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43.487 resultaten

Red Hat OpenShift Administration III: Scaling Deployments in the Enterprise (DO380) - RHLS-Course [DO380LS]

OVERVIEW Plan, implement, and manage OpenShift clusters at scale Red Hat OpenShift Administration III: Scaling Kubernetes Deployments in the Enterprise (DO380) expands upon the skills required to plan, implement, and manage OpenShift® clusters in the enterprise. You will learn how to configure and manage OpenShift clusters at scale to address increasing and special demands from applications and ensure reliability, performance, and availability. This course builds upon the essential skills required to configure and manage an OpenShift 4.x cluster, teaching the enhanced skills needed to operate production environments at scale. This course is based on Red Hat® OpenShift Container Platform 4.14. Note: This course is offered as a five day virtual class or self-paced. Updated July2025 OBJECTIVES After this course participants should be able to: Manage OpenShift cluster operators and add operators. Implement GitOps workflows using OpenShift GitOps operator. Integrate OpenShift with enterprise authentication. Query and visualize cluster-wide logs, metrics, and alerts. Backup and restore application settings and data with OpenShift APIs for Data Protection (OADP). Manage machine pools and machine configurations. CONTENT Authentication and Identity Management Configure OpenShift clusters to authenticate by using LDAP and OIDC enterprise identity systems and to recognize groups that those systems define. Backup, Restore, and Migration of Applications with OADP Backup and restore application settings and data with OpenShift APIs for Data Protection (OADP). Cluster Partitioning Configure a subset of cluster nodes to be dedicated to a type of workload. Pod Scheduling Configure workloads to run on a dedicated set of cluster nodes and prevent other workloads from using those cluster nodes. OpenShift GitOps Deploy OpenShift GitOps for managing clusters and applications. OpenShift Monitoring Troubleshoot performance and availability issues with applications and clusters. OpenShift Logging Deploy OpenShift logging and query log entries from workloads and cluster nodes.
€3.740
E-Learning

Microsoft Windows Automation with Red Hat Ansible Automation Platform (DO417) - RHLS-Course [DO417LS]

OVERVIEW Introduction to performing core system administration tasks by creating and running automation for a Windows Server using Red Hat Ansible Automation Platform. Microsoft Windows Automation with Red Hat Ansible Automation Platform (DO417) is designed for System administrators, DevOps engineers, and developers who want to learn how to automate the deployment and management of Microsoft Windows servers and applications hosted on them using Red Hat Ansible Automation Platform. Students learn how to create and run automation for Windows Server using Red Hat Ansible Automation Platform, in order to perform core system administration tasks Students can use automation to perform their tasks consistently, repeatably, and automatically, saving time and avoiding errors that might be caused by performing these tasks manually This course is based on Red Hat® Ansible Automation Platform 2.4. Note: DO417 is an entry-level Ansible course and does not require or provide Linux knowledge Following course completion, hands-on lab access will remain available for up to 45 days for any live course that includes a virtual environment.This course is offered as a four day in classroom, a five day virtual class or self-paced.  Updated : Nov2025 OBJECTIVES After this course participants should be able to: Write Ansible Playbooks that automate tasks on Microsoft Windows servers Manage Ansible Playbooks stored in a Git-based version control system Run Ansible Playbooks by using the automation controller web-based UI Manage and ensure software and Windows features are installed and up-to-date using Ansible automation Write efficient tasks in Ansible Playbooks by using loops, conditional tests, and handlers Write Ansible Playbooks that ensure plays can recover when tasks fail Deploy, modify, and manage files with Ansible on your Windows servers, use completed files and Jinja2 templates Manage local and domain users, manage Active Directory domains, and generate dynamic inventory of managed hosts in automation controller based on domain membership Automate specific, common Windows Server administration tasks Reuse existing automation code by using Ansible Content Collections, Ansible Roles, and Ansible integration with PowerShell Desired State Configuration (DSC) resources CONTENT Introducing Red Hat Ansible Automation Platform Describe the fundamental concepts of Ansible and how it is used, and install development tools from Red Hat Ansible Automation Platform Preparing for Ansible Operations Prepare Microsoft Windows hosts for Ansible automation and automation controller to run automation on those hosts Implementing Ansible Playbooks Write a simple playbook to automate tasks on multiple Microsoft Windows-based hosts, and then run the playbook with automation controller Managing Variables and Facts Write playbooks that use variables to simplify management of the playbook and facts to reference information about managed hosts Installing and Configuring Software Install, manage, and ensure software is up to date using Ansible Playbooks.Install, manage, and ensure software is up to date using Ansible Playbooks Implementing Task Control Manage task execution using loops, conditional tests, and handlers, and recover when tasks fail Deploying Files to Managed Hosts Deploy, modify, and manage files on your managed hosts Reusing Code with Ansible Roles and Ansible Content Collections Write playbooks that are optimized for larger and more complex projects and that reuse existing automation code Interacting with Users and Domains Manage local and domain users and Active Directory domains on managed hosts, and generate a dynamic inventory of managed hosts in automation controller based on domain membership Automating Windows Administration Tasks Automate common Windows Server administration tasks Comprehensive Review Review tasks from Microsoft Windows Automation with Red Hat Ansible Automation Platform
€3.740
E-Learning

Securing Kubernetes Clusters with Red Hat Advanced Cluster Security (DO430) - RHLS-Course [DO430LS]

OVERVIEW Address security challenges by applying Red Hat Advanced Cluster Security for Kubernetes in an OpenShift cluster environment. Customers want to learn how Red Hat Advanced Cluster Security for Kubernetes (RHACS) can help them solve their security challenges. However, their security teams might lack experience with Kubernetes and OpenShift, and so they have challenges with implementation.  In particular, their security teams have several needs: - Integrate RHACS with DevOps practices and know how to use it to automate DevSecOps, to enable their teams to operationalize and secure their supply chain, infrastructure, and workloads - Assess compliance based on industry-standard benchmarks and get remediation guidance - Apply vulnerability management, policy enforcement, and network segmentation to secure their workloads RHACS customers might already be using external image registries and Security Information and Event Management (SIEM) tools. They need to integrate RHACS with their existing set of external components to achieve their security goals. Following course completion, you will receive a 45-day extended access to hands-on labs for any course that includes a virtual environment. Note: This course is offered as a 3-day in-person class, a 4-day virtual class, or is self-paced. Durations might vary based on the delivery. For full course details, scheduling, and pricing, select your location and then “get started” from the right menu. OBJECTIVES Describe and implement the RHACS architecture and its components, follow recommended practices for its installation, and troubleshoot common installation issues Interpret vulnerability scanning results, generate vulnerability reports, and evaluate risks to prioritize your security actions Implement and enforce RHACS policies across all stages of policy enforcement to secure the CI/CD pipeline and to protect the software supply chain Identify and close security gaps in network policies by using Network Graph and apply the generated network policies in a CI/CD pipeline Run in-built compliance scans, and install and run the compliance operator to determine cluster compliance with security policies and standards and to produce reports and evidence of compliance Integrate RHACS with external components to provide additional functions, which include centralized alert notification, backup and restore, and identity and permission management CONTENT Installing Red Hat Advanced Cluster Security for Kubernetes Describe and implement the RHACS architecture and its components, follow recommended practices for its installation, and troubleshoot common installation issues. Vulnerability Management with Red Hat Advanced Cluster Security for Kubernetes Interpret vulnerability scanning results, generate vulnerability reports, and evaluate risks to prioritize your security actions. Policy Management with Red Hat Advanced Cluster Security for Kubernetes Implement and enforce RHACS policies across all stages of policy enforcement to secure the CI/CD pipeline and to protect the software supply chain. Network Segmentation with Red Hat Advanced Cluster Security for Kubernetes Identify and close security gaps in network policies by using Network Graph and apply the generated network policies in a CI/CD pipeline. Manage Compliance with Industry Standards with Red Hat Advanced Cluster Security for Kubernetes Run in-built compliance scans, and install and run the compliance operator to determine cluster compliance with security policies and standards and to produce reports and evidence of compliance. Integrate External Components with Red Hat Advanced Cluster Security for Kubernetes Integrate RHACS with external components to provide additional functions, which include centralized alert notification, backup and restore, and identity and permission management.
€2.805
E-Learning

Multicluster Management with Red Hat Advanced Cluster Management for Kubernetes (DO432) - RHLS-Course [DO432LS]

OVERVIEW Address challenges with management, compliance, and productivity of a multicluster Kubernetes environment and its applications by using the capabilities of Red Hat Advanced Cluster Management for Kubernetes. Multicluster Management with Red Hat Advanced Cluster Management for Kubernetes (RHACM) teaches the required skills to manage a fleet of containerized applications and Kubernetes clusters, by automating compliance with security, governance, and other organization policies, and by implementing GitOps practices. Note: This course is offered as a 3-day in-person class, a 4-day virtual class, or self-paced. Durations might vary based on the delivery. For full course details, scheduling, and pricing, select your location and then select “get started” on the right menu. Following course completion, hands-on lab access will remain available for up to 45 days for any live course that includes a virtual environment. OBJECTIVES Describe and implement the RHACM architecture and its components, and follow recommended practices for its installation. Import and manage a cluster by using the RHACM web console, configure user access to clusters, and troubleshoot common import issues. Deploy and manage policies in a multicluster environment by using RHACM governance. Monitor a fleet of managed clusters and troubleshoot performance and availability issues by using RHACM observability components. Deploy and manage applications in a multicluster environment by using RHACM and GitOps. Deploy and manage virtual machines in a multicluster environment by using RHACM and GitOps. CONTENT Installing Red Hat Advanced Cluster Management for Kubernetes Describe and implement the RHACM architecture and its components, and follow recommended practices for its installation. Managing Clusters by Using Red Hat Advanced Cluster Management for Kubernetes Import and manage a cluster by using the RHACM web console, configure user access to clusters, and troubleshoot common import issues. Deploying and Managing Policies for Multiple Clusters with Red Hat Advanced Cluster Management for Kubernetes Deploy and manage policies in a multicluster environment by using RHACM governance. Enabling and Customizing the Red Hat Advanced Cluster Management for Kubernetes Observability Stack Monitor a fleet of managed clusters and troubleshoot performance and availability issues by using RHACM observability components. Managing the Multicluster Application Lifecycle by Using GitOps Practices and Red Hat Advanced Cluster Management for Kubernetes Deploy and manage applications in a multicluster environment by using RHACM and GitOps. Managing Virtual Machines for Multiple Clusters with Red Hat Advanced Cluster Management for Kubernetes Deploy and manage virtual machines in a multicluster environment by using RHACM and GitOps.
€2.805
E-Learning

Network Automation with Red Hat Ansible Automation Platform (AAP 2.2) (DO457) - RHLS-Course [DO457LS]

OVERVIEW Configure and manage network infrastructure using Red Hat Ansible Automation Platform. Network Automation with Red Hat Ansible Automation Platform (DO457) is designed for network administrators or infrastructure automation engineers who want to use network automation to centrally manage the switches, routers, and other devices in the organization's network infrastructure. Learn how to use Red Hat Ansible Automation Platform to remotely automate the configuration of network devices, test and validate the current network state, and perform compliance checks to detect and correct configuration drift.   OBJECTIVES Prepare a development environment for Ansible network automation Write and troubleshoot effective Ansible Playbooks for network automation Gather information about network infrastructure configuration for infrastructure awareness and configuration backup Automate specific network administration use cases, including configuration of routers and switches, ports, VLANs, SNMP monitoring, and routing protocols Use Ansible Playbooks to manage devices from various hardware vendors, including Cisco, Juniper, and Arista Centrally manage Ansible content in Git and run it centrally with automation controller Reuse existing, tested network automation code with Ansible Roles, Ansible Content Collections, and Ansible validated content CONTENT Introducing Red Hat Ansible Automation Platform Describe the fundamental concepts of Ansible and how it is used, and install development tools from Red Hat Ansible Automation Platform Implementing an Ansible Playbook Create an inventory of managed nodes, write a simple Ansible Playbook, and run the playbook to automate tasks on those nodes Managing and Running Playbooks Manage automation code in version control and run Ansible Playbooks from a centrally managed automation controller Managing Variables and Facts Write playbooks that use variables to simplify management of the playbook and facts to reference information about managed nodes Implementing Task Control Manage task control and task errors in Ansible Playbooks Simplifying Playbooks with Roles and Ansible Content Collections Use Ansible Roles and Ansible Content Collections to develop playbooks more quickly and to reuse Ansible code Automating Network Automation Tasks Automate common network administration tasks, discussing recommended practices and approaches to cross-vendor automation Comprehensive Review Demonstrate skills learned in this course by installing, optimizing, and configuring Ansible for the management of network devices and infrastructure  
€3.740
E-Learning

Automating and Programming Cisco Enterprise Solutions [ENAUTO]

Eindhoven (Evoluon Noord Brabantlaan 1) ma 3 aug. 2026 en 9 andere data
OVERVIEW This 5-day, hands-on course teaches you how to implement Cisco Enterprise automated solutions, including programming concepts, orchestration, telemetry, and automation tools.  It highlights the tools and the benefits of leveraging programmability and automation in the Cisco-powered Enterprise Campus and WAN. The Automating and Programming Cisco Enterprise Solutions (ENAUTO) course teaches you how to implement Cisco Enterprise automated solutions, including programming concepts, orchestration, telemetry, and automation tools. The goal of this training is to highlight the tools and the benefits of leveraging programmability and automation in the Cisco-powered Enterprise Campus and WAN. Examined platforms include Cisco IOS XE software for device-centric automation, Cisco Catalyst Center for the intent-based enterprise network, Cisco Catalyst Software-Defined WAN (SD-WAN), and Cisco Meraki. Their current ecosystem of APIs, software development toolkits, and relevant workflows are inspected in detail together with open industry standards, tools, and APIs, such as Python, Ansible, Git, JSON/YAML, NETCONF/RESTCONF, and YANG. This training prepares you for the 300-435 ENAUTO v2.0 exam. If passed, you earn the Cisco Certified Specialist - Enterprise Automation certification and satisfy the concentration exam requirement for the Cisco Certified Network Professional (CCNP) Enterprise and Automation concentration exams. This training also earns you 34 Continuing Education (CE) credits toward recertification. OBJECTIVES This course will empower you to meet the following objectives: Explain the need for data models for network automation Explain how to use Ansible and YANG Suite tools for effective network automation Describe Python and Netmiko as tools for CLI automation and explain how to automate VLANs, routing protocols, policies, and VPNs Introduce NETCONF and RESTCONF as model-driven protocols, explain their operations, datastores, and workflows, and compare where each is most effective Monitor configuration and operational data with NETCONF and RESTCONF, troubleshoot connectivity and model issues, and interpret errors for faster resolution Introduce Ansible for Cisco configuration management to detect drift, validate compliance, maintain a source of truth, and apply resource modules with safe rollout and rollback recovery Describe how Cisco IOS EEM automates tasks with events and policies, Guest Shell provides a secure Linux container for scripts, and ZTP creates the initial configuration Explore how to perform Day-0 operations with PnP in Cisco Catalyst Center Explore options for configuration management with Cisco Catalyst Center Explore advanced features of configuration templates with Jinja templates Learn about managing controller-based configuration with Ansible Learn about security automation Learn about techniques for troubleshooting authentication with the REST APIs of Cisco controllers Learn how to test and validate automation deployed on Cisco Catalyst Center and Cisco Catalyst SD-WAN Manager Learn how to use Catalyst Center and SD-WAN APIs to automate Software Image Management Learn how to use APIs to monitor network health with Cisco Controllers Learn how to use streaming telemetry and webhooks to monitor network health on Course Cisco Catalyst Center and Cisco Catalyst SD-WAN Manager Explain how to use AI capabilities in Cisco Catalyst Center, Cisco Catalyst SD-WAN Manager, and Meraki dashboard Explain how to use AI-assisted code development for network automation Explore security risks in AI-based network automation Explain the deployment of MCP servers and clients, and Python FastMCP support for AI agents AUDIENCE - Network Engineers - Systems Engineers - Wireless Engineers - Consulting Systems Engineers - Technical Solutions Architects - Network Administrators - Wireless Design Engineers - Network Managers - Sales Engineers - Account Managers CERTIFICATION CCNP Automation – The CCNP Automation certification showcases your ability to develop and maintain applications built on Cisco platforms. It confirms a unique blend of software and infrastructure skills, perfect for NetDevOps roles. Certification Title: CCNP Automation CONTENT Outline: Network Automation Models Network Automation Tooling CLI Automation with Python NETCONF and RESTCONF Automation Automating Configuration Monitoring Device Automation with Ansible On-Box Automation Controller-Based Day-0 Provisioning Catalyst Center Day-0 with Configuration Management Advanced Configuration Templates Controller-Based Configuration Management with Ansible Security Automation Troubleshoot Controller-Based Network Automation Testing and Validating Network Automation Controller-Based Software Management Automate Network Health Monitoring with Controller APIs Monitor Network Health with Streaming Telemetry and Webhooks AI Capabilities in Network Controllers AI Assistance in Network Automation Security Risks in AI-based Automation Support AI Agents with Python FastMCP LABS: Explore YANG Trees with YANG Suite Validate XML Payloads Against the YANG Schema Configure and Monitor Routing with Python and Netmiko Configure and Monitor IPsec VPNs with Python and Netmiko Manage Device Configurations with ncclient Manage Device Configurations with RESTCONF Monitor Device Configurations with NETCONF and RESTCONF Troubleshoot Network Automation Solutions Configuration Compliance with Ansible Use Ansible to Configure and Verify Device Configuration EEM-Based Device Automation On-Box Python-Based Automation Python-Based ZTP for Cisco IOS XE Devices Manage Device Configuration with Catalyst Center APIs Manage Device Configuration with SD-WAN Manager APIs Manage Device Configuration with Cisco Meraki APIs Construct Advanced Jinja Configuration Templates Manage Catalyst Center Devices with Ansible Manage Cisco Catalyst SD-WAN Devices with Ansible Manage Cisco Meraki Networks with Ansible Enforce Network Segmentation with Cisco Catalyst Center APIs Enforce Group-Based Access Control with Cisco Catalyst Center APIs API-Driven Segmentation and Policy Enforcement with Meraki Troubleshoot Cisco Catalyst Center API Authentication Troubleshoot Cisco Catalyst SD-WAN Manager API Authentication Troubleshoot Cisco Catalyst Center API Requests Software Management with Cisco Catalyst Center API Software Management with SD-WAN Manager APIs Monitor Network Health with Cisco Catalyst Center APIs Monitor Network Health with SD-WAN Manager APIs Monitor Network Health with Meraki Dashboard APIs Subscribe to Device Telemetry Using NETCONF Implement Webhook-Based Alerting with Cisco Catalyst Center Code Development with AI Assistant Providing Network Information to MCP Clients Using Python FastMCP
€4.095
Klassikaal
max 16

SD-WAN Core Operations Administrator [ENW_SDWANCORE]

Virtual ma 21 sep. 2026 en 1 andere data
OVERVIEW English - Please note this course is only available in English. Nederlands - Let op: deze training is alleen in het Engels beschikbaar. Français - Veuillez noter que ce cours est uniquement disponible en anglais. In this course, you will learn about common SD-WAN deployment scenarios using the Fortinet Secure SD-WAN solution. You will learn how to configure SD-WAN on FortiGate and explore how SD-WAN interacts with the routing and firewall features. This deep understanding of the SD-WAN solution will help you to enhance and troubleshoot SD-WAN deployments. OBJECTIVES Objectives After completing this course, you will be able to: Describe the capabilities of the Fortinet Secure SD-WAN solution Deploy FortiOS SD-WAN solutions with FortiGate for a single device solution or small topologies Configure basic and advanced SD-WAN features Understand the SD-WAN route and rule lookup process Use the different rule criteria and strategies available to steer traffic using SD-WAN Examine how SD-WAN responds to changing link conditions Troubleshoot SD-WAN routing and rule matching issues AUDIENCE Who Should Attend Anyone responsible for designing a Fortinet SD-WAN solution or for the day-to-day management of a Fortinet SD- WAN deployment and network operations should attend this course. CONTENT Conspect Introduction Members, Zones, and Performance SLAs Define and Configure Rules Rule Strategies in Action Routing and Sessions
€1.360
Klassikaal
max 16

Dell OpenManage Enterprise Fundamentals Features Implementation Administration [ESSSMS03596]

VIRTUAL TRAINING CENTER di 4 aug. 2026
OVERVIEW The OpenManage Enterprise course is a baseline course that provides a learner with a good understanding of the functions and features of OpenManage Enterprise. Lecture and lab activities cover the following topics for students: Installation/Configuration, navigating/using the web interface, describe and use the Discovery and Inventory process, manage devices, and perform tasks using OpenManage Enterprise. Students learn about and use profiles and configuration templates. The course covers the integration of OME adaptors with secure connect gateway. Checklists have been incorporated to provide students with a “what to look for” when issues arise. Updated 04/2026 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. OBJECTIVES Upon successful completion of this course, participants should be able to: Identify the features and functions of OpenManage Enterprise. Describe the deployment and configuration process. Discover devices in OpenManage Enterprise. Discuss the administration features of OpenManage Enterprise. Describe the deployment template and baseline process. AUDIENCE This course is intended for anyone who wants to learn about and manage Dell EMC devices using OpenManage Enterprise. CONTENT The content of this course is designed to support the course objectives. Product Overview - Introduction - Product Overview Deployment and Configuration - Introduction - Deployment - Upgrading - Configuration - Programmable Appliance Deployment - Initial Console Launch - Console Navigation - Deployment and Configuration: Troubleshooting Checklist Settings - Application Settings Discovery - Device Discovery Wizard - Single Device Discovery - Multiple Device Discovery - Import Discovery Range - Excluding Ranges - Chassis Device Discovery - Multiple Management URL’s - Discovery: Troubleshooting Checklist Managing - Onboarding and Inventory - Jobs - Groups - Users and Roles - Firmware Updates - Driver Updates - Alerts - Reports - Managing: Troubleshooting Checklist Backup, Restore and Migrate - Backup and Restore - Backup and Restore States - Create a Backup - Restore a Backup - Restore Readiness Report - Migration - Migration States - Perform a Migration Deployment Templates - Deployment Templates - VLAN Management - IOA Deployment Templates Virtual Identities Baseline Compliance Auto Deploy Profiles Deployment Templates: Troubleshooting Checklist Secure Connect Gateway - Product Overview - Adding an OpenManage Enterprise adapter - Synchronize Adapters In addition to lecture and demonstrations, this course includes labs designed to allow practical experience for the participant.
€2.290
Klassikaal
max 16

Dell PowerEdge Features, Administration and Troubleshooting with iDRAC 10 [ESSVRS08588]

VIRTUAL TRAINING CENTER ma 10 aug. 2026
OVERVIEW This three-day instructor-led course provides an overview of Dell PowerEdge servers across the 15th, 16th, and 17th generations. Participants will learn to identify system features, perform essential administrative tasks, and apply effective troubleshooting techniques on Dell PowerEdge servers. The course delivers best practice information through a combination of instructor-led training and hands-on lab activities using iDRAC 10. Practical skills are reinforced through scenario-based training to ensure real-world applicability. This course is part of the recommended training path leading to the Dell PowerEdge Operate v2 Exam certification. (Note: The D-PEOE-01 certification exam is not included.) 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. OBJECTIVES Upon successful completion of this training, participants should be able to: Identify PowerEdge platforms and distinguish their external and internal physical features. Explore server processor, memory, power, and storage settings using the iDRAC user interface. Examine cooling systems, I/O cards, and security configurations through the iDRAC user interface. Analyze the features and functions of Dell PowerEdge management and monitoring interfaces, including iDRAC and related tools. Manage virtual media and virtual console, configure lockdown mode, create virtual disks through iDRAC user interface. Interpret visual indicators, logs and memory errors. Recovery features such as Parts Replacement Configuration and Easy Restore enable restoration of system functionality after firmware or boot-related failures. Applying fault isolation tools to effectively pinpoint issues across different server generations, ensuring accurate and efficient troubleshooting. Evaluate vendor-specific GPU diagnostic tools and utilities to verify GPU detection, power delivery, and thermal conditions. AUDIENCE System administrators and support engineers responsible for deploying, configuring, managing, and troubleshooting Dell PowerEdge servers in enterprise environments. CERTIFICATION None CONTENT The content of this training is designed to support the training objectives.  Features: PowerEdge Portfolio Chassis Design iDRAC Introduction 17G vs 16G Major Components Power Supply Unit Storage Thermal: Air Cooling Thermal: 16G and 17G Liquid Cooling Network and I/O Cards PCIe Expansion Card PowerEdge Security Administration: Management and Monitoring Interface Out-of-Band Management Utilities In-Band Management Utilities iDRAC: Functionality RAID Level Migration GPU Management Liquid Cooling  Troubleshooting: Guidelines and Resources Visual Indicator Recovery Option Logs Fault Isolation Tool Memory Event Logging GPU Troubleshooting Tools
€2.220
Klassikaal
max 16

Supporting Cisco Devices for Field Technicians [FLDTEC-CPLL]

OVERVIEW The Supporting Cisco Devices for Field Technicians (FLDTEC) training teaches you knowledge and skills related to on-site replacement of Cisco technologies across routing, switching, data center, unified computing system (UCS), and collaboration platforms. This includes hardware identification, cabling, configuration backup and restoration, and software upgrades/downgrades. This training prepares you for the 800-150 FLDTEC v1.0 exam. If passed, you earn the Cisco Certified Technician (CCT) Field Technician certification. OBJECTIVES After completing this course you should be able to: Identify common network devices, components, and functions Identify the layers of the host-to-host communications model Describe network cabling at Layer 1 Describe network switching and Layer 2 technologies Explain internet protocol (IP) addressing and subnetting Explain network routing at Layer 3 Identify Cisco infrastructure networking devices, roles, and functions Identify Cisco data center networking devices, roles, and functions Identify Cisco UCS servers, roles, and functions Identify Cisco collaboration devices, roles, and functions Explain the Cisco device boot-up process Identify common Cisco internetwork operating system (IOS) commands Identify tools for device file management Confirm physical layer connectivity Access devices remotely over a network Explain how to connect to the console port Describe how to capture device status Describe techniques for password recovery Identify common tools for device replacement Locate serial numbers on Cisco devices Compare IOS bundle and install modes Describe Cisco software licensing models Manage Cisco software images Manage device configuration files Identify infrastructure components, endpoints, and collaboration devices Examine on-premises collaboration deployments Describe the role of collaboration infrastructure in video endpoints Explain Cisco cloud services in enterprise communication and collaboration Explain safety and environmental protocols Describe the process for replacing Cisco devices Describe the process for configuring Cisco network operating system (NX-OS) software Describe Cisco collaboration endpoint solutions Identify devices in a data center network Describe components in a virtualized data center architecture Explain Cisco UCS devices and their placement in UCS architecture CONTENT Networking Foundations Cisco Equipment and Hardware Foundations Cisco IOS Software Foundations Common Services Tasks & Tools Installing Replacement Hardware Implementing Cisco Software and Configurations Cisco Infrastructure and Collaboration Architecture Cisco Infrastructure Hardware Replacement Cisco Collaboration Hardware Replacement Cisco UCS & Data Center Architecture & Management Cisco Data Center Hardware Replacement Cisco UCS Hardware Replacement
€265
E-Learning