\_ round-robin 0 [prio=1][enabled]

\_ 6:0:0:22 sdcl 69:144 [active][ghost

where:

mpathb is the name of the virtual device created by device mapper. It is located in the /dev/mapper directory.

DELL is the vendor of the device MD36xxf is the model of the device

Sdx is the physical path to the owning controller for the device Sdcl is the physical path to the non-owning controller for the device

Create a New fdisk Partition on a Multipath Device Node

The fdisk command allows you to create a partition space for a file system on the newly scanned and mapped virtual disks that are presented to Device Mapper.

To create a partition with the multipathing device nodes /dev/mapper/mpath<x>, for example, use the following command, where mpath<x> is the multipathing device node on which you want to create the partition:

# fdisk /dev/mapper/mpath<x>

NOTE: The <x> value is an alphanumeric operating system dependent format. The corresponding value for mapped virtual disks can be seen using the previously run multipath command. Please see your operating system documentation for additional information on fdisk usage.

Add a New Partition to Device Mapper

The kpartx command adds the newly fdisk created partition to the Device Mapper list of usable partitions. See examples below, where mpath<x> is the device node on which the partition was created.

# kpartx –a /dev/mapper/mpath<x>

If successful, the command does not show an output. To verify success and view exact partition naming, the user can use these commands to see the full partition names assigned.

#cd /dev/mapper

#ls

Configuration: Device Mapper Multipath for Linux

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Dell MD3620F, MD3600f Create a New fdisk Partition on a Multipath Device Node, Add a New Partition to Device Mapper, 223

MD3620F, MD3600f specifications

Dell's MD3620F and MD3600F storage arrays are designed for businesses seeking dependable, high-performance storage solutions tailored to meet the demands of modern data management. These models offer a blend of scalability, efficiency, and advanced features, making them well-suited for a range of applications, from virtual environments to critical database operations.

One of the primary features of the MD3620F and MD3600F is their support for a hybrid storage architecture. This approach allows organizations to combine flash storage with traditional hard disk drives (HDDs) to optimize performance and cost. The MD3620F focuses heavily on all-flash configurations, delivering exceptional speed and lower latency, ideal for I/O-intensive workloads.

Scalability is another hallmark of these storage solutions. The MD3600F allows users to scale up to 120 drives, providing robust capacity to meet growing data needs. The MD3620F is engineered for environments where data availability and speed are paramount, with support for high IOPS (Input/Output Operations Per Second) and consistent performance under stress.

In terms of data management, both systems integrate with Dell’s proprietary software, which enhances operational efficiency through features like automated tiering. This technology optimizes data placement between different storage types based on access frequency, ensuring that hot data is readily available while reducing costs associated with less critical data.

Reliability is crucial for businesses that depend on their storage systems. The MD3620F and MD3600F come equipped with advanced data protection mechanisms, such as RAID support, which safeguards against data loss, and snapshot capabilities that provide point-in-time copies of data. Moreover, these solutions include hot-swappable components, ensuring minimal downtime for maintenance and repairs.

Connectivity is also a strong suit of these storage arrays. They support multiple connectivity options, including SAS and iSCSI, allowing for flexible integration into existing IT infrastructures. This adaptability enhances their appeal to a wide range of enterprise environments.

In summary, the Dell MD3620F and MD3600F stand out as robust storage solutions with a combination of hybrid and all-flash configurations, scalability, advanced data management tools, and enhanced reliability features. These characteristics make them ideal for organizations looking to enhance their data storage capabilities while maintaining high performance and efficiency.