Volume1
User Benchmarks

ModelTypeScoreSeq.
Read
MB		Seq.
Write
MB		Read
4k64QD		Write
4k64QD		Read
Access
msek.		Write
Access
msek.
Volume150020694922.101.609.342.47
Volume150020694922.101.609.342.47
ST2000DM006-2DM164 ATA Devic // WDC WD10EZEX-00RKKA0 SCSI Disk Devic // WDC WD10JPLX-00MBPT // WDC WD25 00BEVT-22ZCT0 USB Devic // NVMe SSSTC CL1-4D25 // Crucial CT128MX100SSD // KINGSTON SNVS250 // Intel Raid 0 Volume SCSI Disk Devic
The measurement of the Volume1 was carried out on Windows. Similar read and write speeds could certainly be achieved with the Volume1 under Linux and MacOS. Of course, the correct hard drive driver should be installed and the correct interface for the Volume1 should be used.
google: Volume1
bing: Volume1


The term "Volume1" usually refers to a storage volume created on a computer or in a storage system. However, since "Volume1" does not refer to a specific hardware or model, but is rather a general name for a storage volume, I will give you a detailed description and the relevant information based on general concepts and technical details of volumes in data storage systems.

General description


A Storage Volume is a logical storage area created on a physical storage device, such as a hard disk or SSD. A volume can have different configurations and formats and serves as a container for data. It can use different file systems and have different sizes and properties, depending on the needs of the user or application.

Technical details


1. Name: Volume1 (in this case a generic name for a volume)
2. Size: The size of a volume can vary based on the size of the underlying storage device and the configuration of the volume. This can range from a few gigabytes to several terabytes.
3. File system: The file system used on a volume can include different types such as NTFS, FAT32, exFAT, ext4 or others. The file system determines how data on the volume is organized and managed.
4. Partitioning: A volume can represent a partition on a hard disk or SSD. Partitions can be divided into primary, extended or logical partitions, depending on the partitioning table (e.g. MBR or GPT).
5. Interfaces: The underlying hardware on which the volume is created can use different interfaces such as SATA, NVMe, SCSI or others.

Features


1. Data organization: A volume organizes data on the storage device and allows the operating system and applications to store and access that data.
2. File system management: The volume uses a file system to manage data, including the structure of files and directories, as well as access rights and metadata.
3. Capacity management: Volumes allow you to divide the available storage capacity of a physical drive into logical units that can be used for different applications or types of data.
4. Access Control: Depending on the file system and operating system settings, different access rights to a volume can be configured to ensure the security and integrity of the stored data.
5. Recovery and Backup: Volumes can be integrated into backup and recovery solutions to prevent data loss and enable recovery in the event of system failure or data corruption.

Scope


1. Operating systems: Volumes are often used to install and store the operating system. Typically, the operating system has its own volume to keep the system files and configuration data separate from user data.
2. Data storage: Volumes provide space for user data such as documents, photos, videos and other files. They enable structured and organized storage and management of data.
3. Server and Network Storage: In server environments and network attached storage systems (NAS), volumes are used to store and organize data and can be made accessible over networks.
4. Virtual Machines: In virtualization environments, virtual volumes are used to provide virtual disks for virtual machines.

Example configurations


1. Single Volume: A single volume that uses all the available capacity on a storage device. It is commonly used in simple desktop and laptop installations.
2. Spanned Volume: A volume that is spanned across multiple disks or storage devices to provide greater capacity than a single device can provide.
3. RAID volumes: Volumes configured in a RAID array to provide data redundancy and security. Examples include RAID 0, RAID 1, RAID 5, or RAID 10.
4. LVM (Logical Volume Manager): In Linux environments, LVM enables the creation of logical volumes that can be flexibly distributed across physical volumes and allow easy adjustments and expansion of storage capacity.

Summary


Volume1 is a generic name for a storage volume and can have a variety of properties and configurations depending on the underlying storage device, the file system used, and the specific requirements. Volumes provide a structured way to store and organize data and are central to almost any storage system, be it on a desktop PC, a server, or a NAS. They enable efficient management of storage resources and help keep data flexible and organized.
---




Volume1 and the compatible operating systems


Windows Server 2025, 2022, 2019, 2016, ... or 2008 and higher

Windows 12, 11, 10 or Windows 7 and higher
Linux (various distributions)
macOS (from version 10.6)

Please note that the exact functions and areas of application may vary depending on the firmware version and configuration of Volume1.

The Volume1 is a reliable disk in case of problems, failures, file loss and other errors, check the drivers of the Volume1 regardless of whether it is under Windows 12, 11, 10, etc. or Linux and Apples macOS.



0.03( )