{"course":{"productid":16593,"modality":1,"active":true,"language":"fr","title":"Veritas InfoScale Availability 7.4.2 for UNIX\/Linux: Administration","productcode":"ISAUA","vendorcode":"VE","vendorname":"Veritas","fullproductcode":"VE-ISAUA","courseware":{"has_ekit":false,"has_printkit":true,"language":"en"},"url":"https:\/\/portal.flane.ch\/course\/veritas-isaua","objective":"<p>By the completion of this course, you will be able to:<\/p>\n<ul>\n<li>Describe how clustering is used to implement high availability in the data center environment.<\/li><li>Describe VCS and cluster communication mechanisms.<\/li><li>Create a cluster, and configure service groups and resources.<\/li><li>Implement and verify failover and failback capability for application, storage, and network services.<\/li><li>Configure and optimize cluster behavior.<\/li><li>Protect data in a shared storage environment.<\/li><li>Describe I\/O fencing operations, and its implementation.<\/li><li>Configure VCS to manage an Oracle database and other applications.<\/li><li>Describe InfoScale support for Cloud Environments.<\/li><li>Configure and manage VCS clusters on virtual machines in VMware environment.<\/li><li>Implement Just in Time Availability for single node VCS cluster on virtual machine in a VMware environment.<\/li><\/ul>","essentials":"<p>Knowledge of and hands-on experience with UNIX\/Linux systems administration is required.<\/p>","audience":"<p>This course is for UNIX\/Linux system administrators, system engineers, technical support personnel, network\/SAN administrators, and systems integration\/development staff, who will be installing, operating, or integrating InfoScale Availability.<\/p>","contents":"<h5>Cluster Server Basics<\/h5><ul>\n<li>High Availability Concepts<\/li><li>Installing and Licensing InfoScale<\/li><li>VCS Building Blocks<\/li><li>VCS Operations<\/li><li>VCS Configuration Methods<\/li><li>Preparing Services for VCS<\/li><li>Online Configuration<\/li><li>Offline Configuration<\/li><li>Configuring Notification<\/li><\/ul><h5>Cluster Server Additions<\/h5><ul>\n<li>Handling Resource Faults<\/li><li>Intelligent Monitoring Framework<\/li><li>Cluster Communications<\/li><\/ul><h5>Cluster Server Applications<\/h5><ul>\n<li>Using I\/O Fencing for Application Data Integrity<\/li><li>Clustering Applications<\/li><li>Clustering Databases<\/li><\/ul><h5>In-Guest Clustering<\/h5><ul>\n<li>InfoScale support for Cloud Environments<\/li><li>VMware vSphere Data Center Architecture<\/li><li>Veritas High Availability Deployment in VMware<\/li><li>Veritas High Availability Configuration and Administration<\/li><\/ul>","outline":"<h4>Cluster Server Basics<\/h4><h5>High Availability Concepts<\/h5><ul>\n<li>High availability concepts<\/li><li>Clustering concepts<\/li><li>High availability application services<\/li><li>Clustering prerequisites<\/li><\/ul><h5>Labs: Intro Lab<\/h5><ul>\n<li>Exercise A: Viewing the virtual machine<\/li><li>Exercise B: Verifying network<\/li><\/ul><h5>Labs: Validating Site Preparation<\/h5><ul>\n<li>Exercise A: Performing a CPI pre-installation verification<\/li><li>Exercise B: Performing a SORT pre-installation verification<\/li><\/ul><h5>Installing and Licensing InfoScale<\/h5><ul>\n<li>Introducing the Veritas InfoScale product suite<\/li><li>Tools for installing InfoScale products<\/li><li>Installing Veritas InfoScale Availability<\/li><li>InfoScale cloud offerings<\/li><li>Upgrading to InfoScale Enterprise<\/li><\/ul><h5>Labs:<\/h5><ul>\n<li>Exercise A: Installing InfoScale Enterprise using the Common Product Installer (CPI)]<\/li><li>Exercise B: Running a post-installation check<\/li><li>Exercise C: Adding cluster systems to VIOM as managed hosts<\/li><\/ul><h5>VCS Building Blocks<\/h5><ul>\n<li>VCS terminology<\/li><li>Cluster communication<\/li><li>VCS architecture<\/li><li>Multi version cluster<\/li><\/ul><h5>Labs:<\/h5><ul>\n<li>Exercise A: Working with the VIOM GUI Dashboard and inventory information<\/li><li>Exercise B: Exploring the VIOM GUI Licensing option<\/li><li>Exercise C: Working with the VIOM GUI Settings option<\/li><\/ul><h5>VCS Operations<\/h5><ul>\n<li>Common VCS tools and operations<\/li><li>Service group operations<\/li><li>Resource operations<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Displaying cluster information<\/li><li>Exercise B: Displaying status and attributes<\/li><li>Exercise C: Performing service group operations<\/li><li>Exercise D: Manipulating resources<\/li><\/ul><h5>VCS Configuration Methods<\/h5><ul>\n<li>Starting and stopping VCS<\/li><li>Overview of configuration methods<\/li><li>Online configuration<\/li><li>Controlling access to VCS<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: VCS configuration state and stopping VCS<\/li><li>Exercise B: Configuring automatic backup of the VCS configuration<\/li><li>Exercise C: Setting non default VCS stop options<\/li><\/ul><h5>Preparing Services for VCS<\/h5><ul>\n<li>Preparing applications for VCS<\/li><li>Performing one-time configuration tasks<\/li><li>Testing the application service<\/li><li>Stopping and migrating a service<\/li><li>Collecting configuration information<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Configuring and examining storage for the service<\/li><li>Exercise B: Examining the application<\/li><li>Exercise C: Manually starting and stopping the application<\/li><\/ul><h5>Online Configuration<\/h5><ul>\n<li>Online service group configuration<\/li><li>Adding resources<\/li><li>Solving common configuration errors<\/li><li>Testing the service group<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Creating a service group for the loopy application<\/li><li>Exercise B: Configuring resources for the loopy application<\/li><li>Exercise C: Performing a virtual fire drill on the service group<\/li><li>Exercise D: Testing the service group<\/li><li>Exercise E: Setting resources to critical<\/li><li>Exercise F: (Optional) Examining Veritas File System locking by VCS<\/li><\/ul><h5>Offline Configuration<\/h5><ul>\n<li>Offline configuration examples<\/li><li>Offline configuration procedures<\/li><li>Solving offline configuration problems<\/li><li>Testing the service group<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Editing a copy of the main.cf file using a system editor<\/li><li>Exercise B: Stopping VCS<\/li><li>Exercise C: Restarting VCS using the edited main.cf file<\/li><\/ul><h5>Configuring Notification<\/h5><ul>\n<li>Notification overview<\/li><li>Configuring notification<\/li><li>Overview of triggers<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Configuring and testing the notifier using VIOM<\/li><li>Exercise B: Configuring trigger scripts<\/li><\/ul><h4>Cluster Server Additions<\/h4><h5>Handling Resource Faults<\/h5><ul>\n<li>VCS response to resource faults<\/li><li>Determining failover duration<\/li><li>Controlling fault behavior<\/li><li>Recovering from resource faults<\/li><li>Fault notification and event handling<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Observing non-critical resource faults<\/li><li>Exercise B: Observing critical resource faults<\/li><li>Exercise C: (Optional) Observing faults in frozen service groups<\/li><li>Exercise D: (Optional) Observing ManageFaults behavior<\/li><li>Exercise E: (Optional) Observing restart limit behavior<\/li><\/ul><h5>Intelligent Monitoring Framework<\/h5><ul>\n<li>IMF overview<\/li><li>IMF configuration<\/li><li>Faults and failover with intelligent monitoring<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Examining IMF monitoring on a resource<\/li><li>Exercise B: (Optional) Examining the IMF default configuration<\/li><\/ul><h5>Cluster Communications<\/h5><ul>\n<li>VCS communications review<\/li><li>Cluster interconnect configuration<\/li><li>Cluster startup<\/li><li>System and cluster interconnect failure<\/li><li>Changing the interconnect configuration<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Reconfiguring LLT<\/li><li>Exercise B: Observing jeopardy membership<\/li><\/ul><h4>Cluster Server Applications<\/h4><h5>Using I\/O Fencing for Application Data Integrity<\/h5><ul>\n<li>Data protection requirements<\/li><li>I\/O fencing concepts<\/li><li>I\/O fencing operations<\/li><li>I\/O fencing implementation<\/li><li>Fencing configuration<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Fencing configuration pre-checks<\/li><li>Exercise B: Configuring VCS for I\/O fencing<\/li><li>Exercise C: I\/O fencing configuration verification<\/li><li>Exercise D: Verifying data disks for I\/O fencing<\/li><\/ul><h5>Clustering Applications<\/h5><ul>\n<li>Application service overview<\/li><li>VCS agents for managing applications<\/li><li>The Application agent<\/li><li>IMF support and prevention of concurrency violation<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Adding a resource of type Application<\/li><li>Exercise B: Testing the resource<\/li><li>Exercise C: IMF and Application agent monitoring options<\/li><\/ul><h5>Clustering Databases<\/h5><ul>\n<li>VCS database agents<\/li><li>Database preparation<\/li><li>The database agent for Oracle<\/li><li>Database failover behavior<\/li><li>Additional Oracle agent functions<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Verifying the Oracle configuration<\/li><li>Exercise B: Preparing storage and network resources for the Oracle service group<\/li><li>Exercise C: Testing the Oracle database manually<\/li><li>Exercise D: Configuring Oracle under VCS control<\/li><li>Exercise E: Running a virtual fire drill and switching the Oracle service group<\/li><li>Exercise F: (Optional) Oracle monitoring<\/li><\/ul><h4>In-Guest Clustering<\/h4><h5>InfoScale support for Cloud Environments<\/h5><ul>\n<li>InfoScale solutions for cloud environments<\/li><li>Preparing for InfoScale installations in cloud environments<\/li><li>Configurations for cloud environments<\/li><li>Troubleshooting issues in cloud environments<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Verify S3 server details (sys3)<\/li><li>Exercise B: Create InfoScale storage support for S3 connector<\/li><li>Exercise C: Using VIOM deploy Application Migration Add-on<\/li><\/ul><h5>VMware vSphere Data Center Architecture<\/h5><ul>\n<li>VMware vSphere high availability architecture<\/li><li>VMware administration<\/li><li>VMware storage architecture<\/li><li>Server and storage migration<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Verifying the VMware vSphere lab environment<\/li><li>Exercise B: Connecting to the nested virtual machines<\/li><li>Exercise C: Testing vMotion<\/li><\/ul><h5>Veritas High Availability Deployment in VMware<\/h5><ul>\n<li>Veritas high availability architecture in VMware<\/li><li>Deploying InfoScale Availability on virtual machines<\/li><li>Configuring the vSphere Web Client for Veritas HA<\/li><\/ul><h5>Labs<\/h5><ul>\n<li>Exercise A: Preparing the nested virtual machine lab environment<\/li><li>Exercise B: Deploying a Veritas cluster on nested virtual machines<\/li><li>Exercise C: Adding cluster systems as managed hosts to VIOM<\/li><li>Exercise D: Installing the VIOM Control Host add-on on mgt<\/li><li>Exercise E: Adding virtualization information to the VIOM management server<\/li><li>Exercise F: Installing and registering the Veritas HA Plug-in for vSphere Web Client<\/li><\/ul><h5>Veritas High Availability Configuration and Administration<\/h5><ul>\n<li>Configuring storage for VCS failover cluster<\/li><li>Configuring shared storage for CFS clusters<\/li><li>Configuring availability<\/li><li>Veritas high availability operations<\/li><li>Just-In-Time Availability solution<\/li><\/ul><h5>Labs &ndash; Part A<\/h5><ul>\n<li>Exercise A: Preparing the nested virtual machine lab environment<\/li><li>Exercise B: Using the vSphere Web Client to monitor Veritas high availability<\/li><li>Exercise C: Setting EnableUUID parameter for virtual machine disks<\/li><li>Exercise D: Testing vMotion with Veritas in-guest clustering<\/li><li>Exercise E: (Optional) Managing the Oracle Disk group configuration<\/li><\/ul><h5>Labs &ndash; Part B<\/h5><ul>\n<li>Exercise A: Preparing the nested virtual machine lab environment<\/li><li>Exercise B: Configuring a shared VMFS datastore<\/li><li>Exercise C: Configuring virtual and physical RDM disks on sys3<\/li><li>Exercise D: Creating a service group to manage the virtual and physical RDM disks<\/li><li>Exercise E: (Optional) Observing vMotion with RDM disks<\/li><li>Exercise F: (Optional) Enabling shared storage across multiple VMs using physical RDM disks<\/li><li>Exercise G: (Optional) Aligning the shared<\/li><\/ul><h5>Labs: Challenge Lab (Linux)<\/h5><ul>\n<li>Exercise A: Creating a 4-Node West cluster (VCS type)<\/li><li>Exercise B: Creating a local mount point (VxFS type) and backup data to S3 server (sys3)<\/li><li>Exercise C: Using VIOM install Application Migration and Control Host Add-ons<\/li><\/ul>","summary":"<p>The Veritas InfoScale Availability 7.4.2 for Unix\/Linux: Administration course is designed for IT professionals tasked with installing, deploying, configuring, and maintaining Veritas Cluster Server (VCS) clusters.<\/p>\n<p>This course discusses how to use InfoScale Availability to manage applications in a high availability environment and support for Cloud environments. The course is designed to enable you to gain the necessary fundamental and advanced skills that are required to manage a highly available application in a cluster. It also discusses how to deploy InfoScale Availability in the lab environment to practically implement a sample cluster design and deployment.<\/p>","objective_plain":"By the completion of this course, you will be able to:\n\n\n- Describe how clustering is used to implement high availability in the data center environment.\n- Describe VCS and cluster communication mechanisms.\n- Create a cluster, and configure service groups and resources.\n- Implement and verify failover and failback capability for application, storage, and network services.\n- Configure and optimize cluster behavior.\n- Protect data in a shared storage environment.\n- Describe I\/O fencing operations, and its implementation.\n- Configure VCS to manage an Oracle database and other applications.\n- Describe InfoScale support for Cloud Environments.\n- Configure and manage VCS clusters on virtual machines in VMware environment.\n- Implement Just in Time Availability for single node VCS cluster on virtual machine in a VMware environment.","essentials_plain":"Knowledge of and hands-on experience with UNIX\/Linux systems administration is required.","audience_plain":"This course is for UNIX\/Linux system administrators, system engineers, technical support personnel, network\/SAN administrators, and systems integration\/development staff, who will be installing, operating, or integrating InfoScale Availability.","contents_plain":"Cluster Server Basics\n\n\n- High Availability Concepts\n- Installing and Licensing InfoScale\n- VCS Building Blocks\n- VCS Operations\n- VCS Configuration Methods\n- Preparing Services for VCS\n- Online Configuration\n- Offline Configuration\n- Configuring Notification\nCluster Server Additions\n\n\n- Handling Resource Faults\n- Intelligent Monitoring Framework\n- Cluster Communications\nCluster Server Applications\n\n\n- Using I\/O Fencing for Application Data Integrity\n- Clustering Applications\n- Clustering Databases\nIn-Guest Clustering\n\n\n- InfoScale support for Cloud Environments\n- VMware vSphere Data Center Architecture\n- Veritas High Availability Deployment in VMware\n- Veritas High Availability Configuration and Administration","outline_plain":"Cluster Server Basics\n\nHigh Availability Concepts\n\n\n- High availability concepts\n- Clustering concepts\n- High availability application services\n- Clustering prerequisites\nLabs: Intro Lab\n\n\n- Exercise A: Viewing the virtual machine\n- Exercise B: Verifying network\nLabs: Validating Site Preparation\n\n\n- Exercise A: Performing a CPI pre-installation verification\n- Exercise B: Performing a SORT pre-installation verification\nInstalling and Licensing InfoScale\n\n\n- Introducing the Veritas InfoScale product suite\n- Tools for installing InfoScale products\n- Installing Veritas InfoScale Availability\n- InfoScale cloud offerings\n- Upgrading to InfoScale Enterprise\nLabs:\n\n\n- Exercise A: Installing InfoScale Enterprise using the Common Product Installer (CPI)]\n- Exercise B: Running a post-installation check\n- Exercise C: Adding cluster systems to VIOM as managed hosts\nVCS Building Blocks\n\n\n- VCS terminology\n- Cluster communication\n- VCS architecture\n- Multi version cluster\nLabs:\n\n\n- Exercise A: Working with the VIOM GUI Dashboard and inventory information\n- Exercise B: Exploring the VIOM GUI Licensing option\n- Exercise C: Working with the VIOM GUI Settings option\nVCS Operations\n\n\n- Common VCS tools and operations\n- Service group operations\n- Resource operations\nLabs\n\n\n- Exercise A: Displaying cluster information\n- Exercise B: Displaying status and attributes\n- Exercise C: Performing service group operations\n- Exercise D: Manipulating resources\nVCS Configuration Methods\n\n\n- Starting and stopping VCS\n- Overview of configuration methods\n- Online configuration\n- Controlling access to VCS\nLabs\n\n\n- Exercise A: VCS configuration state and stopping VCS\n- Exercise B: Configuring automatic backup of the VCS configuration\n- Exercise C: Setting non default VCS stop options\nPreparing Services for VCS\n\n\n- Preparing applications for VCS\n- Performing one-time configuration tasks\n- Testing the application service\n- Stopping and migrating a service\n- Collecting configuration information\nLabs\n\n\n- Exercise A: Configuring and examining storage for the service\n- Exercise B: Examining the application\n- Exercise C: Manually starting and stopping the application\nOnline Configuration\n\n\n- Online service group configuration\n- Adding resources\n- Solving common configuration errors\n- Testing the service group\nLabs\n\n\n- Exercise A: Creating a service group for the loopy application\n- Exercise B: Configuring resources for the loopy application\n- Exercise C: Performing a virtual fire drill on the service group\n- Exercise D: Testing the service group\n- Exercise E: Setting resources to critical\n- Exercise F: (Optional) Examining Veritas File System locking by VCS\nOffline Configuration\n\n\n- Offline configuration examples\n- Offline configuration procedures\n- Solving offline configuration problems\n- Testing the service group\nLabs\n\n\n- Exercise A: Editing a copy of the main.cf file using a system editor\n- Exercise B: Stopping VCS\n- Exercise C: Restarting VCS using the edited main.cf file\nConfiguring Notification\n\n\n- Notification overview\n- Configuring notification\n- Overview of triggers\nLabs\n\n\n- Exercise A: Configuring and testing the notifier using VIOM\n- Exercise B: Configuring trigger scripts\nCluster Server Additions\n\nHandling Resource Faults\n\n\n- VCS response to resource faults\n- Determining failover duration\n- Controlling fault behavior\n- Recovering from resource faults\n- Fault notification and event handling\nLabs\n\n\n- Exercise A: Observing non-critical resource faults\n- Exercise B: Observing critical resource faults\n- Exercise C: (Optional) Observing faults in frozen service groups\n- Exercise D: (Optional) Observing ManageFaults behavior\n- Exercise E: (Optional) Observing restart limit behavior\nIntelligent Monitoring Framework\n\n\n- IMF overview\n- IMF configuration\n- Faults and failover with intelligent monitoring\nLabs\n\n\n- Exercise A: Examining IMF monitoring on a resource\n- Exercise B: (Optional) Examining the IMF default configuration\nCluster Communications\n\n\n- VCS communications review\n- Cluster interconnect configuration\n- Cluster startup\n- System and cluster interconnect failure\n- Changing the interconnect configuration\nLabs\n\n\n- Exercise A: Reconfiguring LLT\n- Exercise B: Observing jeopardy membership\nCluster Server Applications\n\nUsing I\/O Fencing for Application Data Integrity\n\n\n- Data protection requirements\n- I\/O fencing concepts\n- I\/O fencing operations\n- I\/O fencing implementation\n- Fencing configuration\nLabs\n\n\n- Exercise A: Fencing configuration pre-checks\n- Exercise B: Configuring VCS for I\/O fencing\n- Exercise C: I\/O fencing configuration verification\n- Exercise D: Verifying data disks for I\/O fencing\nClustering Applications\n\n\n- Application service overview\n- VCS agents for managing applications\n- The Application agent\n- IMF support and prevention of concurrency violation\nLabs\n\n\n- Exercise A: Adding a resource of type Application\n- Exercise B: Testing the resource\n- Exercise C: IMF and Application agent monitoring options\nClustering Databases\n\n\n- VCS database agents\n- Database preparation\n- The database agent for Oracle\n- Database failover behavior\n- Additional Oracle agent functions\nLabs\n\n\n- Exercise A: Verifying the Oracle configuration\n- Exercise B: Preparing storage and network resources for the Oracle service group\n- Exercise C: Testing the Oracle database manually\n- Exercise D: Configuring Oracle under VCS control\n- Exercise E: Running a virtual fire drill and switching the Oracle service group\n- Exercise F: (Optional) Oracle monitoring\nIn-Guest Clustering\n\nInfoScale support for Cloud Environments\n\n\n- InfoScale solutions for cloud environments\n- Preparing for InfoScale installations in cloud environments\n- Configurations for cloud environments\n- Troubleshooting issues in cloud environments\nLabs\n\n\n- Exercise A: Verify S3 server details (sys3)\n- Exercise B: Create InfoScale storage support for S3 connector\n- Exercise C: Using VIOM deploy Application Migration Add-on\nVMware vSphere Data Center Architecture\n\n\n- VMware vSphere high availability architecture\n- VMware administration\n- VMware storage architecture\n- Server and storage migration\nLabs\n\n\n- Exercise A: Verifying the VMware vSphere lab environment\n- Exercise B: Connecting to the nested virtual machines\n- Exercise C: Testing vMotion\nVeritas High Availability Deployment in VMware\n\n\n- Veritas high availability architecture in VMware\n- Deploying InfoScale Availability on virtual machines\n- Configuring the vSphere Web Client for Veritas HA\nLabs\n\n\n- Exercise A: Preparing the nested virtual machine lab environment\n- Exercise B: Deploying a Veritas cluster on nested virtual machines\n- Exercise C: Adding cluster systems as managed hosts to VIOM\n- Exercise D: Installing the VIOM Control Host add-on on mgt\n- Exercise E: Adding virtualization information to the VIOM management server\n- Exercise F: Installing and registering the Veritas HA Plug-in for vSphere Web Client\nVeritas High Availability Configuration and Administration\n\n\n- Configuring storage for VCS failover cluster\n- Configuring shared storage for CFS clusters\n- Configuring availability\n- Veritas high availability operations\n- Just-In-Time Availability solution\nLabs \u2013 Part A\n\n\n- Exercise A: Preparing the nested virtual machine lab environment\n- Exercise B: Using the vSphere Web Client to monitor Veritas high availability\n- Exercise C: Setting EnableUUID parameter for virtual machine disks\n- Exercise D: Testing vMotion with Veritas in-guest clustering\n- Exercise E: (Optional) Managing the Oracle Disk group configuration\nLabs \u2013 Part B\n\n\n- Exercise A: Preparing the nested virtual machine lab environment\n- Exercise B: Configuring a shared VMFS datastore\n- Exercise C: Configuring virtual and physical RDM disks on sys3\n- Exercise D: Creating a service group to manage the virtual and physical RDM disks\n- Exercise E: (Optional) Observing vMotion with RDM disks\n- Exercise F: (Optional) Enabling shared storage across multiple VMs using physical RDM disks\n- Exercise G: (Optional) Aligning the shared\nLabs: Challenge Lab (Linux)\n\n\n- Exercise A: Creating a 4-Node West cluster (VCS type)\n- Exercise B: Creating a local mount point (VxFS type) and backup data to S3 server (sys3)\n- Exercise C: Using VIOM install Application Migration and Control Host Add-ons","summary_plain":"The Veritas InfoScale Availability 7.4.2 for Unix\/Linux: Administration course is designed for IT professionals tasked with installing, deploying, configuring, and maintaining Veritas Cluster Server (VCS) clusters.\n\nThis course discusses how to use InfoScale Availability to manage applications in a high availability environment and support for Cloud environments. The course is designed to enable you to gain the necessary fundamental and advanced skills that are required to manage a highly available application in a cluster. It also discusses how to deploy InfoScale Availability in the lab environment to practically implement a sample cluster design and deployment.","skill_level":"Beginner","version":"7.4.2","duration":{"unit":"d","value":5,"formatted":"5 jours"},"pricelist":{"List Price":{"SI":{"country":"SI","currency":"EUR","taxrate":20,"price":3100},"IL":{"country":"IL","currency":"ILS","taxrate":17,"price":10750},"AT":{"country":"AT","currency":"EUR","taxrate":20,"price":3250},"SE":{"country":"SE","currency":"EUR","taxrate":25,"price":3250},"DE":{"country":"DE","currency":"EUR","taxrate":19,"price":3250},"CH":{"country":"CH","currency":"CHF","taxrate":8.1,"price":3250}}},"lastchanged":"2025-07-29T12:17:42+02:00","parenturl":"https:\/\/portal.flane.ch\/swisscom\/fr\/json-courses","nexturl_course_schedule":"https:\/\/portal.flane.ch\/swisscom\/fr\/json-course-schedule\/16593","source_lang":"fr","source":"https:\/\/portal.flane.ch\/swisscom\/fr\/json-course\/veritas-isaua"}}