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OVERVIEW OBJECTIVES CONTENT

OVERVIEW IBM offers a comprehensive portfolio of SAN switches, storage, software, services and solutions to reliably bring information to people in a cost effective way. IBM provides flexible, scalable and open standards-based business-class and global enterprise-class storage networking solutions for the on demand world.This course provides an overview of storage network and data center networking technology. It reviews SAN concepts, Fibre Channel architecture, SAN topologies, IBM b-type offerings, IBM offerings from Cisco, and SAN over Ethernet architectures, such as iSCSI and FCoE. OBJECTIVES After completing this course, you should be able to: Classify the components of a SAN infrastructure Appraise the Fibre Channel architecture and terms Classify the three major components of a SAN Differentiate the features of the IBM Storage System b-type switch offerings Differentiate the features of the IBM offered Cisco SAN switches and directors Evaluate the implementations of iSCSI and FCoE CONTENT

OVERVIEW The Implementing and Operating Cisco Service Provider Network Core Technologies (SPCOR) course teaches you how to configure, verify, troubleshoot, and optimize next-generation, Service Provider IP network infrastructures. It provides a deep dive into Service Provider technologies including core architecture, services, networking, automation, quality of services, security, and network assurance. You will gain the theoretical and practical knowledge needed to implement and operate service provider networks using technologies such as core architecture, services, networking, automation, quality of service (QoS), security, and network assurance. Please note that this course is a combination of Instructor-Led and Self-Paced Study - 5 days in the classroom and approx 3 days of self study. The self-study content will be provided as part of the digital courseware that you will recieve at the beginning of the course and should be part of your preparation for the exam. This course is worth 64 Contnuing Education (CE) Credits OBJECTIVES After completing this course you should be able to: Describe the Service Provider network architectures, concepts, and transport technologies Describe the Cisco IOS software architectures, main IOS types, and their differences Implement OSPF in the Service Provider network Implement Integrated IS-IS in the Service Provider network Implement BGP routing in Service Provider environments Implement route maps and routing policy language Describe IPv6 transition mechanisms used in the Service Provider networks Implement high-availability mechanisms in Cisco IOS XR software Implement traffic engineering in modern Service Provider networks for optimal resource utilization Describe segment routing and segment routing traffic engineering concepts Describe the VPN technologies used in the Service Provider environments Configure and verify MPLS L2VPN in Service Provider environments Configure and verify MPLS L3VPN in Service Provider environments Implement IP multicast services Describe the QoS architecture and QoS benefits for SP networks Implement QoS in Service Provider environments Implement control plane security in Cisco devices Implement management plane security in Cisco devices Implement data plane security in Cisco devices Describe the YANG data modeling language Implement automation and assurance tools and protocols Describe the role of Cisco NSO in Service Provider environments Implement virtualization technologies in Service Provider environments CONTENT Describing Service Provider Network Architectures (Self-Study) Service Provider Core Architectures MPLS Introduction Unified MPLS Segment Routing Introduction Network Transport Technologies RAN Introduction Evolved Packet Core 5G Networks Introduction Describing Cisco IOS Software Architectures Cisco IOS Software Introduction Cisco IOS XE Software Fundamentals Cisco IOS XR Architecture Cisco IOS XR 64-Bit and 32-Bit Differences Cisco IOS XR 64-Bit Operational Enhancements Cisco IOS XR Container and VM Architecture Implementing OSPF for Cisco IOS XR OSPF Introduction OSPF Routing OSPF Link-State Database OSPF Operation OSPF Adjacencies and Modes OSPF Implementation Multiarea OSPF OSPFv3 Implementation Basic OSPF Troubleshooting Implementing IS-IS for Cisco IOS XR IS-IS Introduction Integrated IS-IS Routing IS-IS Operation IS-IS Link-State Database Integrated IS-IS for IPv6 IS-IS Configuration for IPv4 IS-IS Configuration for IPv6 Basic IS-IS Troubleshooting Implementing BGP in Service Provider Network BGP Introduction BGP in Customer Connections BGP Routing BGP Implementation BGP Path Selection Weight and Local Preference Autonomous System Path Prepending and MEDs BGP Communities Route Redistribution Introduction Redistribution Implementation BGP Additional Paths BGP Prefix Independant Convergance Basic BGP Troubleshooting Implementing Route Maps and RPL Routing Protocol Tools Overview Prefix Lists and AS Path Access Lists Route Map Introduction RPL Introduction RPL Parameters and Parameterization RPL Implementation Transitioning to IPv6 for Cisco IOS XR and IOS XE (Self-Study) Transitioning from IPv4 to IPv6 Translation Mechanisms IPv6 Tunneling Mechanisms Implementing High Availability in Networking Cisco Nonstop Forwarding Overview Bidirectional Forwarding Detection Support Link Aggregation Implementing MPLS for Cisco IOS XR MPLS Architecture MPLS Applications LDP Introduction MPLS Forwarding Introduction MPLS Forwarding Operation MPLS Configuration LDP Advanced Configuration MPLS Monitoring MPLS Troubleshooting Unified MPLS Architecture Implementing Cisco MPLS Traffic Engineering Traffic Engineering Concepts Cisco MPLS TE Introduction Cisco MPLS TE Operation Constraint-Based Path Computation Cisco MPLS TE Tunnel Attributes Traffic Steering Cisco MPLS TE Implementation Protection of Cisco MPLS TE Traffic Describing Segment Routing Segment Routing Concepts SR IGP Control Plane Overview Segment Types TI-LFA Fundamentals SR-TE Overview PCE-PCC Architecture Segment Routing Traffic Engineering Segment Routing IPv6 Segment Routing Flexible Algorithm SRv6 Micro-Segment Describing VPN Services VPN Introduction MPLS VPN Architecture MPLS VPN Routing Interdomain MPLS VPN Solutions CSC Overview Multicast VPN Overview EVPN Introduction EVPN Terminology and Concepts Configuring L2VPN Services Layer 2 VPN Introduction MPLS Layer 2 VPN Types EoMPLS Configuration VPLS Configuration Ethernet OAM Review Configuring L3VPN Services MPLS L3VPN Backbone Implementation VRF Configuration MP-BGP Configuration Basic PE-CE Routing Implementation OSPF as PE-CE Protocol BGP as PE-CE Protocol MPLS L3VPN Shared Services Internet Access in MPLS L3VPN Implementing Multicast for Cisco IOS XR (Self-Study) Multicast Overview Multicast Service Model Multicast Protocols PIM-SM Introduction Dynamic RP Mechanisms PIM-SM Enhancements Overview Interdomain Multicast Routing IPv6 Multicast Implementation PIMv6 Overview Describing QoS Architecture (Self-Study) QoS Introduction Models for Implementing QoS QoS Trust Boundaries MPLS QoS Introduction Cisco MPLS TE QoS Implementing QoS for Cisco IOS XR (Self-Study) QoS Mechanisms QoS Implementation Congestion Management Congestion Avoidance Implementation Traffic Policing and Shaping Implementing Control Plane Security Control Plane Protection Overview LDP Security Implementation IGP Control Plane Security BGP Security Implementation BGP FlowSpec Implementation Implementing Management Plane Security (Self-Study) Management Plane Security Overview AAA Implementation REST API Security Implementing Data Plane Security ACL Implementation uRPF Implementation RTBH Filtering Implementation Cisco MACsec Overview Introducing Network Programmability (Self-Study) Network Programmability Introduction Network APIs and Protocols Introduction YANG Introduction YANG Data Types XPath Overview Basic YANG Statements Pyang Tool Implementing Automation and Assurance (Self-Study) NETCONF Overview RESTCONF Overview Model Driven Telemetry Overview gNMI Overview Zero Touch Provisioning Overview NetFlow Overview SNMP Overview Introducing Cisco NSO (Self-Study) Logical Architecture Components Orchestration Use Cases Packages Mapping Logic Network Element Drivers Implementing Virtualization in Service Provider Environments (Self-Study) NFV Infrastructure OpenStack Introduction Containers Overview Application Hosting Basics Labs Discovery Lab 1: Deploy Cisco IOS XR and IOS XE Basic Device Configuration Discovery Lab 2: Implement OSPF Routing Discovery Lab 3: Implement Integrated IS-IS Routing Discovery Lab 4: Implement Basic BGP Routing Discovery Lab 5: Filter BGP Prefixes Using RPL Discovery Lab 6: Implement MPLS in the Service Provider Core Discovery Lab 7: Implement Cisco MPLS Traffic Engineering (TE) Discovery Lab 8: Implement Segment Routing Discovery Lab 9: Implement Ethernet over MPLS (EoMPLS) Discovery Lab 10: Implement MPLS L3VPN Discovery Lab 11: Implement BGP Security Discovery Lab 12: Implement Remotely Triggered Black Hole (RTBH) Filtering

OVERVIEW The Understanding Cisco Service Provider Network Foundations (SPFNDU) course is designed to provide you with the foundational knowledge for the suite of Cisco® CCNP® Service Provider courses. The course expands what you learned from the Cisco CCNA® course with a focus on theoretical and practical knowledge needed for the Service Provider environment. Through a combination of lessons and hands-on practice, you will learn about architectures, protocols, software and hardware platforms, and solutions within the Service Provider realm. This course is worth 30 Continuing Education (CE) Credits This course will help you: Acquire the foundational knowledge to understand the Cisco Service Provider Network methodologies, tools, and functions Learn the skills to manage the software and hardware platforms, structures, and protocols within the service provider real Qualify for professional-level job service provider roles e-Learning Interactive self-paced content that provides flexibility in terms of pace, place and time to suit individuals and organisations. These resources also consist of online books, educational podcasts and vodcasts, and video-based learning. OBJECTIVES After completing this course you should be able to: Describe network architectures, devices, and software used by service providers Describe the various Internet governance organizations, their roles, and tools available for governance information verification Configure Cisco Internetwork Operating System (Cisco IOS®) and Cisco IOS XE routers Describe Cisco IOS XR software, perform initial configuration, and explain platform daily tasks Describe various access and core technologies used by service providers Describe various major switching technologies used by service providers Describe major overlay technologies and their usage, and configure Virtual Extensible LAN I (VxLAN) Describe various major routing protocols used by service providers Configure Layer 3 services used by service providers Describe Multiprotocol Label Switching (MPLS), components, protocols, and MPLS usage Describe usage of various services used and maintained by service providers Introduce Linux networking, Bourne Again Shell (BASH) scripting, and their usage within Cisco IOS XR software CONTENT Introducing Service Provider Architectures Bus Topology Ring Topology Star Toplogy Mesh Topology Clos Toplogy Device Roles Physical Devices Virtual Devices Cisco IOS XE Software Overview Cisco IOS XR Software Overview Internet Service Providers Internet Exchange Points Cloud Service Providers Describing Internet Governance Organizations Internet Engineering Task Force Institute of Electrical and Electronics Engineers International Telecommunication Union Metro Ethernet Forum European Telecommunications Standard Institute Internet Assigned Number Authority Regional and Local Internet Registries Network Operators Group Other Bodies and Tools Configuring the Cisco IOS and Cisco IOS XE Router Access and Initial Configuration Configuration Management Day Zero Provisioning Connectivity and Connectivity Verification on Cisco IOS XE Software Monitoring Hardware Configuring Cisco IOS XR Router Access and Initial Configuration Configuration Management Connectivity and Connectivity Verification on Cisco IOS XR Software Monitoring Hardware Introducing Access and Core Technologies in the Service Provider Environment Optical Connectivity DWDM Connectivity xDSL Lines Cable Connectivity Wireless Usage in Service Providers Ethernet and Ethernet Evolution Introducing Routing Technologies in Service Provider Environment Routing Protocols Overview Link-State Protocols IS-IS Overview OSPF Overview Distance Vector Protocols RIPv2 and RIPng Introduction BGP Introduction Describing MPLS MPLS Overview MPLS Features and Benefits MPLS Architecture MPLS Labels Label Distribution Protocol Label-Switched Path MPLS Applications Overview Implementing Layer 3 Services IP SLA Overview First Hop Redundancy Protocols Hot Standby Router Protocol Virtual Router Redundancy Protocol Gateway Load Balancing Protocol VRF Overview VRF Usage VRF Monitoring Introducing Switching Technologies in the Service Provider Environment Metro Ethernet Overview E-Line Service E-LAN Service E-Access Service E-Tree Service VLAN Overview QinQ Overview Provider Backbone Bridging Introducing Overlay Technologies VXLAN Overview VXLAN Gateway EVPN Overview Implementing Service Provider Services DHCP Overview DHCP Configuration DNS Introduction NTP Overview Precison Time Protocol Introducing Programmability on Cisco IOS XR Routers Linux Primer for Network Engineers Linux Networking Cisco IOS XR Application Hosting and Programmability Labs: Discovery Lab 1: Review Lab Environment Discovery Lab 2: Examine Governance Data Discovery Lab 3: Perform an Initial Cisco IOS XE Configuration Discovery Lab 4: Configure Connectivity and Connectivity Verification on Cisco IOS XE Devices Discovery Lab 5: Perform Initial Cisco IOS XR Configuration Discovery Lab 6: Configure and Verify Connectivity on Cisco IOS XR Devices Discovery Lab 7: Configure IS-IS Discovery Lab 8: Configure RIPv2 and RIPng Discovery Lab 9: Configure Basic BGP Discovery Lab 10: Configure MPLS Discovery Lab 11: Configure IP SLA Discovery Lab 12: Configure HSRP with Object Tracking Discovery Lab 13: Configure VRFs Discovery Lab 14: Configure NTP Discovery Lab 15: Use Linux CLI Discovery Lab 16: Configure Cisco IOS XR Using a Bash Script

OVERVIEW The Implementing Cisco Service Provider Advanced Routing Solutions (SPRI) course covers the theories and practices required to integrate advanced routing technologies into Service Provider Networks. This includes routing protocols, multicast routing, policy language, Multiprotocol Label Switching (MPLS), and segment routing. This course is worth 37 Continuing Education (CE) Credits. Maatwerk Global Knowledge biedt zowel standaard- als maatwerkcursussen die zijn afgestemd op uw wensen en die als besloten cursus op uw eigen locatie of onze locatie gevolgd kunnen worden. OBJECTIVES After completing this course you should be able to: Configure multiarea OSPF  Configure OSPF special area types and optimization features  Configure IS-IS multilevel networks and optimization features  Configure BGP to influence outbound and inbound BGP route selection  Implement BGP route reflectors and confederations  Describe the main characteristics of routing protocol tools that are used in service provider environments  Implement the Routing Policy Language  Configure route redistribution  Troubleshoot routing protocols in the service provider network  Describe, implement, and troubleshoot MPLS in service provider network  Describe and implement segment routing technology  Introduce and implement segment routing IPv6  Implement BGP security options  Implement advanced features to improve convergence in BGP networks  Implement Topology Independent Loop-Free Alternate (TI-LFA)  Describe Cisco MPLS traffic engineering  Describe how traffic engineering is used in segment routing networks  Implement and configure advanced SR-TE features  Implement IPv6 tunneling mechanisms  Describe IP multicast concepts and technologies  Implement and verifying the PM-SM protocol  Implement enhanced PIM-SM features  Implement MSDP in the interdomain environment  Implement mechanisms for dynamic RP distribution  CONTENT Configure OSPF Multiarea Networks Multiarea OSPF Overview Configure Multiarea OSPF OSPF Area and LSA Types Watch and Learn: Multiarea OSPF Overview OSPFv2 Path Selection Configure OPSFv2 Path Selection Configure OSPFv2 Cost OSPFv3 Overview Configure OSPFv3 Configure OSPF Special Area Types OSPF Stubby Area Types Overview Configure OSPF Stubby Area Types OSPF NSSA Area Types Overview Configure OSPF NSSA Area Types Watch and Learn: OSPF Stubby Area Types Overview Configure OSPF Optimization Features OSPFv2 Summarization Overview Configure OSPFv2 Summarization OSPF Fast Convergence Overview Configure OSPF Timers Configure OSPF BFD Watch and Learn : OSPFv2 Summarization Overview Configure IS-IS Multilevel Networks IS-IS Interlevel Routing Overview Configure IS-IS Interlevel Routing Configure IS-IS Route Leaking Configure IS-IS Prefix Suppression IS-IS Path Selection Configure IS-IS Metric IS-IS for IPv6 Overview Configure IS-IS for IPv6 Watch and Learn IS-IS Interlevel Routing Overview Configure IS-IS Optimization Features IS-IS Summarization Overview Configure IS-IS Summarization IS-IS Fast Convergence Overview Watch and Learn: IS-IS Fast Convergence Overview Introducing Routing Protocols Routing Protocol Tools Overview Routing Protocols Filtering Examples and Objectives Autonomous System Path ACL Autonomous System Path Access List Overview Configure Autonomous System Path Access List Route Maps Overview Configure Route Maps Introducing Routing Policy Language Routing Policy Language Overview Routing Policy Language Syntax Describe and Configure RPL Attributes and Parameters RPL Attributes and Parameters Use Cases RPL Parameterization Overview Value Sets Overview Configure Autonomous System Path Sets Configure Community Sets Configure Prefix Sets Routing Policies Application Overview Routing Policies Troubleshooting Route Maps to Routing Policies Translation Influencing Outbound BGP Route Selection BGP Weight Overview Configure BGP Weight BGP Local Preference Overview Modify BGP Local Preference Watch and Learn: BGP Local Preference Influencing Inbound BGP Route Selection Autonomous System Path Prepending Overview Implement Autonomous System Path Prepending BGP Multi-Exit Discriminators Overview Implement BGP Multi-Exit Discriminators BGP Communities Overview Implement BGP Communities Multihomed Customer Connectivity to ISPs Configure Multihomed Customer Primary and Backup Scenario Configure Multihomed Customer Load Sharing Scenario Scaling BGP in Service Provider Networks Scalable IBGP Solutions Overview BGP Split-Horizon Rule Overview BGP Route Reflectors Overview Implement BGP Route Reflectors BGP Confederations Overview Implement BGP Confederations Implementing Route Redistribution Route Redistribution Overview Seed Metrics Implementation Considerations Implementation Administrative Distance Overview Modify Administrative Distance Prevent Routing Loops Redistribution Troubleshooting Routing Protocols Methodologies Overview Tools Overview OSPF Adjacencies OSPF Routes IS-IS Adjacencies IS-IS Routes BGP Peers BGP Routes Improving BGP Convergence and Implementing Advanced Operations BGP Route Flap Dampening Overview Implementing BGP Route Flap Dampening BGP Convergence Features Overview Improving BGP Convergence Path MTU Discovery Overview Input Queue Depth Overview Cisco Nonstop Forwarding and Routing Overview BGP Dynamic Neighbors Overview Multiprotocol Label Switching Forwarding Structures Overview Label-Switching Path Overview Label Management in LDP Follow Packet Propagation Across an MPLS Domain Impact of IP Aggregation on LSPs Forwarding Operations Loop Detection Using the MPLS TTL Field Modify TTL Propagation Examine Convergence Process Examine Link Recovery Convergence Process Cisco MPLS Traffic Engineering Packet Forwarding Overview RSVP Path Setup Overview Traffic Forwarding Overview Attributes Affinity Bits Path Setup, Computation and Optimization Troubleshooting MPLS MPLS Troubleshooting Overview MPLS Troubleshooting Scenarios Segment Routing Segment Routing Overview Segment Types Segment Routing Labels Overview Routing Protocol Extensions for Segment Routing Prefix and Adjacency Segment Identifiers LDP Interworking Concepts FIB Programming Overview Migration from LDP Implementing Segment Routing Configure and Verify Segment Routing IS-IS Configure and Verify Segment Routing OSPF Configure and Verify Segment Routing BGP Mapping Server Overview Implement Mapping Server Implement Tree-SID Segment Routing for IPv6 SRv6 Overview Header Formats Node Roles Segment Formats Endpoint Behaviors Micro-Segments Implementing Segment Routing for IPv6 Configure and Verify SRv6 Extension Configure and Verify IS-IS for SRv6 Configure and Verify BGP Service for SRv6 Configure and Verify MP-BGP for SRv6 Segment Routing TI-LFA TI-LFA Overview P and Q Spaces Overview Zero-Segment Implementation Single-Segment Implementation Double-Segment Implementation TI-LFA for LDP Overview Verifying TI-LFA for LDP Segment Routing Traffic Engineering Concepts and Components RSVP-TE Comparison Policy Overview Distributed and Centralized Policies Configuring Segment Routing Policy Traffic Steering Overview Implementing SR-TE Automate PCE-Based Paths Overview Implementing PCE and BGP-LS SRLG Overview Implementing SRLG Advanced Segment Routing Traffic Engineering Features Performance Measurement Overview Configuring Performance Measurement Verifying Performance Measurement On-Demand Next Hop Overview Implementing ODN BGP SR-TE Flexible Algorithm Overview Implementing Flexible Algorithm Securing BGP Service Provider Environment Threats BGP Threat Countermeasures BGP Route Limiting BGP Neighbor Authentication BGP TTL Security CoPP and LPTS Remote-Triggered Black-Hole Filtering BGP FlowSpec Deploying IPv6 Tunnelling Mechanisms IPv6 Tunnelling Mechanisms GRE Tunnels 6in4 Tunnels 6to4 Automatic Tunnels NAT64 Overview MAP-T Overview Using layer 2 MPLS VPNs to Support IPv6 Using Cisco 6VPE to Support IPv6 IP Multicast Concepts and Technologies Multicast Overview IP Multicast Addresses Multicast Distribution Tree Multicast Group Management Protocols ASM Versus SSM Comparison Intradomain and Interdomain Multicast Routing Protocols Multicast IP Layer 3 to Layer 2 Mapping IGMP and PIM Snooping Multipoint LDP Overview Implementing PIM-SM Protocol PIM-SM Overview PIM-SM Packets and State PIM-SM Receiver Joining a Shared Tree PIM-SM Source Recognition PIM-SM SPT Switchover Process PIM-SM Shared Tree Pruning Overview Configuring and Verifying PIM-SM Implementing PIM-SM Enhancements SSM Overview Configuring SSM Bidirectional PIM Overview Configuring Bidirectional PIM Implementing Interdomain IP Multicast Multicast Service Provider Requirements SSM Interdomain Overview Implementing MP-BGP Multicast Configuring PIM and IGMPv3 ASM Interdomain MSDP Overview Implementing MSDP Implementing MPLS MPLS Implementation Overview Configure Basic MPLS Configure MPLS MTU Modify IP TTL Propagation Customize LDP Configuration Control LDP Label Advertisement MPLS Verification Unified MPLS Overview Configure Unified MPLS Implementing Distributed Rendezvous Point Solution in Multicast Network Static vs. Dynamic Discovery and RP Placement Auto-RP Overview Implementing Auto-RP Bootstrap Router Overview Configuring a Bootstrap Router Anycast RP Overview Configuring Anycast RP Understanding Phantom RP Labs Discovery Lab 1: Implement OSPF Special Area Types (IPv4 and IPv6)  Discovery Lab 2: Implement OSPF Route Summarization (IPv4 and IPv6)  Discovery Lab 3: Implement Multiarea IS-IS  Discovery Lab 4: Implement IS-IS Route Summarization  Discovery Lab 5: Implement Outbound BGP Route Selection  Discovery Lab 6: Implement Inbound BGP Route Selection  Discovery Lab 7: Implement BGP Route Reflectors  Discovery Lab 8: Implement Route Redistribution  Discovery Lab 9: Troubleshoot Routing Protocols  Discovery Lab 10: Configure and Verify IGP Segment Routing  Discovery Lab 11: Configure and Verify SRv6  Discovery Lab 12: Configure and Verify SR TI-LFA Using OSPF  Discovery Lab 13: Configure and Verify SR TI-LFA Using IS-IS  Discovery Lab 14: Configure and Verify SR-TE Using OSPF  Discovery Lab 15: Configure and Verify SR-TE Using IS-IS  Discovery Lab 16: Configure and Verify ODN and Flexible Algorithm  Discovery Lab 17: Implement BGP Security Options  Discovery Lab 18: Implement Tunnels for IPv6  Discovery Lab 19: Enable and Optimize PIM-SM  Discovery Lab 20: Implement PIM-SM Enhancements  Discovery Lab 21: Implement MPLS in the Service Provider Core  Discovery Lab 22: Implement Rendezvous Point Distribution  

OVERVIEW The Implementing Cisco Service Provider VPN Services (SPVI) course provides the knowledge and skills required to manage end-customer Virtual Private Network (VPN) environments built over a common service provider Multiprotocol Label Switching (MPLS) backbone. Hands-on labs reinforce MPLS VPN fundamental concepts, benefits, and classification, MPLS components, MPLS control plane and data plane operations, MPLS VPN routing using Virtual Routing and Forwarding (VRF), Layer 2 and Layer 3 MPLS VPNs, IPv6 MPLS VPN implementations, IP Multicast VPNs, and shared services VPNs. Solutions for deploying MPLS VPN crossing multiple Service Provider domains that improve the use of network bandwidth is also covered in this course. Associated Certifications: Cisco CCNP Service Provider, Cisco Certified Specialist - Service Provider VPN Services Implementation certification Associated Exam: 300-515 SPVI Duration: This elearning is the equivalent of a 5 day ILT course OBJECTIVES After completing this course you should be able to: Describe VPN concepts and operation in a Service Provider environment Implement Layer 3 MPLS VPN operations in a Service Provider environment Implement Layer 3 Inter-domain MPLS VPN services traversing multiple Service Providers Implement Layer 3 Multicast MPLS VPN operations in a Service Provider environment Troubleshoot typical issues in Layer 3 MPLS VPN environments Implement Layer 2 VPN operations in a Service Provider environment Troubleshoot Layer 2 VPN issues in a Service Provider network Implement MPLS VPN solutions for IPv6 environments Troubleshoot MPLS VPN solutions for IPv6 environments CONTENT Introducing VPN Services VPN Fundamentals MPLS VPN Control Plane Operation Troubleshooting MPLS VPN Underlay Troubleshoot Core Interior Gateway Protocol (IGP) Troubleshoot Border Gateway Protocol (BGP) Implementing Layer 3 MPLS VPNs Multiprotocol BGP (MP-BGP) Routing Requirements in MPLS VPNs Provider Edge to Customer Edge (PE-to-CE) Routing Requirements in Layer 3 MPLS VPNs Implementing Layer 3 Interdomain MPLS VPNs Inter-Autonomous System (AS) for Layer 3 MPLS VPNs Content Security and Control (CSC) for Layer 3 MPLS VPNs Implementing Layer 3 Multicast MPLS VPNs Multicast VPN (MVPN) Fundamentals Implement Intranet MVPN Troubleshooting Intra-AS Layer 3 VPNs Troubleshoot PE-CE Connectivity Troubleshoot PE-to-Route Reflector Implementing Layer 2 VPNs Layer 2 Service Architecture and Carrier Ethernet Services Refresh on Traditional Ethernet LAN (E-LAN), E-Line, and E-Tree Solutions Troubleshooting Layer 2 VPNs Troubleshoot Common Issues for Traditional E-Line, E-LAN, and E-Tree Ethernet Solutions Troubleshoot Common Issues for Ethernet VPN (EVPN) Native, EVPN Virtual Private Wire Service (VPWS), and EVPN Integrated Routing and Bridging (IRB) Solutions Implementing Layer 3 IPv6 MPLS VPNs Classical Solutions for Deploying IPv6 over IPv4 Environments Using 6VPE to Deploy IPv6 Connectivity over MPLS Environment Troubleshooting Layer 3 IPv6 MPLS VPNs Troubleshooting PE-to-PE Connectivity Labs Verify the Service Provider Backbone Operation for MPLS VPN Work with VRF Instances Troubleshoot the MPLS VPN Backbone Configure MP-BGP as the PE-CE Routing Protocol Configure and Verify PE-to-CE Routing Requirements Enable Shared Services VPN Deploy Internet Access as a VPN Service Troubleshoot Layer 3 MPLS VPN End-Customer Connectivity Implement Different EVPN Solutions Troubleshoot EVPN VPWS Implement IPv6 VPN Provider Edge Router (6VPE)

OVERVIEW Securing Cisco Networks with Snort Rule Writing Best Practices is a lab-intensive course that introduces users of open source Snort or Sourcegire FIRESIGHT systems to the Snort rules language and rule-writing best practices. Users focus exclusively on the Snort rules language and rule writing. Starting from rule syntax and structure to advanced rule-option usage, you will analyze exploit packet captures and put the rule writing theories learned to work—implementing rule-language features to trigger alerts on the offending network traffic.This course also provides instruction and lab exercises on how to detect certain types of attacks, such as buffer overflows, utilizing various rule-writing techniques. You will test your rule-writing skills in two challenges: a theoretical challenge that tests knowledge of rule syntax and usage, and a practical challenge in which we present an exploit for you to analyze and research so you can defend your installations against the attack.This course combines lecture materials and hands-on labs throughout to make sure that you are able to successfully understand and implement open source rules. e-Learning Interactive self-paced content that provides flexibility in terms of pace, place and time to suit individuals and organisations. These resources also consist of online books, educational podcasts and vodcasts, and video-based learning. OBJECTIVES After completing this course, you should be able to: Describe rule structure, rule syntax, rule options and their usage. Configure and create Snort rules Describe the rule optimization process to create efficient rules Describe preprocessors and how data is presented to the rule engine Create and implement functional Regular Expressions in Snort rules Design and apply rules using byte_jump/test/extract rule options Understand the concepts behind protocol modeling to write rules that perform better CONTENT Module 1: Welcome to the Cisco and Sourcefire Virtual Network Module 2: Basic Rule Syntax and Usage Module 3: Rule Optimization Module 4: Using Perl Compatible Regular Expressions (PCRE) in Rules Module 5: Using Byte_Jump/Test/Extract Rule Options Module 6: Protocol Modeling Concepts and Using Flowbits in Rule Writing Module 7: Case Sudies in Rule Writing and Packet Analysis Module 8: Rule Performance Monitoring Module 9: Rule Writing Practiceal Labs, Exercises, and Challenges Labs Lab 1: Infrastructure Familarization Lab 2: Writing Custom Rules Lab 3: Drop Rules Lab 4: Replacing Content Lab 5: SSH Rule Scenerio Lab 6: Optimizing Rules Lab 7: Using PCREtest to Test Regex Options Lab 8: Use PCREtest to Test Custom Regular Expressions Lab 9: Writing Rules That Contain PCRE Lab 10: Exploiting SADMIND Trust Lab 11: Using the Bitwise AND Operation in Byte_Test Rule Option Lab 12: Detecting ZenWorks Directory Traversal Using Byte_Extract Lab 13: Writing a Flowbit Rule Lab 14: Extra Flowbits Challenge Lab 15: Strengthen Your Brute-Force Rule with Flowbits Lab 16: Research and Packet Analysis Lab 17: Revisiting the Kaminsky Vulnerability Lab 18: Configuring Rule Profiling Lab 19: Testing Rule Performance Lab 20: Configure Rule Profiling to View PCRE Performance Lab 21: Preventing User Access to a Restricted Site Lab 22: SQL Injection Lab 23: The SQL Attack Revisited

OVERVIEW IBM FlashSystem 9200 system is an all-flash, powerful end-to-end Non-Volatile Memory Express (NVMe) enterprise storage solution that combines the performance of IBM FlashCore technology, the ultra-low latency of Storage Class Memory (SCM), the rich features of IBM Spectrum Virtualize, and AI predictive storage management to provide intensive, data driven multi-cloud storage for the most critical demands. This digital module introduces the IBM FlashSystem 9200 control enclosures, 9846/9848 AG8 and UG8, and the IBM FlashSystem expansion enclosures, 9846/9848 AFF and A9F. It also focuses on FlashCore Technology, scalability, and RAID protection solutions. OBJECTIVES Recall the history and fundamentals of the IBM Flash System storage Categorize the capabilities of the features of IBM Spectrum Virtualize with the IBM FlashSystem 9200 Summarize the architecture of the IBM FlashSystem 9200 Identify the various elements of FlashSystem 9200 Scale Up/Scale Out Solutions List the requirements that support intermixing cluster solutions CONTENT Evolution of FlashSystems IBM Spectrum Virtualize: Improving Storage Efficiency IBM FlashSystem 9200 Architecture overview IBM FlashCore Technology IBM FlashSystem 9200 SAS-Attached Flash storage Scale up and scale out solutions RAID protection solutions

OVERVIEW The Securing Cisco Networks with Open Source Snort course shows you how to deploy a network intrusion detection system based on Snort. Through a combination of expert instruction and hands-on practice, you will learn how to install, configure, operate, and manage a Snort system, rules writing with an overview of basic options, advanced rules writing, how to configure PulledPork, and how to use OpenAppID to provide protection of your network from malware. You will learn techniques of tuning and performance monitoring, traffic flow through Snort rules, and more. This course is worth 20 Continuing Education (CE) Credits e-Learning Interactive self-paced content that provides flexibility in terms of pace, place and time to suit individuals and organisations. These resources also consist of online books, educational podcasts and vodcasts, and video-based learning. OBJECTIVES After completing this course, you should be able to: Describe Snort technology and identify the resources available for maintaining a Snort deployment  Install and configure a Snort deployment  Configure the command-line options for starting a Snort as a sniffer, a logger, and an intrusion detector, and create a script to start Snort automatically  Identify and configure available Snort intrusion detection outputs  Describe rule sources, updates, and utilities for managing rules and updates  Detail the components of the snort.lua file and determine how to configure it for your deployment  Configure Snort for inline operation using the inline-only features  Configure rules for Snort using basic rule syntax  Describe how traffic flows through Snort and how to optimize rules for better performance  Configure advanced-rule options for Snort rules  Configure OpenAppID features and functionality  Tune Snort for efficient operation and profile system performance  CONTENT Snort Technology Introduction Snort Basics Snort Resources Snort Installation Installation Prerequisites Performing the Snort Installation Snort Operation Introduction Running Snort from the Command Line Configuring Snort to Start Automatically Snort Intrusion Detection Output Configuring Snort Intrusion Detection Output Rule Management Snort Rulesets PulledPork Installation and Configuration Snort Configuration Examining the snort.lua File Inspector Configuration Inline Operation and Configuration Configuring Inline Operation Configuring Inline-Specific Features Snort Rule Syntax and Usage Basic Rule Syntax Common Rule Options Snort Rule Traffic Processing Flow Examining Snort Traffic Flow Advanced Rule Options PCRE Rule Options Hash Rules Byte Rule Options Implementing Flowbits File Detention OpenAppID Detection Configuration Exploring the Open AppID Preprocessor Examining AppID Events and Statistics Detector Basics Snort Tuning Viewing Performance Statistics Configuring Snort Rule Filters Implementing BPFs in Snort Performance Profiling Labs Discovery Lab 1: Connecting to the Lab Environment Discovery Lab 2: Snort Installation Discovery Lab 3: Snort Operation Discovery Lab 4: Snort Intrusion Detection Output Discovery Lab 5: PulledPork Installation Discovery Lab 6: Configuring Variables Discovery Lab 7: Reviewing Inspector Configurations Discovery Lab 8: Inline Operation Discovery Lab 9: Basic Rule Syntax and Usage Discovery Lab 10: Advanced Rule Options Discovery Lab 11: OpenAppID Configuration Discovery Lab 12: Tuning Snort

OVERVIEW The Implementing Secure Solutions with Virtual Private Networks (SVPN) course teaches you how to implement, configure, monitor, and support enterprise Virtual Private Network (VPN) solutions. Through a combination of lessons and hands-on experiences you will acquire the knowledge and skills to deploy and troubleshoot traditional Internet Protocol Security (IPsec), Dynamic Multipoint Virtual Private Network (DMVPN), FlexVPN, and remote access VPN to create secure and encrypted data, remote accessibility, and increased privacy. This course is worth 40 Continuing Education (CE) Credits OBJECTIVES After completing this course you should be able to: Introduce site-to-site VPN options available on Cisco router and firewalls Introduce remote access VPN options available on Cisco router and firewalls Review site-to-site and remote access VPN design options Review troubleshooting processes for various VPN options available on Cisco router and firewalls   CONTENT Introducing VPN Technology Fundamentals Role of VPNs in Network Security VPNs and Cryptography Implementing Site-to-Site VPN Solutions Site-to-Site VPN Solutions Overview Cisco IOS VPN Point-to-Point Solutions Cisco ASA VPN Point-to-Point Solutions Cisco IOS VTI Point-to-Point Solutions Cisco DMVPN Solutions Implementing Cisco Internetwork Operating System (Cisco IOS®) Site-to-Site FlexVPN Solutions Overview of the Cisco FlexVPN Solution Point-to-Point FlexVPN Hub-and-Spoke FlexVPN Spoke-to-Spoke FlexVPN Implement Cisco IOS Group Encrypted Transport (GET) VPN Solutions Overview of Cisco GET VPN Solution Configure GET VPN Implementing Cisco AnyConnect VPNs Remote Access Overview Design Remote Access Solutions Basic Cisco AnyConnect VPN on Cisco ASA Advanced Cisco AnyConnect TLS VPN on Cisco ASA Advanced AAA in Cisco AnyConnect VPNs Cisco AnyConnect IKEv2 VPNs Implementing Clientless VPNs Remote Access Overview Design Remote Access Solutions Clientless TLS VPN Overview Basic Cisco AnyConnect TLS VPN on Cisco ASA Application Access in Cisco ASA Clientless VPN Advanced AAA in Clientless VPN Labs Discovery Lab 1: Explore IPsec Technologies Discovery Lab 2: Implement and Verify Cisco IOS Point-to-Point VPN Discovery Lab 3: Implement and Verify Cisco ASA Point-to-Point VPN Discovery Lab 4: Implement and Verify Cisco IOS VTI VPN Discovery Lab 5: Implement and Verify DMVPN Discovery Lab 6: Troubleshoot DMVPN Discovery Lab 7: Implement and Verify FlexVPN with Smart Defaults Discovery Lab 8: Implement and Verify Point-to-Point FlexVPN Discovery Lab 9: Implement and Verify Hub and Spoke FlexVPN Discovery Lab 10: Implement and Verify Spoke-to-Spoke FlexVPN Discovery Lab 11: Troubleshoot Cisco IOS FlexVPN Discovery Lab 12: Implement and Verify AnyConnect TLS VPN on ASA Discovery Lab 13: Implement and Verify AAA on AnyConnect VPN Discovery Lab 14: Implement and Verify Clientless VPN on ASA