Course Overview

This one-day course is designed to provide students with the knowledge required to manage the Junos Space Network Director application and to manage devices with that application. 

Students will gain in-depth knowledge of how to work with Network Director. 

Through demonstrations and hands-on labs, students will gain experience with the features of Network Director. 

This course is based on Junos Space Release 19.2R1 and Network Director 3.7.

Junos Space—Network Director (JS-ND) is an intermediate-level course.

Course Objectives

After successfully completing this course, you should be able to: 

• Explain the role of the Network Director. 

• Understand network views. 

• Describe the Network Director modes. 

• Build and deploy profiles. 

• Monitor managed devices. 

• Troubleshoot managed devices. 

• Generate reports through Network Director.

Course Content

Day 1

Course Introduction 

Working with Network Director 

• Network Director Overview 

• Network Director Views 

• Network Director Modes 

Lab 1: Working with Network Director

Managing Devices 

• Device Discovery 

Lab 2: Device Discovery 

• Image Management 

• Creating and Deploying Profiles 

• Case Study 

Lab 3: Managing Devices

Monitor, Fault, and Report Modes 

• Monitor Mode 

• Fault Mode 

• Report Mode 

Lab 4: Exploring Monitor and Report Modes

Please note that the following Appendix is not covered as standard in the course but can be included if requested at the time of booking.

Implementing Zero Touch Provisioning 

• ZTP Overview 

• Configure and Implement ZTP with Network Director Case Study

Course Overview

This three-day course provides students with the knowledge required to manage the Junos Space appliance and manage devices with Junos Space. 

Students will understand how to install Junos Space into a multimode Space Fabric, as well as learn how to administer and monitor the Fabric. 

Centralized Junos device management options offered by the Junos Space Network Management Platform will be explored, including configuration backup, synchronization, Junos image distribution, and application of templates. 

Students will also learn how to automate Junos Space management functions using Ansible. 

This content is current to Junos Space software release 20.1R1.2.

The Junos Space Essentials (JSE) course is an intermediate level course.

Relevant Juniper Product

• Automation • Network Management • Junos Space

Course Objectives

• Explain the benefits of Junos Space software.

• Describe the Junos Space architecture.

• List and identify the components and applications of Junos Space.

• Describe the two different form factors available for Junos Space.

• Perform the initial setup of Junos Space.

• Explain Junos Space security features and requirements.

• Explain how to navigate the Junos Space GUI.

• Describe multi-node Junos Space deployments.

• Describe the services that are used in a Junos Space deployment.

• Describe FMPM deployment.

• Describe High Availability failover scenarios.

• Describe how to manage jobs.

• Describe Roles, Users, and Domains.

• Describe how to recover from password lass and locked accounts.

• Explain how to manage Junos Space Network Management Platform.

• Describe how Junos Space discovers and manages devices.

• Edit device configurations.

• Upgrade the firmware of manage devices.

• Describe the differences between template definitions and templates

• Create and use templates and template definitions.

• Create Quick Templates.

• Create and deploy CLI Configlets.

• Describe the purposes of network monitoring.

• View nodes, node links and alarms using the Topology workspace.

• Configure and manage network monitoring features.

• Describe how reports function within Junos Space.

• Manage predefined and custom report definitions.

• Describe how to generate reports.

• Describe the benefits of using Ansible with the Junos Space Collection.

• List the Junos Space Collection modules and describe their purpose.

• Implement basic Ansible playbooks to work with Junos Space.

Course Content

Day 1

Course Introduction

Introduction to Junos Space

• Junos Space Overview

• Junos Space Architecture

• Junos Space Applications

• Junos Space Features

Junos Space Deployment 

• Junos Space Platforms

• Junos Space Initial Setup

• Initial Setup of Primary Node

• Junos Space Security

• Junos Space GUI 

LAB 1: Deploying Junos Space

Deploying Junos Space in a Fabric

• Junos Space Fabric Overview

• Junos Space Services

• Fabric Creation

• FMPM Nodes

• High Availability Failover Scenarios

LAB 2: Deploying Junos Space Fabric

Day 2

Platform Administration

• Job Management

• Roles, Users and Domains

• Recovery from Password Loss and Lockout

• Managing Junos Space

LAB 3: Platform Administration

Device Management

• Discover and Manage Devices

• Configure Devices

• Upgrade Device Firmware

LAB 4: Network Management Platform

Junos Space Templates

• Introduction to Templates

• Creation and Application of Template Definitions

• Creation and Application of Templates

• Quick Templates

• Creation and Application of CLI Configlets

LAB 5: Configuring and Applying Templates

Day 3

Network Monitoring

• Monitoring Network Devices

• Monitoring the Network using the Topology View

• Network Monitoring Features

• Searching for Nodes and Assets

LAB 6: Network Monitoring

Reports

• Reports Overview

• Report Definitions

• Generating Reports

LAB 7: Reports

Junos Space Automation using Ansible

• Ansible Overview

• YAML and JSON

• Ansible Modules for Space and Security Director

• Setting up the Ansible Environment

• Creating and Running Ansible Playbooks

LAB 8: Junos Space Automation

Course Overview

This three-day course is designed to provide students with MPLS-based Layer 3 virtual private network (VPN) knowledge and configuration examples. 

The course includes an overview of MPLS Layer 3 VPN concepts, scaling Layer 3 VPNs, Internet access, Interprovider Layer 3 VPNs, and Multicast for Layer 3 VPNs. 

This course also covers Junos operating system-specific implementations of Layer 3 VPNs. 

These concepts are put into practice with a series of in-depth hands-on labs, which will allow participants to gain experience in configuring and monitoring Layer 3 VPNs on Junos OS devices. 

These hands-on labs utilize Juniper Networks vMX Series devices using the Junos OS Release 19.4R1.10, and are also applicable to other MX Series devices.

The Junos Layer 3 VPNs (JL3V) course is an advanced-level course.

Relevant Juniper Product

• Routing • Junos OS • M Series • T Series • MX Series • PTX Series • Service Provider Routing and Switching Track

Course Objectives

• Describe the value of MPLS VPNs.

• Describe the differences between provider-provisioned VPNs and customerprovisioned VPNs.

• Describe the differences between Layer 2 VPNs and Layer 3 VPNs.

• List the provider-provisioned MPLS VPN features supported by the Junos OS software.

• Describe the roles of a CE device, PE router, and P router in a BGP Layer 3 VPN.

• Describe the format of the BGP routing information, including VPN-IPv4 addresses and route distinguishers.

• Describe the propagation of VPN routing information within an AS.

• List the BGP design constraints to enable Layer 3 VPNs within a provider network.

• Explain the operation of the Layer 3 VPN data plane within a provider network.

• Create a routing instance, assign interfaces to a routing instance, create routes in a routing instance, and import/export routes from a routing instance using route distinguishers/route targets.

• Describe the purpose of BGP extended communities, configure extended BGP extended communities, and use BGP extended communities.

• List the steps necessary for proper operation of a PE-CE dynamic routing protocol.

• List the troubleshooting and monitoring techniques for routing instances.

• Explain the difference between the bgp.l3vpn table and the inet.0 table of a routing instance.

• Monitor the operation of a CE-PE dynamic routing protocol.

• Explain the operation of a PE multi-access interface in a Layer 3 VPN and list commands to modify that behavior.

• Describe ways to support communication between sites attached to a common PE router.

• Provision and troubleshoot hub-and-spoke Layer 3 VPNs,

• Describe the flow of control traffic and data traffic in a hub-and-spoke Layer 3 VPN.

• Describe QoS mechanisms available in L3VPNs.

• Configure L3VPN over GRE tunnels.

• Describe the RFC 4364 VPN options.

• Describe the carrier-of-carriers model.

• Configure the carrier-of-carriers and “Option C” configuration.

• Describe the flow of control and data traffic in a draft-rosen multicast VPN.

• Describe the configuration steps for establishing a draft-rosen multicast VPN.

• Monitor and verify the operation of draft-rosen multicast VPNs.

• Describe the flow of control traffic and data traffic in a next-generation multicast VPN.

• Describe the configuration steps for establishing a next-generation multicast VPN.

• Monitor and verify the operation of next-generation multicast VPNs.

• Describe the flow of control traffic and data traffic when using MPVNs for Internet multicast.

• Describe the configuration steps for enabling internet multicast using MVPNs.

• Monitor and verify the operation of MVPN internet multicast.

Course Content

Day 1

Course Introduction

MPLS VPNs

• MPLS VPNs

• Provider-Provisioned VPNs

Layer 3 VPNs 

• Layer 3 VPN Terminology

• VPN-IPv4 Address Structure

• Operational Characteristics

Basic Layer 3 VPN Configuration

• Preliminary Steps

• PE Router Configuration

LAB: Layer 3 VPN with Static and BGP Routing

Layer 3 VPN Scaling and Internet Access

• Scaling Layer 3 VPNs

• Public Internet Access Options

LAB: LDP over RSVP Tunnels and Public Internet Access

Day 2

Layer 3 VPNs – Advanced Topics 

• Exchanging Routes between Routing Instances

• Hub-and-Spoke Topologies

• Layer 3 VPN CoS Options

• Layer 3 VPN and GRE Tunneling Integration

• Layer 3 VPN and IPsec Integration

• Layer 3 VPN Egress Protection

• BGP Prefix-Independent Convergence (PIC)

• Edge for MPLS VPNs

• VRF Localization

• Provider Edge Link Protection

• Support for Configuring More Than 3 Million L3VPN Labels

LAB: GRE Tunneling and Route Redistribution

Interprovider Backbones for Layer 3 VPNs 

• Hierarchical VPN Models

• Carrier-of-Carriers Model

• Option C Configuration

LAB: Carrier-of-Carriers VPNs

Troubleshooting Layer 3 VPNs

• Working with Multiple Layers

• Troubleshooting Commands on a PE Device

• Multi-Access Interfaces in Layer 3 VPNs

• PE and CE-Based Traceroutes

• Layer 3 VPN Monitoring Commands

LAB: Troubleshooting Layer 3 VPNs

Day 3

Draft Rosen Multicast VPNs 

• Multicast Overview

• Draft Rosen MVPN Overview

• Draft Rosen MVPN Operation

• Configuration

• Monitoring

Next-Generation Multicast VPNs

• Multicast VPN Overview

• Next-Generation MVPN Operation

• Configuration

• Monitoring

• Internet Multicast

• Ingress Replication

• Internet Multicast Signaling and Data Plane

• Configuring MVPN Internet Multicast

• Monitoring MVPN Internet Multicast

LAB: MVPNs

Course Overview

This two-day course provides students with advanced class-of-service (CoS) knowledge and configuration examples. 

The course begins with an overview of CoS before going into classification, policing, scheduling, and rewriting. 

The course then covers class-based forwarding and finishes with a case study. 

Through demonstrations and hands-on labs, students will gain experience in configuring and verifying Junos CoS features. 

This course is based on the Junos operating system Release 21.1R1. 

The Junos Class of Service (JCOS) is an advanced-level course.

Course Objectives

• Understand the history and evolution of CoS.

• Identify the CoS fields in various packet headers.

• List the CoS processing stages on devices running the Junos OS.

• Identify the default CoS settings on devices running the Junos OS.

• Configure and verify behavior aggregate (BA) and multifield (MF) classification.

• Configure and verify two-color and tricolor marking policers.

• Configure and verify schedulers and their components.

• Configure and verify the multiple levels of hierarchical schedulers.

• Configure and verify packet header rewriting.

• Configure and verify class-based forwarding.

• Create a CoS configuration based on a set of design requirements.

Course Content

DAY 1

Course Introduction

CoS Overview

• CoS History and Evolution

• CoS and DiffServ

• CoS Fields in Packet Headers

• CoS Processing 

Packet Classification

• Classification Overview

• Forwarding Classes and Packet Loss Priority

• Fixed Classification

• Multifield Classification

• Behavior Aggregate Classification

Lab 1: Configuring Packet Classification

Policing

• Policing Overview

• Single-Rate Two-Color Policer

• Tricolor Marking Policers

• Hierarchical Policers

• Application—Directly on an Interface

• Application—Within a Firewall Filter

Lab 2: Configuring Policers

Scheduling

• Scheduling Overview

• Transmission Rate

• Queue Priority

• Delay Buffers

• Drop Profiles and Drop Profile Maps

• Scheduling Configuration

Lab 3: Configuring Schedulers

DAY 2 

Hierarchical Scheduling

• Hierarchical Scheduling Overview

• Scheduler Modes

• Hierarchical Scheduling Levels

• Throughput Example

• Remaining Traffic

• Queue Properties in a Hierarchical Scheduling Context

• Putting It All Together

Lab 4—Configuring Hierarchical Scheduling

Rewrite Rules

• Packet Header Rewrite Overview

• Rewrite Rules and Tables

• Rewrite Combinations

Lab 5: Configuring Rewrite Rules

CoS-Based Forwarding

• CBF Overview

• CBF Configuration

Lab 6: Configuring CBF 

Case Study

• VoIP Case Study Overview

• VoIP Case Study: Ingress Node

• VoIP Case Study: Transit and Egress Nodes

Course Overview

This five-day course is designed to provide students with the knowledge required to work with Juniper Connected Security devices. 

This course uses Junos CLI, Security Directory, J-Web, and other Web user interfaces to introduce students to Juniper Connected Security devices. 

The course provides further instruction on how Juniper Networks approaches a complete security solution for current and future security problems, called Juniper Connected Security. 

Key topics include tasks for advanced security policies, application-layer security using the AppSecure suite, intrusion prevention system (IPS) rules and custom attack objects, Security Director management, Juniper Advanced Threat Prevention (ATP) Cloud management, Juniper ATP Appliance management, Juniper Secure Analytics (JSA) management, Policy Enforcer management, Juniper Identity Management Service (JIMS), vSRX and cSRX usage, SSL Proxy configuration, and SRX high availability configuration and troubleshooting. 

Through demonstrations and hands-on labs, students will gain experience in configuring and monitoring the Junos OS and monitoring basic device operations. 

This course is based on Junos OS Release 22.1R2, Junos Space 22.2R1, Security Director 22.2R1, JATP 5.0.6.0, JSA v7.3.2, Policy Enforcer 22.2R1, and JIMS 1.1.5R1. 

Course Level

Juniper Security (JSEC) is an intermediate-level course.

Relevant Juniper Product

• JIMS • JSA • Juniper ATP Appliance • Juniper ATP Cloud • Junos OS • Security Director • SRX Series

Course Objectives

After successfully completing this course, you should be able to: 

• Explain the function of SSL Proxy. 

• Explain how application security theory works. 

• Discuss in depth the AppSecure modules. 

• Describe unified security policies. 

• Review the different security policy options. 

• Explain the basics of intrusion detection. 

• Describe the Juniper ATP Cloud solutions. 

• Describe the ATP Cloud features. 

• Introduce Security Director. 

• Explain the purpose of Policy Enforcer. 

• Examine the different virtualized SRX instances. 

• Describe the Juniper Identity Management Service. 

• Explain chassis cluster concepts. 

• Explain how to set up a chassis cluster. 

• Review troubleshooting steps for chassis clusters. 

• Explain Juniper ATP Appliance components. 

• Explain how to set up a Juniper ATP Appliance.

• Explain how the Juniper Secure Analytics device works.

Course Content

Day 1

Course Introduction

SSL Proxy 

• Explain why SSL proxy is necessary 

• Describe and configure client-protection SSL proxy 

• Describe and configure server-protection SSL proxy 

• Discuss how to monitor SSL proxy 

• Explain SSL mirror decrypt feature 

Lab 1: SSL Proxy Client Protection 

Application Security Theory 

• Describe the functionality of the AppSecure suite 

• Explain how application identification works 

• Describe how to create custom application signatures 

• Explain the purpose of the application system cache 

Application Security Implementation 

• Discuss in depth the AppSecure modules 

Lab 2: Implementing AppSecure 

Unified Security Policies 

• Explain unified security policy evaluation 

• Explain URL Category options 

Lab 3: Unified Security Policies

Day 2

Security Policy Options 

• Explain session management options 

• Explain Junos ALG functionality 

• Implement policy scheduling 

• Explain logging 

Lab 4: Security Policy Options 

Intrusion Detection and Prevention 

• Describe the purpose of IPS 

• Utilize and update the IPS signature database 

• Configure IPS policy 

• Utilize and configure IPS policy using a template 

• Monitor IPS operations Lab 5: IPS 

Juniper ATP Cloud 

• Describe the Juniper ATP Cloud Web UI options 

• Configure the SRX Series Firewall to use Juniper ATP Cloud anti-malware 

• Discuss an Infected Host case study 

Lab 6: Juniper ATP Cloud Anti-Malware 

Juniper ATP Cloud Features 

• Explain Security Intelligence 

• Describe Encrypted Traffic Insights 

• Describe Adaptive Threat Profiling 

• Explain IoT Security 

Lab 7: ATP Cloud Features

Day 3

Introduction to Security Director 

• Explain how to use Security Director 

• Describe how to configure firewall policies 

• Deploy configuration changes using Security Director 

Lab 8: Working with Security Director 

Security Director with Policy Enforcer 

• Explain how to configure a secure fabric 

• Describe how infected host remediation occurs 

Lab 9: Configuring Juniper Connected Security 

Virtual SRX and cSRX 

• Explain virtualization 

• Discuss network virtualization and software-defined networking 

• Review the virtual SRX platform 

• Review the cSRX platform 

• Deploy the virtual SRX 

• Integrate the virtual SRX with public cloud services 

Lab 10: vSRX Implementation 

Juniper Identity Management Service 

• Explain how to install Juniper Identity Management Service 

• Configure Juniper Identity Management Service 

• Describe troubleshooting Juniper Identity Management Service 

Lab 11: Juniper Identity Management Service

Day 4

Chassis Cluster Concepts 

• Describe chassis clusters 

• Identify chassis cluster components 

• Describe chassis cluster operation 

Chassis Cluster Implementation 

• Configure chassis clusters 

• Describe advanced chassis cluster options 

Lab 12: Implementing Chassis Clusters 

Chassis Cluster Troubleshooting 

• Troubleshoot chassis clusters 

• Review chassis cluster case studies 

Lab 13: Troubleshooting Chassis Clusters

Day 5

Juniper ATP Appliance—Overview 

• Explain the Cyber Kill Chain model 

• Define deployment models for Juniper ATP Appliance 

Implementing Juniper ATP Appliance 

• Describe how to configure an SRX Series device with ATP Appliance 

• Describe how to mitigate a threat with the ATP Appliance Web UI 

• Demo Video: Implementing Juniper ATP Appliance 

Juniper Secure Analytics 

• Describe the JSA Series device and its basic functionality 

• Define how JSA processes log activity 

• Explain how JSA processes network activity 

• Explain how to customize the processing of information 

Lab 14: Monitoring with JSA

Course Overview

ISO/IEC 27035 Lead Incident Manager training enables you to acquire the necessary expertise to support an organization in implementing an Information Security Incident Management plan based on ISO/IEC 27035. During this training course, you will gain a comprehensive knowledge of a process model for designing and developing an organizational incident management plan. The compatibility of this training course with ISO/IEC 27035 also supports the ISO/IEC 27001 by providing guidance for Information Security Incident Management.

After mastering all the necessary concepts of Information Security Incident Management, you can sit for the exam and apply for a “PECB Certified ISO/IEC 27035 Lead Incident Manager” credential. By holding a PECB Lead Incident Manager Certificate, you will be able to demonstrate that you have the practical knowledge and professional capabilities to support and lead a team in managing Information Security Incidents.

Course Objectives

• Master the concepts, approaches, methods, tools and techniques that enable an effective Information Security Incident Management according to ISO/IEC 27035
• Acknowledge the correlation between ISO/IEC 27035 and other standards and regulatory frameworks
• Acquire the expertise to support an organization to effectively implement, manage and maintain an Information Security Incident Response plan
• Acquire the competence to effectively advise organizations on the best practices of Information Security Incident Management
• Understand the importance of establishing well-structured procedures and policies for Incident Management processes
• Develop the expertise to manage an effective Incident Response Team

Course Content

• Day 1: Introduction to Information Security Incident Management concepts as recommended by ISO/IEC 27035
• Day 2: Designing and preparing an Information Security Incident Management plan
• Day 3: Enacting the Incident Management process and handling Information Security incidents
• Day 4: Monitoring and continual improvement of the Information Security Incident Management plan
• Day 5: Certification Exam 

Course Overview

ISO/IEC 27032 Lead Cybersecurity Manager training enables you to acquire the expertise and competence needed to support an organization in implementing and managing a Cybersecurity program based on ISO/IEC 27032 and NIST Cybersecurity framework. During this training course, you will gain a comprehensive knowledge of Cybersecurity, the relationship between Cybersecurity and other types of IT security, and stakeholders’ role in Cybersecurity. 

After mastering all the necessary concepts of Cybersecurity, you can sit for the exam and apply for a “PECB Certified ISO/IEC 27032 Lead Cybersecurity Manager” credential. By holding a PECB Lead Cybersecurity Manager Certificate, you will be able to demonstrate that you have the practical knowledge and professional capabilities to support and lead a team in managing Cybersecurity.

Course Objectives

• Acquire comprehensive knowledge on the elements and operations of a Cybersecurity Program in conformance with ISO/IEC 27032 and NIST Cybersecurity framework
• Acknowledge the correlation between ISO 27032, NIST Cybersecurity framework and other standards and operating frameworks
• Master the concepts, approaches, standards, methods and techniques used to effectively set up, implement, and  manage a Cybersecurity program within an organization 
• Learn how to interpret the guidelines of ISO/IEC 27032 in the specific context of an organization
• Master the necessary expertise to plan, implement, manage, control and maintain a Cybersecurity Program as specified in ISO/IEC 27032 and NIST Cybersecurity framework 
• Acquire the necessary expertise to advise an organization on the best practices for managing Cybersecurity 

Course Content

• Day 1: Introduction to Cybersecurity and related concepts as recommended by ISO/IEC 27032
• Day 2: Cybersecurity policies, risk management and attack mechanisms
• Day 3: Cybersecurity controls, information sharing and coordination
• Day 4: Incident management, monitoring and continuous improvement
• Day 5: Certification Exam

Course Overview

ISO/IEC 27002 Manager training course provides information on the implementation and management of information security controls based on ISO/IEC 27002.

Why should you attend?

ISO/IEC 27002 Manager enables participants to acquire the necessary knowledge and skills to support an organization in selecting, implementing, and managing information security controls based on ISO/IEC 27002. The training course provides information that will help participants in gaining a thorough understanding of how information security risks can be treated by selecting relevant controls, especially in the context of an information security management system (ISMS).

A PECB ISO/IEC 27002 Manager certification will enable you to demonstrate your comprehensive knowledge in the implementation and management of information security controls based on industry best practices.

Course Objectives

By successfully completing this training course, you will be able to:

• Explain the fundamental concepts of information security, cybersecurity, and privacy based on ISO/IEC 27002
• Discuss the relationship between ISO/IEC 27001, ISO/IEC 27002, and other standards and regulatory frameworks
• Support an organization in effectively determining, implementing, and managing information security controls based on ISO/IEC 27002

Course Content

• Day 1: Introduction to ISO/IEC 27002
• Day 2: Information assets, people controls, physical controls, and operational security controls
• Day 3: Information security incident management and monitoring of information security controls and certification exam

Course Overview

The ISO/IEC 27002 Lead Manager training course enables participants to acquire a comprehensive knowledge and understanding of the implementation and management of information security controls based on ISO/IEC 27002.

Why Should You Attend?

The ISO/IEC 27002 Lead Manager training course enables participants to develop the necessary knowledge and skills for supporting an organization in effectively determining, implementing, and managing information security controls. The training course provides information that will help participants interpret the ISO/IEC 27002 controls in the specific context of an organization.

The PECB ISO/IEC 27002 Lead Manager Certification demonstrates that you have acquired the necessary expertise for determining adequate information security controls needed to treat the risks identified by a risk assessment process.

The training course is followed by an exam. If you pass, you can apply for the “PECB Certified ISO/IEC 27002 Lead Manager” credential.

Course Objectives

Upon successfully completing the training course, participants will be able to:

• Explain the fundamental concepts of information security, cybersecurity, and privacy based on ISO/IEC 27002
• Acknowledge the relationship between ISO/IEC 27001, ISO/IEC 27002, and other standards and regulatory frameworks
• Interpret the ISO/IEC 27002 information security controls in the specific context of an organization
• Support an organization in effectively determining, implementing, and managing information security controls based on ISO/IEC 27002 
• Explain the approaches and techniques used for the implementation and effective management of information security controls

Course Content

• Day 1: Introduction to ISO/IEC 27002
• Day 2: Information security roles and responsibilities, people controls, and physical controls
• Day 3: Information security assets, access controls, and protection of information systems and networks
• Day 4: Information security incident management and testing and monitoring of information security controls based on ISO/IEC 27002
• Day 5: Certification exam

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Course Overview

This ISO/IEC 27001 Lead Implementer training enables you to develop the necessary expertise to support an organization in establishing, implementing, managing and maintaining an Information Security Management System (ISMS) based on ISO/IEC 27001.

During this training course, you will also gain a thorough understanding of the best practices of Information Security Management Systems to secure the organization`s sensitive information and improve the overall performance and effectiveness. After mastering all the necessary concepts of Information Security Management Systems, you can sit for the exam and apply for a “PECB Certified ISO/IEC 27001 Lead Implementer” credential. By holding a PECB Lead Implementer Certificate, you will be able to demonstrate that you have the practical knowledge and professional capabilities to implement ISO/IEC 27001 in an organization.

Virtual Learning

This interactive training can be taken from any location, your office or home and is delivered by a trainer. This training does not have any delegates in the class with the instructor, since all delegates are virtually connected. Virtual delegates do not travel to this course, Global Knowledge will send you all the information needed before the start of the course and you can test the logins.

Course Objectives

• Acknowledge the correlation between ISO/IEC 27001, ISO/IEC 27002 and other standards and regulatory frameworks
• Master the concepts, approaches, methods and techniques used for the implementation and effective management of an ISMS
• Learn how to interpret the ISO/IEC 27001 requirements in the specific context of an organization
• Learn how to support an organization to effectively plan, implement, manage, monitor and maintain an ISMS

Course Content

• Introduction to ISO/IEC 27001 and initiation of an ISMS
• Plan the implementation of an ISMS
• Implementation of an ISMS
• ISMS monitoring, measurement, continuous improvement and preparation for a certification audit
• Certification Exam