How does RAID technology enhance the performance and data protection capabilities of the NAS Raidon SafeTANK GR3680-B31?

RAID technology enhances the performance and data protection capabilities of the NAS Raidon SafeTANK GR3680-B31 in several ways:Performance Improvement: RAID allows multiple hard drives to work together as a single logical unit, which improves read and write speeds. The SafeTANK GR3680-B31 supports various RAID levels such as RAID 0, RAID 1, RAID 5, RAID 6, and RAID 10. RAID 0, for example, stripes data across multiple drives, resulting in faster data access and transfer rates.Data Protection: RAID technology provides data redundancy, ensuring that data is protected against drive failures. In RAID 1, data is mirrored across two drives, so if one drive fails, the data remains intact on the other drive. RAID 5 and RAID 6 use parity data to protect against drive failures. If one drive fails, the data can be reconstructed using the parity information stored on the remaining drives.Hot Swapping and Hot Spare: The SafeTANK GR3680-B31 supports hot swapping, which means you can replace a failed drive while the system is running without any downtime. Additionally, it supports hot spare drives, which are pre-configured drives that automatically take over in case of a drive failure, minimizing the risk of data loss.Scalability: The SafeTANK GR3680-B31 is designed to be scalable, allowing you to add more drives as your storage needs grow. RAID technology enables easy expansion by adding new drives to the existing RAID array without losing any data.Data Integrity: RAID technology includes features like data scrubbing and error correction to ensure data integrity. Data scrubbing regularly checks the data on the drives for errors and corrects them if necessary, preventing data corruption.Overall, RAID technology enhances the performance and data protection capabilities of the NAS Raidon SafeTANK GR3680-B31 by improving performance, providing data redundancy, enabling easy drive replacement, and ensuring data integrity.

What RAID configurations are supported by the NAS Raidon SafeTANK GR3680-B31 and how do they impact data redundancy and storage capacity?

The NAS Raidon SafeTANK GR3680-B31 supports the following RAID configurations:RAID 0 (Striping): This configuration provides maximum storage capacity by combining multiple drives into a single logical volume. However, it offers no data redundancy, meaning that if one drive fails, all data will be lost.RAID 1 (Mirroring): This configuration mirrors data across multiple drives, providing complete data redundancy. It reduces storage capacity by half since all data is duplicated on each drive.RAID 5 (Striping with Parity): This configuration stripes data across multiple drives and also includes parity information. It offers good data redundancy and allows for the failure of one drive without losing data. Storage capacity is reduced by the size of one drive.RAID 6 (Striping with Double Parity): Similar to RAID 5, RAID 6 stripes data across multiple drives and includes double parity information. It offers higher data redundancy by allowing for the failure of two drives without data loss. Storage capacity is reduced by the size of two drives.JBOD (Just a Bunch of Disks): This configuration treats each drive as an individual volume, allowing for maximum storage capacity. There is no data redundancy, so if one drive fails, the data on that drive will be lost.The choice of RAID configuration impacts data redundancy and storage capacity. RAID 0 and JBOD provide maximum storage capacity but no data redundancy. RAID 1 offers complete data redundancy but reduces storage capacity by half. RAID 5 and 6 provide a balance between storage capacity and data redundancy, allowing for the failure of one or more drives without losing data.

Can the NAS Raidon SafeTANK GR3680-B31 support hot-swapping of drives in a RAID configuration, and what benefits does this feature offer in terms of data availability and system maintenance?

Yes, the NAS Raidon SafeTANK GR3680-B31 does support hot-swapping of drives in a RAID configuration. Hot-swapping refers to the ability to replace or add drives to a RAID array without shutting down the system or interrupting its operation.The benefits of hot-swapping in terms of data availability are:Continuous operation: Hot-swapping allows for uninterrupted system operation even when a drive fails. The failed drive can be replaced while the system is still running, ensuring that data access and services remain available.Redundancy and data protection: In a RAID configuration, hot-swapping enables the replacement of a failed drive with a new one, allowing the RAID array to rebuild and restore data redundancy. This ensures that if another drive fails during the rebuild process, data remains protected.Quick recovery: Hot-swapping reduces the downtime associated with drive replacement. Instead of shutting down the system and waiting for it to reboot, the failed drive can be replaced immediately, minimizing the impact on productivity.Simplified maintenance: Hot-swapping makes drive maintenance and upgrades easier. Drives can be replaced or upgraded without disrupting the system, simplifying system maintenance tasks and reducing overall maintenance time.Overall, hot-swapping in a RAID configuration enhances data availability, system uptime, and simplifies drive maintenance, making it a valuable feature for data-intensive environments.

Expert Techniques for RAID Array Data Recovery on NAS Raidon SafeTANK GR3680-B31 Devices

Name: How to recover data from a Raidon
Uploaded: 2025-10-16T08:53:56+03:00
Description: How to recover data from a Raidon

Has your NAS Raidon SafeTANK GR3680-B31 suddenly lost its network drive and you’re unsure what to do next? Did the RAID array collapse, making your files inaccessible? Is the device throwing errors during startup? Perhaps you accidentally rebuilt the RAID array or several hard drives failed at the same time?

Expert Techniques for RAID Array Data Recovery on NAS Raidon SafeTANK GR3680-B31 Devices

Data Recovery Tool

Raidon SafeTANK GR3680-B31 NAS Data Recovery in 2025

In this step-by-step tutorial, we’ll show you how to rebuild your RAID and recover data from an SafeTANK GR3680-B31. We’ll walk through the most common causes of failure and demonstrate proven methods to restore files from a lost or degraded RAID array.

Contents

Why Regular Data Recovery Tools Can’t Restore Files from RAID
Key Information About the NAS Raidon SafeTANK GR3680-B31
How to Remove Hard Disks from Your NAS and Connect Them to a PC

RAID Recovery™ 2.8

Recover data from damaged RAID arrays inaccessible from a computer.

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Why Regular Data Recovery Tools Can’t Restore Files from RAID

Conventional hard drives store user data by writing it sequentially across the disk surface, which means an entire file is typically located on a single drive. In contrast, when data is written to a RAID array, each file is split into multiple fragments. These fragments are then distributed and written in sequence across all the drives in the array. Depending on the configuration, fragment sizes can range from 2 KB to 2 MB, so every file is physically stored across several disks at once.

This approach significantly increases read and write performance — after all, writing two halves of a 1 GB file to two drives simultaneously is much faster than writing the full 1 GB to a single disk. However, this same mechanism makes file recovery far more complex.

Different RAID levels use different methods to distribute and protect data. On top of that, manufacturers like Raidon often add their own proprietary structures and variations. As a result, data can be written to disks in many different formats, and each requires a specific approach during recovery.

Can the use of specific data compression or deduplication techniques impact the performance and data integrity on NAS Raidon SafeTANK GR3680-B31 devices?

Yes, the use of specific data compression or deduplication techniques can impact the performance and data integrity on NAS Raidon SafeTANK GR3680-B31 devices.

Data compression techniques aim to reduce the size of data by encoding it in a more efficient way. While this can save storage space, it can also impact performance as the device needs to compress and decompress data during read and write operations. The impact on performance will depend on the compression algorithm used and the processing power of the device.

Deduplication techniques identify and eliminate redundant data, which can also save storage space. However, deduplication requires additional processing power and memory to compare and identify duplicate data blocks. This can impact performance, especially during write operations when the device needs to check for duplicates before storing data.

It is important to note that the performance impact of compression and deduplication will vary depending on the specific implementation and hardware capabilities of the NAS device. It is recommended to consult the manufacturer's documentation or support for information on how these techniques may impact performance and data integrity on the Raidon SafeTANK GR3680-B31 devices.

How to Remove Hard Disks from Your NAS and Connect Them to a PC

Although the NAS SafeTANK GR3680-B31 can be accessed over the network, you still need to remove its hard disks and connect them directly to a Windows PC. Only then can the recovery software properly scan and analyze the drives. Follow these steps:

Power off the NAS and disconnect it from the power source.

WARNING! Before removing any drives, carefully read the device manual. Improper actions may damage both the NAS enclosure and the hard disks in the RAID array.
Remove the hard disks one by one, gently sliding each drive out of its slot. Remember that hard disks are highly sensitive: any impact or drop can cause serious physical damage.
Label each hard disk according to its position inside the NAS. The order of the drives is crucial for correct RAID reconstruction.
Connect the drives to your computer. In this video, we explain which ports you can use to connect hard disks and what to do if your PC does not have enough free connectors.

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How to Order Remote Data Recovery

Step-by-Step Data Recovery with Hetman RAID Recovery

This program restores data from damaged RAID arrays and is fully compatible with Raidon SafeTANK GR3680-B31. Each hard disk in the array contains technical metadata describing how files were written. When launched, Hetman RAID Recovery analyzes this metadata, automatically reconstructs the damaged array, and provides access to its contents. After that, you can browse the recovered disk and save your files. The program can also restore files that were accidentally deleted from the network drive.

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How to recover data from a Raidon

SafeTANK GR3680-B31 has 2 HDD slots, and it supports the following array types:

RAID 0;
RAID 1;
JBOD;

NAS supports:

APFS / HFS+;
Ext2 / Ext3 / Ext4;

How to Safely Recover Data from Disk Images

This utility allows you to create a complete copy of a disk and work with the disk image instead of the physical drive. This approach helps protect your data from:

Overwriting during the recovery process;
Additional data loss caused by bad sectors;
User errors.

To create a disk image, follow these steps:

Ensure you have enough free space to store the image. Its size will typically match the size of the original disk.
In the main window, select the target disk and choose Tools - Save Disk. You can also select multiple disks if needed.
When the Image Creation Wizard opens, select whether you want to save the entire disk or only a specific region. Adjust the settings and click Next.
Choose the directory where the image will be saved. You may select any available disk connected to your PC or upload the image via FTP.

Where Are the User’s Files Actually Stored?

The Raidon SafeTANK GR3680-B31 network-attached storage keeps OS Linux operating system files on a separate RAID 1 (mirrored) array. Usually, all NAS systems create several volumes on every hard disk, and the first of them takes up to 2 Gb of space. This is where operating system files are stored. Other volumes are united into a RAID array where user’s data is written.

RAID Recovery Software: Detailed Comparison

Product	Operating system	RAID controller support	Supported file systems	Virtual RAID controller support	Data recovery from damaged RAID	File preview
Hetman RAID Recovery	Windows, Linux, MacOS	Yes, over 100 controllers	FAT, exFAT, NTFS, ReFS, APFS, HFS+, Ext4, Ext3, Ext2, ReiserFS, Btrfs, VMFS, Hikvision, XFS, UFS, ZFS	Yes	Yes	Yes
DiskInternals RAID Recovery	Windows	Yes, over 10 controllers	FAT, NTFS, Ext2/3/4, HFS+	No	Yes	Yes
R-Studio	Windows, Mac, Linux	Yes, over 20 controllers	FAT, NTFS, Ext2/3/4, HFS+	Yes	Yes	Yes
UFS Explorer RAID Recovery	Windows, Mac, Linux	Yes, over 100 controllers	FAT, NTFS, Ext2/3/4, HFS+	Yes	Yes	Yes
EaseUS Data Recovery	Windows	Yes, over 20 controllers	FAT, NTFS, Ext2/3/4, HFS+	No	Yes	Yes
ReclaiMe Free RAID Recovery	Windows	Yes, over 100 controllers	FAT, NTFS, Ext2/3/4, HFS+	Yes	Yes	Yes

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We will be happy to answer your questions!

Comments (3)

Hetman Software: Data Recovery 9.08.2022 12:31 #

If you want to ask a question about data recovery, from NAS SafeTANK GR3680-B31, feel free to leave a comment!

Reply
Monty Knightley 4.09.2023 17:43 #

Is it possible to recover data from a NAS Raidon SafeTANK GR3680-B31 device that has been affected by a file system corruption or partition error?

Reply
- Hetman Software 4.09.2023 19:00 #
  Yes, it is possible to recover data from a NAS device that has been affected by file system corruption or partition errors. However, the success of the data recovery process will depend on the severity of the corruption and the actions taken after the issue occurred.
  Here are a few steps you can try to recover data from a NAS device:
  Check hardware: Ensure that the NAS device is functioning properly and all connections are secure. Sometimes, a loose connection or faulty hardware can cause file system errors.
  Use data recovery software: There are various data recovery software available that can help you recover data from a corrupted file system or partition. These tools scan the device and attempt to recover the lost or damaged data. Some popular options include EaseUS Data Recovery Wizard, Recuva, and TestDisk.
  Seek professional help: If the data recovery software fails to retrieve your data or if the corruption is severe, it is recommended to consult a professional data recovery service. They have specialized tools and expertise to handle complex data recovery situations.
  It's important to note that attempting to recover data from a corrupted file system or partition can be a delicate process, and there is a risk of further data loss if not done correctly. Therefore, it is advisable to consult professionals or follow expert guidance to increase the chances of successful data recovery.
  Reply

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Updated:
16.10.2025 8:53

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Author: Vladimir Artiukh, Technical Writer

Vladimir Artiukh is a technical writer for Hetman Software, as well as the voice and face of their English-speaking YouTube channel, Hetman Software: Data Recovery for Windows. He handles tutorials, how-tos, and detailed reviews on how the company’s tools work with all kinds of data storage devices.

Editor: Oleg Afonin, Technical Writer

Oleg Afonin is an expert in mobile forensics, data recovery and computer systems. He often attends large data security conferences, and writes several blogs for such resources as xaker.ru, Elcomsoft and Habr. In addition to his online activities, Oleg’s articles are also published in professional magazines. Also, Oleg Afonin is the co-author of a well-known book, Mobile Forensics - Advanced Investigative Strategies.

Questions and answers

How does RAID technology enhance the performance and data protection capabilities of the NAS Raidon SafeTANK GR3680-B31?
RAID technology enhances the performance and data protection capabilities of the NAS Raidon SafeTANK GR3680-B31 in several ways:
1. Performance Improvement: RAID allows multiple hard drives to work together as a single logical unit, which improves read and write speeds. The SafeTANK GR3680-B31 supports various RAID levels such as RAID 0, RAID 1, RAID 5, RAID 6, and RAID 10. RAID 0, for example, stripes data across multiple drives, resulting in faster data access and transfer rates.
2. Data Protection: RAID technology provides data redundancy, ensuring that data is protected against drive failures. In RAID 1, data is mirrored across two drives, so if one drive fails, the data remains intact on the other drive. RAID 5 and RAID 6 use parity data to protect against drive failures. If one drive fails, the data can be reconstructed using the parity information stored on the remaining drives.
3. Hot Swapping and Hot Spare: The SafeTANK GR3680-B31 supports hot swapping, which means you can replace a failed drive while the system is running without any downtime. Additionally, it supports hot spare drives, which are pre-configured drives that automatically take over in case of a drive failure, minimizing the risk of data loss.
4. Scalability: The SafeTANK GR3680-B31 is designed to be scalable, allowing you to add more drives as your storage needs grow. RAID technology enables easy expansion by adding new drives to the existing RAID array without losing any data.
5. Data Integrity: RAID technology includes features like data scrubbing and error correction to ensure data integrity. Data scrubbing regularly checks the data on the drives for errors and corrects them if necessary, preventing data corruption.
Overall, RAID technology enhances the performance and data protection capabilities of the NAS Raidon SafeTANK GR3680-B31 by improving performance, providing data redundancy, enabling easy drive replacement, and ensuring data integrity.
What RAID configurations are supported by the NAS Raidon SafeTANK GR3680-B31 and how do they impact data redundancy and storage capacity?
The NAS Raidon SafeTANK GR3680-B31 supports the following RAID configurations:
1. RAID 0 (Striping): This configuration provides maximum storage capacity by combining multiple drives into a single logical volume. However, it offers no data redundancy, meaning that if one drive fails, all data will be lost.
2. RAID 1 (Mirroring): This configuration mirrors data across multiple drives, providing complete data redundancy. It reduces storage capacity by half since all data is duplicated on each drive.
3. RAID 5 (Striping with Parity): This configuration stripes data across multiple drives and also includes parity information. It offers good data redundancy and allows for the failure of one drive without losing data. Storage capacity is reduced by the size of one drive.
4. RAID 6 (Striping with Double Parity): Similar to RAID 5, RAID 6 stripes data across multiple drives and includes double parity information. It offers higher data redundancy by allowing for the failure of two drives without data loss. Storage capacity is reduced by the size of two drives.
5. JBOD (Just a Bunch of Disks): This configuration treats each drive as an individual volume, allowing for maximum storage capacity. There is no data redundancy, so if one drive fails, the data on that drive will be lost.
The choice of RAID configuration impacts data redundancy and storage capacity. RAID 0 and JBOD provide maximum storage capacity but no data redundancy. RAID 1 offers complete data redundancy but reduces storage capacity by half. RAID 5 and 6 provide a balance between storage capacity and data redundancy, allowing for the failure of one or more drives without losing data.
Can the NAS Raidon SafeTANK GR3680-B31 support hot-swapping of drives in a RAID configuration, and what benefits does this feature offer in terms of data availability and system maintenance?
Yes, the NAS Raidon SafeTANK GR3680-B31 does support hot-swapping of drives in a RAID configuration. Hot-swapping refers to the ability to replace or add drives to a RAID array without shutting down the system or interrupting its operation.
The benefits of hot-swapping in terms of data availability are:
1. Continuous operation: Hot-swapping allows for uninterrupted system operation even when a drive fails. The failed drive can be replaced while the system is still running, ensuring that data access and services remain available.
2. Redundancy and data protection: In a RAID configuration, hot-swapping enables the replacement of a failed drive with a new one, allowing the RAID array to rebuild and restore data redundancy. This ensures that if another drive fails during the rebuild process, data remains protected.
3. Quick recovery: Hot-swapping reduces the downtime associated with drive replacement. Instead of shutting down the system and waiting for it to reboot, the failed drive can be replaced immediately, minimizing the impact on productivity.
4. Simplified maintenance: Hot-swapping makes drive maintenance and upgrades easier. Drives can be replaced or upgraded without disrupting the system, simplifying system maintenance tasks and reducing overall maintenance time.
Overall, hot-swapping in a RAID configuration enhances data availability, system uptime, and simplifies drive maintenance, making it a valuable feature for data-intensive environments.