Dell MD3800f Setting Load Balance Policies in Linux, Setting Load Balance Policies in VMware

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If more than one data path to the virtual disk has the same weight value, the round robin with subset path selection policy is used to route I/O requests between the paths with the same weight value. The least path weight load balance policy is not supported on Linux operating systems.

Changing Load Balance Policies On The Windows Server Operating System

Load balancing with the PowerVault MD series storage array can be done from the default round robin with subset by using either the:

Device manager

Disk management

Changing Load Balance Policies Using Windows Server Device Manager

Follow the steps to change the load balance policy using Windows Server device manager:

1.Right-click My Computer and select Manage to open the Computer Management dialog box.

2.Click Device Manager to show the list of devices attached to the host.

3.Right-click the multipath disk device for which you want to set the load balance policies, then select Properties.

4.From the MPIO tab, select the load balance policy that you want to set for this disk device.

Changing Load Balance Policies Using Windows Server Disk Management

Follow the steps to change the load balance policy using disk management:

1.Right-click My Computer and click Manage to open the Computer Management dialog box.

2.Click Disk Management to show the list of virtual disks attached to the host.

3.Right-click the virtual disk for which you want to set the load balance policy, then click Properties.

4.From the MPIO tab, select the load balance policy that you want to set for this virtual disk.

Setting Load Balance Policies in Linux

Linux only supports round robin based load balancing. For more information, see Round Robin With Subset.

Setting Load Balance Policies in VMware

VMware supports Asymmetric Logical Unit Access (ALUA). For more information on Most Recently Used (MRU) and Round Robin (RR) load balancing policies, see VMware documents.

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Contents Page Page Contents Uninstalling MD Storage Software Post Installation TasksLoad Balancing Working With SFP+ Modules and Fiber Optic CablesSystem Requirements IntroductionIntroduction to Storage Arrays Management Station RequirementsRelated Documentation Contacting Dell Locating your system Service TagConnecting The Storage Array Hardware InstallationPlanning The Storage Configuration Configuring Fibre Channel Using Fibre Channel Switch Zoning Installing Supported Fibre Channel HBAsInstalling Fibre Channel HBA On Your Host Server Other Information You May NeedWorld Wide Name Zoning Setting Up Zoning On The Fibre Channel Switch Hardware Switch Zoning GuidelinesCabling The Storage Array Redundant And Non-Redundant CablingSAN-Attached Cabling Example SAN-Attached CablingServer1HBA0 Server1HBA1 Remote Replication Cabling Example Remote Replication Cabling Mixed Environment Mixed Environment Cabling PowerVault MD1200 Series Expansion EnclosuresPage Page Installing PowerVault MD Storage Software Graphical Installation Recommended Installing Host Bus Adapters and DriversSilent Installation Console InstallationEnabling Premium Features Optional Silent Installation On Windows SystemsUpgrading MD Storage Software Verifying Storage Array Discovery Post Installation TasksInitial Setup Tasks Uninstalling MD Storage Software From Linux Uninstalling MD Storage SoftwareUninstalling MD Storage Software From Windows Load Balancing Least Path WeightLoad Balance Policy Round Robin With SubsetSetting Load Balance Policies in VMware Setting Load Balance Policies in LinuxRemoving SFP+ Modules Guidelines for Using SFP+ ModulesWorking With SFP+ Modules and Fiber Optic Cables Guidelines for Using Fiber Optic Cables Installing SFP+ ModulesInstalling Fibre Channel Cables Removing Fibre Channel CablesPage Handling Static-Sensitive Components Hardware Cabling Best PracticesHost Cabling for Remote Replication Cabling for PerformanceLabeling Cables Single-Controller and Dual-Controller Topologies
Related manuals
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MD3800f, MD3820f specifications

The Dell MD3800f and MD3820f storage arrays are advanced storage solutions designed to meet the demanding needs of mid-sized businesses and enterprise environments. Both models offer high performance, scalability, and a reliable foundation for data storage that can support various applications.

One of the standout features of the MD3800f and MD3820f is their impressive scalability. The MD3800f can support up to 240 drives, allowing for extensive storage capacity that can be adjusted as business needs grow. Meanwhile, the MD3820f supports up to 192 drives, offering streamlined management without sacrificing performance. This flexible architecture enables organizations to start small and expand their storage configurations as their data evolves.

Performance is another key characteristic of these two storage systems. Equipped with dual active controllers, the MD3800f and MD3820f can provide increased throughput and load balancing, ensuring that applications run smoothly even under high-demand circumstances. With support for both SSDs and HDDs, these storage arrays can achieve a mix of high-speed access and cost-effective capacity. The MD3800f, in particular, offers intelligent tiering capabilities that automatically moves data between different types of drives based on usage patterns, further optimizing performance.

Both models also include advanced RAID configurations, which enhance data protection and availability. Users can select from several RAID levels, including RAID 0, 1, 5, 6, and 10, catering to specific performance and redundancy needs. Additionally, the MD3800f and MD3820f incorporate features like snapshot technology, which allows for point-in-time copies of data for backup or recovery purposes without impacting performance.

In terms of connectivity, the Dell MD3800f and MD3820f offer various interface options including iSCSI and Fibre Channel, enabling seamless integration into diverse IT environments. Management of the arrays is made easy through the Dell Storage Manager, which provides a comprehensive view of storage performance, utilization, and health, making it easier for IT administrators to oversee their infrastructure.

In summary, the Dell MD3800f and MD3820f storage arrays are robust solutions that deliver exceptional scalability and performance. With their advanced features, intelligent data management, and flexible connectivity options, they are well-suited for organizations looking to optimize their data storage capabilities while maintaining high availability and efficiency.