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Duration 4 Days 24 CPD hours This course is intended for Information Assurance Managers/Auditors System Implementors/administrators IT Administrators Auditors/Auditees Federal Agencies/Contractors Security Vendors and Consulting Groups Overview Upon completion, the IS20 Security Controls candidate will be able to not only competently take the IS20 Controls exam but will also have an understanding of how to implement the top 20 most critical controls in the work place. IS20 controls are the Top Twenty Most Critical Security Controls in Information Technology.ÿ This 4 day training course covers proven tools and methodologies needed to execute and analyze the Top Twenty Most Critical Security Controls. Nearly all organizations that maintain sensitive information are adopting these Security Controls. These controls were chosen by leading government and private organizations who are experts on how attacks work and what can be done to prevent them from happening. The controls were selected as the best way to block known attacks as well as help search for and alleviate any damage from the attacks that are successful. This course allows the security professional to see how to implement controls in an existing network through highly effective and economical automation. For management, this training is the best way to distinguish how you will assess whether these security controls are effectively being administered. Introduction Critical Control 1 Critical Control 2 Critical Control 3 Critical Control 4 Critical Control 5 Critical Control 6 Critical Control 7 Critical Control 8 Critical Control 9 Critical Control 10 Critical Control 11 Critical Control 12 Critical Control 13 Critical Control 14 Critical Control 15 Critical Control 16 Critical Control 17 Critical Control 18 Critical Control 19 Critical Control 20

Duration 2 Days 12 CPD hours This two-day course provides students an opportunity to learn about the skills, tools, and knowledge needed to deploy iOS devices. Interactive discussions and hands-on exercises guide students through the configuration, management, and supervision of iOS devices. Students? knowledge and skills are tested and reinforced by working through real-world scenarios The Role of MDM, VPP, and DEP How to successfully deploy iOS devices Identify and respond to challenges when deploying and managing devices without MDM Apple IDs Explain what an Apple ID is and identify when it?s needed Security How security is relevant in the context of a given deployment scenario Design and implement a deployment solution for a given scenario DEP Devices Configure DEP registered devices for Over-the-Air Enrollment Configure and manage settings, apps, and content on user-owned and company-owned devicesPrerequisites Manual Configuration Explore the challenges and inconsistencies when manually configuring multiple devices. Creating Configuration profiles using Apple Configurator to view and edit a configuration profile. Learn how profiles ensure consistency across multiple devices Manage Settings The iOS MDM protocol How a MDM solution is used to configure and manage devices over-the-air with consistency and accountability Apps and Content Introduce and define VPP Assign apps and content to their user and then configure and test managed 'open in' functionality Company-Owned (Personalized and Shared) Configure settings to enable Over-the-Air Enrollment and supervision and learn how users can personalize company-owned devices. Configure and test shared (shared) device scenarios and how Apps and content are distributed to the devices Workshop Real-world deployment scenarios Design a deployment that meets your scenario?s needs

Duration 4 Days 24 CPD hours This course is intended for The primary audience for this course is as follows: System Engineers Network Engineers Technical Architects Technical Support Personnel Channel Partners Resellers Overview Upon completing the course, the learner will be able to meet these overall objectives: Describe Cisco SD-Access and how it relates to Cisco DNA Orchestrate a Cisco SD-Access solution using the Cisco DNA Center™ orchestration platform Use the Network Data Platform to demonstrate the assurance and analytics capabilities of SD-Access The Deploying Cisco SD-Access (ENSDA) v1.0 course is an instructor-led, lab based, hands-on course that teaches students how to successfully deploy the Cisco© Software-Defined Access (SD-Access) solution within their enterprise networks. The course discusses how Cisco SD-Access fits into the Cisco Digital Network Architecture (Cisco DNA?). It covers SD-Access fundamentals, provisioning, policies, wireless integration, border operations, and migration strategies. Module 1: Cisco SD-Access Overview Lesson 1: Exploring Cisco SD-Access Lesson 2: Describing the Cisco SD-Access Architecture Lesson 3: Exploring Cisco DNA Center Lesson 4: Configuring Underlay Automation Module 2: Cisco SD-Access Implementation Lesson 1: ISE Integration in DNA Center Lesson 2: Policy Provisioning Basics Lesson 3: Navigating and Managing the Policy Application Workflows Module 3: Cisco SD-Access Border Operations Lesson 1: Cisco SD-Access Deployment Models Lesson 2: Connecting the Fabric to External Domains Module 4: Wireless Integration Orchestration Lesson 1: Integrating Wireless with the Cisco SD-Access Solution Lesson 2: Workflow of Cisco SD-Access Wireless Lesson 3: Cisco SD-Access Wireless Network Design Lesson 4: Cisco SD-Access Wireless Basic Operation Module 5: Cisco SD-Access Assurance and Migration Lesson 1: Cisco Network Data Platform Lesson 2: Cisco SD-Access Migration Strategies

Duration 5 Days 30 CPD hours This course is intended for Network professionals, including systems engineers Channel Partners Customers Overview After taking this course, you should be able to: Describe IP multicast services Identify IP multicast issues on a data link layer Explain why Protocol Independent Multicast Sparse Mode (PIM-SM) is the most current scalable IP multicast routing protocol Describe Rendezvous Point (RP) distribution solutions Recognize the drawbacks of the PIM-SM and describe two extensions to provide possible solutions Explain basic concepts of Multiprotocol BGP (MP-BGP) and its use in the IP multicast environment Configure and deploy Multicast Source Discovery Protocol (MSDP) in the interdomain environment Describe solutions to mitigate security issues in the IP multicast network Describe the process of monitoring and maintaining multicast high-availability operations Design multicast-related application and network solutions in customer and service provider networks The Implementing Cisco Multicast (MCAST) v2.0 course teaches you the fundamentals of IP multicasting, including multicast applications, sources, receivers, group management, and IP multicast routing protocols such as Protocol Independent Multicast (PIM) used within a single administrative domain. You will learn about issues in switched LAN environments and reliable IP multicasting, and technical solutions for simple deployments of IP multicast within a provider or customer network. The course reviews the configuration and troubleshooting guidelines for implementation of IP multicast on Cisco© routers. Labs offer hands-on experience to help you prepare to deploy IP multicast successfully. Course Outline Module 1: IP Multicast Concepts and Technologies Module 2: Multicast on the LAN Module 3: PIM Sparse Mode Module 4: Rendezvous Point Engineering Module 5: PIM Sparse Mode Protocol Extensions Module 6: Multiprotocol Extensions for BGP Module 7: Interdomain IP Multicast Module 8: IP Multicast Security Module 9: Multicast Optimization and High-Availability Features Module 10: Applications of Multicast

Duration 3 Days 18 CPD hours This course is intended for Networking and security professionals involved in the management, configuration, administration, and monitoring of FortiGate devices used to secure their organizations' networks should attend this course. You should have a thorough understanding of all the topics covered in the FortiGate Security course before attending the FortiGate Infrastructure course. Overview After completing this course, the successful student should be able to: Deploy the appropriate operation mode for your network Use the GUI and CLI for administration Control network access to configured networks using firewall policies Apply port forwarding, source NAT, and destination NAT Authenticate users using firewall policies Understand encryption functions and certificates Inspect SSL/TLS-secured traffic to prevent encryption used to bypass security policies Configure security profiles to neutralize threats and misuse, including viruses, torrents, and inappropriate websites Apply application control techniques to monitor and control network applications that might use standard or non-standard protocols and ports Fight hacking and denial of service (DoS) Collect and interpret log entries Identify the characteristics of the Fortinet Security Fabric In this three-day course, you will learn how to use the most common FortiGate features, including security profiles. In interactive labs, you will explore firewall policies, the Fortinet Security Fabric, user authentication, and how to protect your network using security profiles, such as IPS, antivirus, web filtering, application control, and more. These administration fundamentals will provide you with a solid understanding of how to implement basic network security. Product Version FortiOS 7.2 Course Outline 1. Introduction and Initial Configuration 2. Firewall Policies 3. Network Address Translation 4. Firewall Authentication 5. Logging and Monitoring 6. Certificate Operations 7. Web Filtering 8. Application Control 9. Antivirus 10. Intrusion Prevention and Denial of Service 11. Security Fabric

Duration 2 Days 12 CPD hours This course is intended for Cybersecurity analysts and engineers and security operations specialists, as well as administrators and product deployers. Overview Successful completion of this instructor-led course with hands-on lab activities should enable you to: Describe the architecture and components of the Cortex XDR family Use the Cortex XDR management console Create Cortex XDR agent installation packages, endpoint groups, and policies Deploy Cortex XDR agents on endpoints Create and manage exploit and malware prevention profiles Investigate alerts and prioritize them using starring and exclusion policies Tune Security profiles using Cortex XDR exceptions Perform and track response actions in the Action Center Perform basic troubleshooting related to Cortex XDR agents Deploy a Broker VM and activate the Local Agents Settings applet Understand Cortex XDR deployment concepts and activation requirements Work with the Customer Support Portal and Cortex XDR Gateway for authentication and authorization This instructor-led training enables you to prevent attacks on your endpoints. After an overview of the Cortex XDR components, the training introduces the Cortex XDR management console and demonstrates how to install agents on your endpoints and how to create Security profiles and policies. The training enables you to perform and track response actions, tune profiles, and work with Cortex XDR alerts. The training concludes with discussions about basic troubleshooting of the agent, the on-premises Broker VM component, and Cortex XDR deployment. Course Outline This class is comprised of the following modules: Module 1 - Cortex XDR Family Overview Module 2 - Cortex XDR Main Components Module 3 - Cortex XDR Mangement Components Module 4 - Profiles and Policy Rules Module 5 - Malware Protection Module 6 - Exploit Protection Module 7 - Cortex XDR Alerts Module 8 - Tuning Policies using Exceptions Module 9 - - Response Actions Module 10 - Basic Agent Troubleshooting Module 11 - Broker VM Overview Module 12 - Deployment Consideration

Duration 3 Days 18 CPD hours This course is intended for This course is intended for individuals who want to learn how to update, upgrade, and reinstall macOS Catalina, then set up and configure the new macOS. Overview Upon successful completion of this course, students in this course will learn how to update, upgrade, and reinstall macOS Catalina, then set up and configure the new macOS. They will also be introduced to the command-line interface and macOS Recovery. Other course topics include: managing user accounts, system resources, Time Machine, user home folders managing file systems, storage, encryption, permissions, using hidden items, shortcuts, file archiving file sharing, metadata, Spotlight, network services, host sharing, and creating a personal firewall and much more. The students will also learn all about macOS security and password changes. In this course, students will be introduced to the command-line interface and mac OS Recovery. They will also manage user accounts and system resources. Installation and Configuration Update, Upgrade, or Reinstall macOS Set Up and Configure macOS Use the Command-Line Interface Use macOS Recovery Update macOS User Accounts Manage User Accounts Manage User Home Folders Manage Security and Privacy Manage Password Changes File Systems Manage File Systems and Storage Manage File Vault Manage Permissions and Sharing Use Hidden Items, Shortcuts, and File Archives Data Management Manage System Resources Use Metadata, Spotlight, and Siri Manage Time Machine Apps and Processes Install Apps Manage Files Manage and Troubleshoot Apps Network Configuration Manage Basic Network Settings Manage Advanced Network Settings Troubleshoot Network Issues Network Services Manage Network Services Manage Host Sharing and Personal Firewall System Management Troubleshoot Peripherals Manage Printers and Scanners Troubleshoot Startup and System Issues

Duration 2 Days 12 CPD hours This course is intended for DevOps Engineers Software Developers Telecommunications Professionals Architects Quality Assurance & Site Reliability Professionals Overview Automate basic freestyle projects Jenkins Pipelines and Groovy Programming Software lifecycle management with Jenkins Popular plugins Scaling options Integrating Jenkins with Git and GitHub (as well as other Software Control Management platforms) Triggering Jenkins with Webhooks Deploying into Docker and Kubernetes CI / CD with Jenkins This course covers the fundamentals necessary to deploy and utilize the Jenkins automation server. Jenkins enables users to immediately begin automating both their individual and collaborative workflows. Jenkins is a proven solution for a wide variety of tasks ranging from the helpful automation of scripts (such as Python and Ansible) to creating complex pipelines that govern the technical parts of not only Continuous Integration, but Continuous Delivery (CI/CD) as well. Jenkins is free, open source, and easily controlled with a simple web- based UI- it can be expanded by third party plugins and is deployable on nearly any on-site (Linux, Windows and Mac) or cloud platform. Overview of Jenkins Overview of Continuous Integration and Continuous Deployment (CI/CD) Understanding Git and GitHub Git Branching Methods for Installing Jenkins Jenkins Dashboard Jenkins Jobs Getting Started with Freestyle Jobs Triggering builds HTTP Web Hooks Augmenting Jenkins with Plugins Overview of Docker and Dockerfile for Building and Launching Images Pipeline Jobs for Continuous Integration and Continuous Deployment Pipeline Build Stage Pipeline Testing Stage Post Build actions SMTP and Other Notifications Programming Pipelines with Groovy More Groovy Programming Essentials Extracting Jenkins Data Analytics to Support Project Management Troubleshooting Failures Auditing stdout and stderr with Jenkins Jenkins REST API Controlling Jenkins API with Python Jenkins Security Scaling Jenkins Jenkins CLI Building a Kubernetes Cluster and Deploying Jenkins How to start successfully using Jenkins to automate aspects of your job the moment this course ends.

Duration 5 Days 30 CPD hours This course is intended for Linux Professional Institute Certification (LPIC-2) 201 training is suitable for individuals with roles of: System administrator Network administrator Technician DevOps Overview Upon successful completion of this course, students will be able to: measure hardware resource and network bandwidth, identify and troubleshoot resource problems monitor resource usage to predict future resource needs utilise kernel components that are necessary to specific hardware, hardware drivers, system resources and requirements properly configure a kernel to include or disable specific features of the Linux kernel as necessary manage and/or query a 2.6.x, 3.x or 4.x kernel and its loadable modules query and modify the behaviour of system services at various targets / run levels properly manipulate a Linux system during both the boot process and during recovery mode properly configure and navigate the standard Linux filesystem configure automount filesystems using AutoFS configure and implement software RAID configure kernel options to support various drives create and remove logical volumes, volume groups, and physical volumes use system tools to back up important system data. This course prepares students to take the 201 exam of the LPI level 2 certification. To gain LPIC-2 certification, an individual should have an active LPIC-1 certification. Capacity Planning Measure and Troubleshoot Resource Usage Predict Future Resource Needs Linux Kernel Kernel components Compiling a Linux kernel Kernel runtime management and troubleshooting System Startup Customising system startup System recovery Alternate Bootloaders Filesystem and Devices Filesystem and Devices Maintaining a Linux filesystem Creating and configuring filesystem options Advanced Storage Device Administration Configuring RAID Adjusting Storage Device Access Logical Volume Manager Networking Configuration Basic networking configuration Advanced Network Configuration Troubleshooting network issue System Maintenance Make and install programs from source Backup operations Notify users on system-related issues

Duration 2 Days 12 CPD hours This course is intended for Cybersecurity analysts and engineers Security operations specialists Overview Successful completion of this instructor-led course with hands-on lab activities should enable participants to: Investigate and manage incidents Describe the Cortex XDR causality and analytics concepts Analyze alerts using the Causality and Timeline Views Work with Cortex XDR Pro actions such as remote script execution Create and manage on-demand and scheduled search queries in the Query Center Create and manage the Cortex XDR rules BIOC and IOC Working with Cortex XDR assets and inventories Write XQL queries to search datasets and visualize the result sets Work with Cortex XDR's external-data collection This instructor-led course teaches you how to use the Incidents pages of the Cortex XDR management console to investigate attacks. It explains causality chains, detectors in the Analytics Engine, alerts versus logs, log stitching, and the concepts of causality and analytics. You will learn how to analyze alerts using the Causality and Timeline Views and how to use advanced response actions, such as remediation suggestions, the EDL service, and remote script execution. Multiple modules focus on how to leverage the collected data. You will create simple search queries in one module and XDR rules in another. The course demonstrate how to use specialized investigation views to visualize artifact-related data, such as IP and Hash Views. Additionally, it provides an introduction to XDR Query Language (XQL). The course concludes with Cortex XDR external-data collection capabilities, including the use of Cortex XDR API to receive external alerts. This class is powered by Cloud Harmonics. Course Outline Module 1 - Cortex XDR Incidents Module 2 - Causality and Analytics Concepts Module 3 - Causality Analysis of Alerts Module 4 - Advanced Response Actions Module 5 - Building Search Queries Module 6 - Building XDR Rules Module 7 - Cortex XDR Assets Module 8 - Introduction to XQL Module 9 - External Data Collection