv6 Features and Benefits Understanding Market Drivers IPv6 Operations Understanding the IPv6 Addressing Architecture Describing the IPv6 Header Format Enabling IPv6 on Hosts Enabling IPv6 on Cisco Routers Using ICMPv6 and Neighbor Discovery IPv6 Services IPv6 Mobility Describing DNS in an IPv6 Environment Understanding DHCPv6 Operations Understanding QoS Support in an IPv6 Environment Using Cisco IOS Software Features IPv6-Enabled Routing Protocols Routing with RIPng Examining OSPFv3 Examining Integrated IS-IS Examining EIGRP for IPv6 Understanding MP-BGP Configuring IPv6 Policy-Based Routing Configuring FHRP for IPv6 Configuring Route Redistribution IPv6 Multicast Services Implementing Multicast in an IPv6 Network Using IPv6 MLD IPv6 Transition Mechanisms Implementing Dual-Stack Describing IPv6 Tunneling Mechanisms IPv6 Security Configuring IPv6 ACLs Using IPsec, IKE, and VPNs Discussing Security Issues in an IPv6 Transition Environment Understanding IPv6 Security Practices Configuring Cisco IOS Firewall for IPv6 Deploying IPv6 Examining IPv6 Address Allocation Understanding the IPv6 Multihoming Issue Identifying IPv6 Enterprise Deployment Strategies IPv6 and Service Providers Identifying IPv6 Service Provider Deployment Understanding Support for IPv6 in MPLS Understanding 6VPE Understanding IPv6 Broadband Access Services IPv6 Case Studies Planning and Implementing IPv6 in Enterprise Networks Planning and Implementing IPv6 in Service Provider Networks Planning and Implementing IPv6 in Branch Networks Lab Exercises Lab 2-1: Enabling IPv6 on Hosts Lab 2-2: Using Neighbor Discovery Lab 3-1: Using Prefix Delegation Lab 4-1: Routing with OSPFv3 Lab 4-2: Routing with IS-IS Lab 4-3: Routing with EIGRP Lab 4-4: Routing with BGP and MP-BGP Lab 5-1: Multicasting Lab 6-1: Implementing Tunnels for IPv6 Lab 7-1: Configuring Advanced ACLs Lab 7-2: Implementing IPsec and IKE Lab 7-3: Configuring Cisco IOS Firewall Lab 9-1: Configuring 6PE and 6VPE Configuration Files Summary Lab Activity Solutions Teardown and Restoration Additional course details: Nexus Humans Cisco IPv6 Fundamentals, Design and Deployment 3.0 (IP6FD) training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the Cisco IPv6 Fundamentals, Design and Deployment 3.0 (IP6FD) course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.

Duration 3 Days 18 CPD hours This course is intended for This course is designed for technical professionals who need to know how to deploy a Cisco NCS 2000 Series Dense Wavelength-Division Multiplexing (DWDM) network with Flex Spectrum. The primary audience for this course includes: Designers Systems engineers and implementation staff Network operations center personnel Technical support personnel who are involved with the deployment, operations, and maintenance of the Cisco NCS 2000 Series Channel partners and resellers Overview After taking this course, you should be able to: Describe the hardware and components required and used with the Flex Spectrum feature Design optical networks in the Cisco Transport Planner software Install the hardware, including multishelf nodes Perform node turn-up and create circuits using the Cisco Transport Controller software Configure optical networks with multidegree ROADM multishelf nodes Configure optical networks with colorless, contentionless, omnidirectional, and MPO cross-connect advanced features Describe and configure the NCS 2000 400-Gbps Xponder line card Add a node to an existing DWDM ring Describe the NCS 2000 Troubleshooting Guide Use the features and documentation with Transport Controller to perform maintenance, testing, and basic troubleshooting The Cisco NCS2000 Deploying 96-Channel Flex Spectrum (OPT201) v3.0 course shows you how to plan, configure, and control optical networks using the Cisco© Network Convergence System (NCS) 2000 series Flex Spectrum platform.The course teaches you how to design Flex Spectrum networks with multi-degree Reconfigurable Optical Add-Drop Multiplexer (ROADM) multi-shelf nodes using the Cisco Transport Planner (CTP) software. Course Outline DWDM and Flex Spectrum Foundation NCS 2000 Chassis and Cards Design ROADM Networks with CTP Hardware Installation and Multishelf Node Turn-Up and Circuit Creation Advanced Feature Networks and Circuits Testing, Maintenance, and Basic Troubleshooting Spectrum Switched Optical Network

Duration 5 Days 30 CPD hours This course is intended for For those seeing to prepare for CCIE Enterprise Infrastructure certification Overview This course will help prepare for CCIE Enterprise Infrastructure certification The new CCIE Enterprise Infrastructure certification program prepares you for today?s expert-level job roles in enterprise infrastructure technologies. CCIE Enterprise Infrastructure now includes automation and programmability to help you scale your enterprise infrastructure. VTP VTP and different versions Pruning EtherChannel LACP Layer 2 and Layer 3 Spanning Protocol 1d, 802.1w, and 802.1s SPAN, RSPAN, and ERSPAN DMVPN All Phases Redundancy: Two Clouds One Hub Two Hubs one Cloud Two hubs two Clouds Running Routing Protocols DMVPN over MPLS EIGRP RD, CD, S, FC, FS, and FD Configuration, and hidden debugging Authentications: MD5, and SHA, Summarization Load Balancing:Equal Cost, Unequal Cost, Add-Path, Filtering, Default Route Injection Optimization: Query Propagation Boundary, IP FRR, STUB routing (All Options) Metric: Classic, Wide Metric Route Tags: Decimal and Dotted-Decimal Notations, OTP OSPFv2 Overview and special cases GRE or Virtual-Links LSAs, FA, and RFCs (1583, 1587, 2328, 3101, 5185 and many more) Best Path Selection Network Types Area Types Optimization: GTSM, LFA, Default Route Injection Authentication: RFC 2328, RFC 5709, Summarization, Filtering BGP States Establishing a Peer Session: Regular method,Peer-Groups,Templates,Best Path Selection Attributes: Weight, AS-Path, Origin, Next-Hop, Local-Preference, Atomic-Aggregate Communities, Aggregator, and MED Load Balancing: Equal Cost,Unequal Cost,Conditional Advertisement,Out/In Bound Route Filtering and the order,ORF,Multihoming Scenarios AS-Path Manipulation: Regexp,Local-as,Allow-as,Remove-Private-as Convergence and Scalability: Route Reflectors,Confederation,Aggregation (All Options) Other BGP Features: MultiPath,Add-Path,Route-Refresh,Soft Reconfiguration IPv6 Acquiring an IPv6 Address: IPv6 General Prefix SLAAC DHCPv6 Rapid-Commit Relay Prefix Delegation IPv6 and DMVPN EIGRPv6 OSPFv3: Both flavors, LSAs, RFCs BGP for IPv6: IPv6 transport, and IPv4 route exchange Transitional Solutions: NAT-PT,6VPE,Multicast,MLD,Static RP,BSR,Embedded RP,IPv6 Traffic Filters,RA Guard,ND Inspection MPLS LDP, VRFs, RD, and RT L3VPNs Route Leaking PE to CE Routing Security Control Plane Policing VACLs Storm Control DHCP Snooping IP Source Guard DAI Private VLANs Port Security Access-lists uRPF Device Tracking IPsec Identity Use Case For FlexVPN: Site-to-Site, IKEv1, and IKEv2 Using Preshared Keys 1x Port Base Authentication : Device Roles,Port States,Authentication Process,Host Modes Network Services FHRP: HSRP, VRRP, and GLBP NAT: Static NAT, and PAT,Dynamic NAT,Policy-Base NAT,VRF-Aware NAT,VASI NAT Software Defined Infrastructure Cisco SD Access: Design a Cisco SD Access solution Underlay network (IS-IS, manual/PnP) Overlay fabric design (LISP, VXLAN, Cisco TrustSec) Fabric domains (single-site and multi-site using SD-WAN transit) Cisco SD Access deployment: Cisco DNA Center device discovery and device management Add fabric node devices to an existing fabric Host onboarding (wired endpoints only) Fabric border handoff Segmentation Macro-level segmentation using VNs Micro-level segmentation using SGTs (using Cisco ISE) Assurance Network and client health (360) Monitoring and troubleshooting Cisco SD-WAN: Design a Cisco SD-WAN solution Orchestration plane (vBond, NAT) Management Plane (vManage) Control Plane (vSmart, OMP) Data Plane (vEdge/cEdge) WAN edge deployment Onboarding new edge routers Orchestration with zero-touch provisioning/PnP OMP TLOC Configuration templates Localized policies (only QoS) Centralized policies Application aware Routing Topologies

Duration 5 Days 30 CPD hours This course is intended for Data center administrators Data center engineers Systems engineers Server administrators Network managers Cisco integrators and partners Data center designers Technical solutions architects Network architects Overview After taking this course, you should be able to: Describe the foundations of data center networking Describe Cisco Nexus products and explain the basic Cisco NX-OS functionalities and tools Describe Layer 3 first-hop redundancy Describe Cisco FEX connectivity Describe Ethernet port channels and vPCs Introduce switch virtualization, machine virtualization, and describe network virtualization Compare storage connectivity options in the data center Describe Fibre Channel communication between the initiator server and the target storage Describe Fibre Channel zone types and their uses Describe NPV and NPIV Describe data center Ethernet enhancements that provide a lossless fabric Describe FCoE Describe data center server connectivity Describe Cisco UCS Manager Describe the purpose and advantages of APIs Describe Cisco ACI Describe the basic concepts of cloud computing The Understanding Cisco Data Center Foundations (DCFNDU) v1.1 course helps you prepare for entry-level data center roles. In this course, you will learn the foundational knowledge and skills you need to configure Cisco© data center technologies including networking, virtualization, storage area networking, and unified computing. You will get an introduction to Cisco Application Centric Infrastructure (Cisco ACI), automation and cloud computing. You will get hands-on experience with configuring features on Cisco Nexus Operating System (Cisco NX-OS) and Cisco Unified Computing System (Cisco UCS). This course does not lead directly to a certification exam, but it does cover foundational knowledge that can help you prepare for several CCNP and other professional-level data center courses and exams. Describing the Data Center Network Architectures Cisco Data Center Architecture Overview Three-Tier Network: Core, Aggregation, and Access Spine-and-Leaf Network Two-Tier Storage Network Describing the Cisco Nexus Family and Cisco NX-OS Software Cisco Nexus Data Center Product Overview Cisco NX-OS Software Architecture Cisco NX-OS Software CLI Tools Cisco NX-OS Virtual Routing and Forwarding Describing Layer 3 First-Hop Redundancy Default Gateway Redundancy Hot Standby Router Protocol Virtual Router Redundancy Protocol Gateway Load Balancing Protocol Describing Cisco FEX Server Deployment Models Cisco FEX Technology Cisco FEX Traffic Forwarding Cisco Adapter FEX Describing Port Channels and vPCs Ethernet Port Channels Virtual Port Channels Supported vPC Topologies Describing Switch Virtualization Cisco Nexus Switch Basic Components Virtual Routing and Forwarding Cisco Nexus 7000 VDCs VDC Types VDC Resource Allocation VDC Management Describing Machine Virtualization Virtual Machines Hypervisor VM Manager Describing Network Virtualization Overlay Network Protocols VXLAN Overlay VXLAN BGP EVPN Control Plane VXLAN Data Plane Cisco Nexus 1000VE Series Virtual Switch VMware vSphere Virtual Switches Introducing Basic Data Center Storage Concepts Storage Connectivity Options in the Data Center Fibre Channel Storage Networking VSAN Configuration and Verification Describing Fibre Channel Communication Between the Initiator Server and the Target Storage Fibre Channel Layered Model FLOGI Process Fibre Channel Flow Control Describing Fibre Channel Zone Types and Their Uses Fibre Channel Zoning Zoning Configuration Zoning Management Describing Cisco NPV Mode and NPIV Cisco NPV Mode NPIV Mode Describing Data Center Ethernet Enhancements IEEE Data Center Bridging Priority Flow Control Enhanced Transmission Selection DCBX Protocol Congestion Notification Describing FCoE Cisco Unified Fabric FCoE Architecture FCoE Initialization Protocol FCoE Adapters Describing Cisco UCS Components Physical Cisco UCS Components Cisco Fabric Interconnect Product Overview Cisco IOM Product Overview Cisco UCS Mini Cisco IMC Supervisor Cisco Intersight Describing Cisco UCS Manager Cisco UCS Manager Overview Identity and Resource Pools for Hardware Abstraction Service Profiles and Service Profile Templates Cisco UCS Central Overview Cisco HyperFlex Overview Using APIs Common Programmability Protocols and Methods How to Choose Models and Processes Describing Cisco ACI Cisco ACI Overview Multitier Applications in Cisco ACI Cisco ACI Features VXLAN in Cisco ACI Unicast Traffic in Cisco ACI Multicast Traffic in Cisco ACI Cisco ACI Programmability Common Programming Tools and Orchestration Options Describing Cloud Computing Cloud Computing Overview Cloud Deployment Models Cloud Computing Services Lab outline Explore the Cisco NX-OS CLI Explore Topology Discovery Configure HSRP Configure vPCs Configure VRF Explore the VDC Elements Install ESXi and vCenter Configure VSANs Validate FLOGI and FCNS Configure Zoning Configure Unified Ports on a Cisco Nexus Switch and Implement FCoE Explore the Cisco UCS Server Environment Configure a Cisco UCS Service Profile Configure Cisco NX-OS with APIs Explore the Cisco UCS Manager XML API Management Information Tree Explore Cisco ACI

Duration 5 Days 30 CPD hours This course is intended for Typical candidates for this course are IT Professionals who will deploy and manage networks based on HPE's ArubaOS-CX switches. Overview After you successfully complete this course, expect to be able to: Use NetEdit to manage switch configurations Use the Network Analytics Engine (NAE) to implement scripting solutions to provide for proactive network management and monitoring Compare and contrast VSX, VSF, and backplane stacking Explain how VSX handles a split-brain scenario Implement and manage a VSX fabric Define ACLs and identify the criteria by which ACLs select traffic Configure ACLs on AOS-CX switches to select given traffic Apply static ACLs to interfaces to meet the needs of a particular scenario Examine an ACL configuration and determine the action taken on specific packets Deploy AOS-Switches in single-area and multi-area OSPF systems Use area definitions and summaries to create efficient and scalable multiple area designs Advertise routes to external networks in a variety of OSPF environments Promote fast, effective convergence during a variety of failover situations Use virtual links as required to establish non-direct connections to the backbone Implement OSFP authentication Establish and monitor BGP sessions between your routers and ISP routers Advertise an IP block to multiple ISP routers Configure a BGP router to advertise a default route in OSPF Use Internet Group Management Protocol (IGMP) to optimize forwarding of multicast traffic within VLANs Describe the differences between IGMP and IGMP snooping Distinguish between PIM-DM and PIM-SM Implement PIM-DM and PIM-SM to route multicast traffic Implement Virtual Routing Forwarding (VRF) policies to contain and segregate routing information Create route maps to control routing policies Understand the use of user roles to control user access on AOS-CX switches Implement local user roles on AOS-CX switches and downloadable user roles using a ClearPass solution Implement 802.1X on AOS-CX switch ports Integrate AOS-CX switches with an Aruba ClearPass solution, which might apply dynamic role settings Implement RADIUS-based MAC Authentication (MAC-Auth) on AOS-CX switch ports Configure captive portal authentication on AOS-CX switches to integrate them with an Aruba ClearPass solution Combine multiple forms of authentication on a switch port that supports one or more simultaneous users Configure dynamic segmentation on AOS-CX switches This course teaches you the advanced skills necessary to implement and operate enterprise level Aruba campus switching solutions. You will build on the skills you learned at the Associate level to configure and manage modern, open standards-based networking solutions using Aruba's OS-CX routing and switching technologies. In this course, participants learn about ArubaOS-CX switch technologies including: securing port access with Aruba's dynamic segmentation, redundancy technologies such as Multiple Spanning Tree Protocol (MSTP), link aggregation techniques including Link Aggregation Protocol (LACP) and switch virtualization with Aruba?s Virtual Switching Extension (VSX) and Aruba's Virtual Switching Framework (VSF). This course is approximately 50% lecture and 50% hands-on lab exercises. Introduction to Aruba Switching Switches overview Architectures NetEdit Overview Centralized configuration Switch groups/templates AOS-CX mobile App Network Analytics Engine (NAE) Overview Configuration Core NAE feature lab sflow, local mirror, remote mirror VSX VSF vs. VSX: access and Agg/core design Stacking review VSF and uni/multi packet forwarding Stack fragments / split brain VSX Overview: roles, control, data, management planes VSX components (ISL, Keepalive, VSX LAG, Active Gateway, Active-Forwarding, Link Delay) Split Brain scenario Upstream Connectively Options (ROP single VRF, SVIs with multiple VRF, VSX Lag SVIs with multiple VRFs) Upstream/Downstream unicast traffic flow (South-North and North-South) VSX Configuration: VSX and Active Gateway VSX firmware updates ACLs Overview: types, components MAC ACL, Standard ACL, Extended ACL, Classifier-based Policies Configuration: wildcard bits, logging, pacl, vacl, racl Advanced OSPF Review basic OSPF Multi area: setup and aggregation Area-Types Stub, Totally Stub, NSSA, Totally NSSA External routes OSPF tuning: costs, bfd, gr, auth, vrrp, virt link BGP Overview: i/e bgp, as numbers Best path selection Configuration: route announcement Route filtering to prevent transit as IGMP Overview Querier Snooping Unknown multicasts Multicast Routing: PIM Overview PIM DM 802.1X Authentication Overview: roles, requirements, coa, accounting Dynamic port configuration: avp, acl, qos, VLAN Port-based vs. user-based: examples Radius service tracking, critical VLAN MAC Authentication Overview: Use cases Radius-based MAC Auth Dynamic Segmentation Leverage dynamic segmentation features Configure tunneled-node on AOS-CX switches Describe when and how to configure PAPI enhanced security, high availability, and fallback switching for tunneled-node Quality of Service Overview VoQ (Virtual Output Queue) QOS: queueing, QOS marks, dot1p, dscp Trust levels QOS configuration: port, VLAN, policies Interaction with user roles Queue configuration Rate limiters LLDP-MED Additional Routing Technologies VRF - Management VRF PBR MDNS PIM SM Capitve Portal Authentication Overview of guest solutions Built-in web auth ClearPass redirect with CPPM

Duration 5 Days 30 CPD hours This course is intended for This course is intended for entry-level network administrators, network support and help desk technicians. Overview Upon successful completion of this course, students will be able to build, connect and manage networks, and IP traffic routing. In this course the student will learn to install, operate, configure and secure basic and enterprise networks. Networking BasicsNetworking ModelsNetwork AddressingPacket DeliveryDevice ManagementNetwork Security BasicsAdvanced Network Security with ACLsSwitchesAdvanced Switching ConceptsRoutersAdvanced Routing ConceptsBasic Network ServicesCisco Device ManagementTroubleshooting and Data CollectionAdvanced Switch RedundancyOSPF ConfigurationEIGRP ConfigurationPPP WANsFrame Relay WANsSecure VPNs and Tunneling Additional course details: Nexus Humans Cisco Networking training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the Cisco Networking course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.

Duration 4 Days 24 CPD hours This course is intended for The primary audience for this course is system installers, system integrators, system administrators, network administrators, and solutions designers. Overview At the end of this course, you will be able to: Describe the NSO's transactional application framework and mapping model options Describe the Reactive Fastmap design pattern and the NSO Configuration Database (CDB) subscriber in the NSO Transaction model Simplify packages to remove the need for subscriber applications, scale orchestration solutions, and integrate NSO with external systems (east-west integration)Describe the Cisco ESC architecture and integration with NSO, and how the NSO VNF Orchestration (VNFO) Release 2 bundle interacts with ESC for orchestration This course explores how to create advanced services using the NSO application framework and Python scripting with both new and existing Layer 3 Multiprotocol Label Switching (MPLS) VPN services. Students will also learn how to manage and scale these services, and how to use NSO Network Functions Virtualization (NFV) orchestration features and Cisco Elastic Services Controller (ESC) to manage Virtualized Network Functions (VNFs). Cisco NSO Programmability NSO Application Framework NSO Python Scripting NSO Python and Template-Based Services Resources Augmenting Cisco NSO Service Service Lifecycle and Integration Options Overview Greenfield Layer 3 MPLS VPN Service Brownfield Layer 3 MPLS VPN Service Managed Services Managed Services Overview Stacked Service Design Overview Design-Managed Network Services Scaling Service Orchestration Cisco NSO Network Functions Virtualization (NFV) Orchestration ETSI MANO Cisco ESC Cisco NSO Orchestration Additional course details: Nexus Humans Cisco Network Services Orchestrator Advanced Design (NSO300) training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the Cisco Network Services Orchestrator Advanced Design (NSO300) course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.