SuperImager Plus Desktop XL Supreme2 Standalone Forensic Imaging Unit with 12 SAS/SATA , 4 U.2, 2 10GbE, 2 TB4.0 ports - Dual Open OS

The SuperImager® Plus Desktop XL Supreme-2 with 12 SAS/SATA, 4 U.2 NVMe (PCIE 4.0), 10 USB3.2, 2 10GbE ports, 2 TB4.0 and optional of 8 M.2 NVMe external ports is the latest generation of MediaClone desktop Forensic solutions; it is a standalone forensic imaging device that can perform multiple Forensic imaging and network uploads at extreme speed. Designed for a lab, it allows an operator to capture data from various source drives and cellphones with different interfaces to multiple target drives simultaneously and upload them to a network extremely fast. It is a great tool for labs with a large backlog in forensic imaging, and this unit can image 13 drives to 13 drives simultaneously. It can simultaneously capture data from multiple cell phones (logical extraction). The main unit is industrial and durably built desktop-style, designed with easy-to-use touchscreen icons, and has 4 SAS/SATA, 4 U.2/M.2 NVMe, 10 USB 3.2, 2 10GbE, 2 TB4.0 ports, and supplied with 8 SAS/SATA ports Expansion Box (cable-less slots).
The 10GbE ports are fast ports that can be use to upload simultaneously many images to a network, and the 2 TB4.0 ports are fast ports to be use for expansion like adding 8 M.2 NVMe external ports or supports TB storage devices.


The SuperImager’s main application (the unit’s software) supports many imaging methods like Mirror Image, Encase E01/Ex01, and Linux-DD.


Here are some of the tasks the unit can be used for:

1) Multiple Parallel Forensic Capture: Mirror (bit by bit), Linux-DD, E01/Ex01 (with full compression) formats, Mixed-Format DD/E01, AFF4, copy the whole drive or only part of it.

2) Run a Selective Imaging (Targeted Imaging) of files, folders, and partitions with file extension filters, including metadata and HASH. Also do simultaneously logical extraction from multiple smartphones.

3) Perform Forensic Imaging from many Suspect drives to one large Evidence drive; in append mode (can perform forensic imaging from 15 Suspect drives to one large Evidence drive).

4) Upload many Forensic images to a network (SMB, CIFS, NFS).

5) Erase data from Evidence drive – using DoD (ECE, E), Security Erase, Enhanced Security, or Sanitize Erase protocols.

6) View the data directly on the Ubuntu Desktop screen.

7) Encrypt the data while capturing (using the AES256 engine).

8) HASH the data while capturing – run all the 4, MD5, SHA-1, SHA-2, and SHA-512 HASH engines simultaneously.

9) Run a quick Keyword Search on the Suspect drive before capture.

10) Run Multiple Cellphone/Tablets data Extraction and Analysis using a third-party application on the Windows 11 side.

11) Run a Forensic Triage application (Windows 11) to capture and view the targeted data.

12) Run a full Forensic Analysis application like Encase/Nuix/FTK/Axion.

13) Run Virtual Drive Emulator before the data is captured (Linux).

14) Encryption and Decryption on the fly of drives that contain sensitive information.

15) Easily reconfigure the unit’s ports, where each target port can be reconfigured as a source or target, enabling the user to run 8:8 sessions or upload 16 images to a network.

16) Convert the unit’s 10 USB 3.2 ports to SATA ports and run additional imaging (using some USB 3.0 to SATA adapters).

17) Use the unit as a “Write Blocker” device: This feature enables the SuperImager unit to function as a secure bridge between workstations on a network to Suspect drives attached to the SuperImager unit by using the iSCSI protocol over a network connection.


A forensic investigator using a workstation or laptop in one location can access a Suspect drive in different places in the Write block mode.


This unit is not expandable.


The SuperImager unit will be connected to the same network, and the Suspect drives will be attached to the SuperImager unit in read-only mode. The SuperImager unit will act as a “write blocker” for any of the unit’s attached storage, such as SAS, SATA, USB, 1394, FC, SCSI, and NVMe.


The unit is designed to help expedite the forensic imaging process, especially in facilities with a large backlog in imaging drives, by performing parallel forensic imaging in a true optimized multiple session’s application.


Additional operations: HASH authentication, drive diagnostics, and automation of process with scripting.


SuperImager Plus unit with i9 CPU, 32GB Memory
Hash Verification/ Authentication Only (Reading Speed) Avg Speed GB/Min
Hash single drive, in a single session (Samsung 850 EVO SSD)
SHA-1 30.6
MD5 30.6
SHA-1+ MD5 30.6
Hash 2 drives in 2 separate sessions (2 Samsung 850 EVO SSD)
SHA-1 + MD5 drive 1 26.2
SHA-1 + MD5 drive 2 26.6
Hash single drive, in a single session (SanDisk Extreme II 128GB)
SHA-1 30.8
SHA-1 + MD5 30.8
Wipe Drives (Write Speed) (Samsung 850EVO SSD)
Security Erase Mode 577.2
Single Pass – User Erase Mode 28.8
Forensic Imaging
100% bit by bit Imaging Samsung 850 EVO SSD to Samsung 850 EVO SSD
with SHA-1+ MD5 Hash on 28.5
DD Imaging Samsung 850 EVO SSD to Samsung 850 EVO SSD (2GB Files Chunks and NTFS)
with SHA-1 + MD5 Hash on 29.1
DD Imaging SanDisk Extreme II SSD to Samsung 850 EVO SSD 2 GB file Chunks and NTFS)
with SHA-1 + MD5 hash on 28.5
E01 Imaging Samsung 850 EVO SSD to Samsung 850 EVO SSD (2GB Files Chunks and NTFS)
with SHA-1 + MD5 Hash on 24.2
Bit by bit imaging Samsung NVMe 990 EVO Pro SSD to Samsung 990 EVO Pro SSD
with SHA-1 and HASH Verify 103
no HASH 179





Technical Specs


SuperImager Plus Forensic Imaging Application Settings:

  • HPA/DCO Automatic Supports: The application can detect HPA and DCO special areas on the Source drive. Then, resize the Source drive to its full native capacity to capture any “hidden data in those areas (HPA/DCO supported by some SATA drives).
  • Bad Sectors Handling: The user can select to skip bad sectors, skip bad blocks, or abort the operations. The skipped, bad sectors will be displayed in the log file in detail or summary format.
  • 48bit LBA Addressing: Supports drives with sizes up to 256 TB.
  • OS: Dual open OS of Ubuntu and Windows.
  • Security: Imaging is done under the Linux OS (Linux is less targeted by malware).
  • Application Updates: The application can easily be updated by using any of the unit’s USB ports and by a simple tap on the “update software” icon from the unit’ main menu.


Application Features:

  • GUI: The application is built with large, easy-to-use icons. In a few clicks, the user can set up an operation.
  • Speed: Extremely fast, it is one of the fastest Forensic Imaging solutions available on the market today, achieving a speed of above 32 GB/min for SATA SSD and above 100 GB/min for NVMe SSD.
    • Tested with the HASH verification operation with SHA-1, SSD ran at a top speed of 30 GB/min and with 1TB WD Blue SATA-2 HDD ran at a top speed of 10 GB/min.
    • Tested with the Forensic Imaging operation of 1 to 2 with SHA-1, 3 SSD of Samsung Pro 240 GB ran a top speed of 32 GB/min.
    • Tested with the Forensic Imaging operation of 1 to 2 with SHA-1, 3 SSD of Samsung NVMe 1 TB ran at a top speed of 100 GB/min.
  • Forensic Images – Destination: The user can save Forensic Images to any storage device attached to unit, or any connected network, using the unit’s 1 Gigabit/s port (or 10 Gigabit/s depend on the unit), or to any external USB3.2 RAID (encryption is optional), or to an external NAS storage.
  • Cross Copy from unit’s ports: The user can select to capture from one port with one type of storage interface and save the forensic image onto a different storage interface using the unit’s destination ports.
  • Audit trail and operation Log Files: Logs are generated automatically by the application and saved on the Evidence/Target drive in PDF format.


Application’s Main Operations:

  • Forensic Imaging Mode includes Restore Images.
  • Virtual Drive Emulator.
  • Complete Forensic Platform.
  • Data Erase and Format
  • HASH Calculation Authentication and Verification
  • Remote Capture and Network Supports


Forensic Imaging Mode:

  • Full Drive Imaging
  • Mirror imaging bit by bit (100% or any % of the drive), DD, E01/Ex01 – with optional adjustable compression level, Mix-Format of DD/E01/Ex01, Selective Capture (Capture Partitions, Files & Folders, with the use of file extension filters), Selecting a partition to capture.
  • Forensic Restore: Back up the captured data (DD/E01/Ex01) into another drive in the original format.
    Targeted Imaging (Triage):
  • Selective Imaging feature to select only partitions, files, or folders (like the Windows User-Folders or Windows User-Documents and User-Pictures). With the use of pre-set file extension filters or adding its filters, the Forensic Investigator can narrow their capture scope and shorten its acquisition time. In this mode, the application also supports calculating 4 HASH values (all the 4 at the same time) for each selected and captured file and saves its metadata. It supports capture from the “Suspect” drive that is formatted and mountable under Linux: FAT/eFAT/NTFS/EX2-4,/HFS+/HPFS/APFS.


Forensic Images Formats:

  • 100% Bit by Bit Mirror Image.
  • Linux-DD Format.
  • Encase E01/Ex01 Formats (Includes options for optimizing the E01 compression by adjusting its level and the number of parallel engines).
  • Mix-Format: The user can capture from one source drive and save the images onto multiple destination ports; each target port can be selected as one of the 3 E01/Ex01/Linux-DD formats.
  • File-based copy: Copy files and folders using selective imaging with file extension filters, calculate 4 hash values for each file and capture the file’s metadata.
  • Single partition Capture: Gives the user the ability to select only one partition (per session) to perform forensic imaging and save it into the Evidence drive in DD/E01/Ex01 format.


Imaging and Verify: The user can select to run forensic imaging with 4 HASH engines on the fly simultaneously (MD5, SHA1, SHA2, SHA512) and also enable the “HASH target and compare HASH” feature. That is a standard operation to ensure the captured image is not altered or corrupted.
Drive Spanning: Supports spanning the captured data onto multiple “Evidence” drives when the Evidence drives are not large enough (Supports restore images spanned over multiple drives).
Encryption: On-the-fly AES256 encryption of the “Suspect” drive, saving the encrypted data on the “Evidence” drive in 100%, DD, E01/Ex01 formats.
Decryption: The user can perform decryption on a drive that has previously been encrypted with any of the SuperImager units. Alternatively, the user can use a standalone MediaClone Linux decryption utility application to perform decryption on an encrypted drive using any PC. The supplied standalone decryption utility application can be burned onto a USB flash drive that later can be used to boot the PC to the MediaClone Linux decryption utility application, where the encrypted drive and a blank destination drive are attached to the PC (the user needs to supply to the utility application the saved encryption key). MediaClone developed its decryption utility application to ensure that the user can always decrypt the drive that was once encrypted via a MediaClone unit and not rely on TruCrypt or other third-party applications that might not be supported in the future.
Forensic Imaging Sessions: In one read-pass from the “Suspect” drive, the application can run the following operations simultaneously: Forensic imaging with E01 format and full compression, Encryption with AES256, 4 HASH Verification and Authentication values (MD5, SHA1, SHA2, SHA512), and save the captured Forensic Images to 2 “Evidence” drives to a local network, and external compact USB3.2/e-SATA TB RAID encrypted storage. The basic Forensic Imaging mode can be 1:1, 1:2, 1:3, 2:2, 2:3… The new Linux-based SuperImager Plus application utilizes and optimizes multiple CPU cores to achieve one of the most efficient operations while performing at incredibly high speeds with E01/Ex01 formats and full compression. In addition, the application allows the user to manually select and adjust the number of CPU hyper-threading and the level of compression used during each session. Forensic data capture with Encase E01/Ex01 formats with full compression is widely used for operations in the forensic industry and generally requires a trade-off between speed, space, and time of decompression by the Encase application.
Data Eraser and Format:

  • Erase the Evidence drive before use (with an extremely fast speed of up to 32 GB/min with SSD and up to 11 GB/min with HDD). The user also can select to erase the remainder of the drive after the copy.
  • Drive Erase Protocols: DoD 5220-22M, Security Erase, Enhanced Security Erase, Sanitize, NVMe Secure Erase, or a User-mode where the user can define the final data filling pattern and the number of iterations (Security Erase, Enhanced Security Erase, Sanitize, and DoD erase protocols are all NIST 800-88 compliant).
  • Quick or Full Format a drive: NTFS, FAT, HFS+, EXT4, and exFAT.
  • Erase Verify: Run Erase Verify to verify that the drive was erased before use.
  • Erase Logs and Erase Certification: The application generates extensive erase logs and files with an NIST 800-88 erase certification (also runs S.M.A.R.T. tests before and after the erase operation and is saved to XML file format), which can be exported to a USB thumb drive. The application also has a built-in erase database that can easily be exported to XLS.
  • Evidence Drive Formats: exFAT/FAT/NTFS/HFS+/EXT4.


HASH Calculation Authentication and Verification as a Standalone Operation:
It simultaneously calculated 4 HASH values MD5/SHA-1/SHA-2/SHA512 on a captured drive for image no alter verification (This operation is different from the HASH calculation during the capture).

Network Supports:

  • Network Capture: Data from a network folder can be captured and saved into “Evidence” drives using the iSCSI storage protocols. The application (for both capturing from a network and saving to a network) supports SMB, NFS, and CIFS network protocols. The capture can run with HASH authentication and HASH verification.
  • Saves Forensic Images to Network: Upload multiple Forensic images to a local network (DD, E01) simultaneously by using 10 Gigabit/s port.
  • Disable Network process and protocols for security reasons: Those network protocols are easy to disable using Ubuntu Preferences Tools.
  • Copy lose files from/to the network: The user can copy files from/to a network with HASH authentication for better data integrity.
  • Remote Capture (Intel based CPU)- Capture data from the Internal Drives of an un-opened Laptop or Computer: Using USB or 1 Gigabit Ethernet ports on the laptop/computer enables the user to use the Remote capture application via a USB stick without the need to remove the drive from the laptop/computer or boot the laptop from its OS (the capture speed is limited to the performance of the Laptop/PC CPU and the 1 Gigabit/s connection). The Remote Capture Option Kit includes the USB flash drive, 1 Gigabit/s to USB 3.0 Adapter, and a crossover network cable. The Remote capture application supports capture via USB/1394/TB/R45 network ports.


Parallel Operations:

  • Parallel Forensic Imaging – Multiple Session Operations: Improves the efficiency of the evidence data collection process by using multitasking and using a parallel imaging process. The user can take advantage of the SuperImager unit’s multiple available ports and run multiple, efficient, parallel operations. The user can mix different types of operations, and each operation can be set as a new independent session. An example of an operation: erase data from a drive connected to one port and HASH verify a different drive connected to the second port, all while performing forensic imagining of 1 to many on drives connected to the remaining ports.
  • Port’s rule Increases Possibilities: The application is very flexible in running multiple sources to multiple destinations, all in simultaneous operations. The user has the flexibility to change a port’s role from “Evidence” to “Suspect” port. The session control application screen provides the user with comprehensive information and direct control over the running sessions, including all the settings of the session and the ability to abort the session.
  • Detection Application Screen: All drives and storage devices that are connected to the unit will be “scanned” and displayed on one application screen called “The Detection Screen”. The user can tap on each drive to get its detailed info and run some specific utilities regarding that drive (as long as it is a target drive) – as a quick S.M.A.R.T. test (only using the “Target” port), run a Virtual Emulator (“Source” port), safely preview the contents of the drive (“Source” port), as well as select it for any desired operation they are planning to use.


More Features:

  • Drive Trim: This allows the user to manipulate the HPA/DCO area on the drive to create an Evidence/Target drive with the same capacity of the Suspect/Source drive.
  • Application Audio Notification: The user can enable some audio notification features, like the end of a session.
  • Unit’s User Configuration: This feature allows the administrator of the unit to set specific operations with specific settings and allows the user to secure it with a lock password (This feature needs to be requested at the time of purchasing the main unit – it is needed for security purposes).
  • Tasks Scripting: The user can create a script to run sequential and parallel operations. There are no limitations on the number of scripts or operations. If the operation requires the user’s input, it will pause and wait for it.
  • Language Supports: Easy to implement translations for new languages. It supports Korean and Chinese languages.
  • Keyword search before imaging: It allows the user to perform a quick keyword search on the Suspect drive with filters on the file extension types and a few important keywords. (This is a quick keyword search to determine if a “Suspect” drive needs to be captured.
  • Keyword search while imaging: Gives the user the ability to perform a quick keyword search on the Suspect drive’s files and folders, with filters on the files extension types and with a few important keywords included in the search images.
  • Cloud Storage Connection: With Insync paid services, the user can sync to Microsoft OneDrive, Google Cloud, and other cloud storage and capture the data.


The unit as a Complete Forensic Platform: The unit built-in with High Performances Hardware and configured with dual open OS (Linux, Win) and can serve as a platform for a Forensic Investigator to perform a complete investigation using one unit. A forensic investigator can, in addition to imaging and capturing data, install and run any third-party applications to: analyze the captured data, extract data from cellphone, preforms RAID reconstruction, network analysis, and more.

  • Virtual Drive Emulator (Linux): Enables the user to run a drive, or image of a drive emulator, on the unit (Windows only) and allows the user to share folders and copy important files (bypass the user’s Windows password). Mount a Suspect drive, or its DD/E01 images, simulate it in its native Windows Environment and extract important files.
  • Secure Write Blocked File Preview (Linux and Win): Browse and preview the captured data on the unit’ monitor. The user should connect the drive to the unit’s Suspect port to protect the drive via the port’s write-blocking mechanisms, turn on the power to the drive using the application’s power icon, and mount the drive using Ubuntu. The drive Doc files, including XLS, can be viewed using the Ubuntu Open Office package. Alternatively, the user can boot the unit to Windows and view the captured data using Windows.
  • Cellphone/Tablet data extraction and analysis: Install and run Cellebrite, Oxygen, BlackBag, MPE+, Paraben, Axiom, MSAB, Graykey applications, and more (the user can also use the many of the unit’s USB 3.2 ports to run multiple cellphone extractions in a very good performance)
  • Triage data collection: Install and Nuix/Encase/Axiom/ADF portable applications.
  • Full computer forensic analysis: Install and rub Encase, Nuix, Axiom, and FTK applications (data is already captured, and the hardware can support running a full analysis with good performance).




Extended Information

Main Hardware Features:

  • Case: Desktop Built – last for years.
  • 8 Channel Tray Drive open tray on the main unit: Easy to insert and plug tray that accommodates any size and shape of drives or storage devices; contains power status LED indicators.
  • 8 SAS/SATA ports drive expansion box: A drive slid into the open drive socket
  • CPU: i9 latest generation CPU.
  • Display: Color LCD 10″ display with touchscreen, LED back-light.
  • Hardware: Very high-quality, high performing components; some with military specifications.
  • OS: Linux Ubuntu 64 bit and Win 11 Professional 64 Bit in a dual boot.
  • Security: Linux OS (Linux is less targeted by malware).
  • Hardware Upgrade: The unit can be upgraded at the time of purchasing for additional cost to a larger internal SSD.


Hardware Specifications:

  • RAM: 32 GB DDR4 internal memory.
  • Internal storage: 1 TB SSD SATA.
  • Storage controller: 8 and 4 ports SAS controller 12Gb/s PCIE 4.0, NVMe controller 4 U.2 ports each 4x of PCIE 4.0
    Hardware Ports and Supports:
  • Source Ports: One SAS/SATA port, and one USB 3.2 port are set as source ports (the user cannot change the role of these ports).
  • Target Ports: 11 SAS/SATA ports, 9 USB 3.2 ports, one e-SATA port, 4 U.2 NVMe SFF-8644 ports (include connection cables to SFF-8639 and include 110mm U.2 to M.2 NVMe adapters)
  • USB 2.0 ports: 2 ports that can be use for mouse and keyboard. In general any of the unit’s USB ports can be used for peripherals.
  • 1 Gigabit/s Ethernet: One port
  • 10 Gigabit/s Ethernet: Two ports
  • Thunderbolt 4.0: Two ports
  • HDMI One port


Supports Storage Protocols and Interfaces: SAS,SATA, e-SATA enclosures, IDE, USB2.0, USB3.2, MMC, 1394*, SCSI*, NVMe.

  • Supports Form Factors: 3.5”, 2.5”, ZIF, 1.8”, Micro-SATA, Mini-SATA, Slim SATA, Ultra Slim SATA, M.2 SATA, M.2 NVMe, U.2 NVMe, and CF-30. * with optional adapters and optional kits

    Power Characteristics:

  • Power Supply Main Unit: A built-in, universal, auto switching 700 Watt UL/CE/PSE power supply with over current protection.
  • Power Supply Expansion Box: A built-in, universal, auto switching 500 Watt UL/CE/PSE power supply with over current protecion.
  • Input Voltage: 100-240V/50-60Hz.
    Operating Environment:
  • Temperature: 5°C – 55°C (40°F-130°F).
  • Relative Humidity:20-60% non-condensing.
    Mechanical Characteristics:
  • Main Unit net weight: 32.00 lbs.
  • Expansion Box net weight: 10.00 lbs.
  • Open Tray dimension:11.00″ x 6.00″ x 2.00″
  • Unit dimensions: 18.00” x 18.00″ x 4.00″.
  • Shipping dimensions for the main unit: 24″ x 20″ x 16″, 35.00 lbs.
  • Shipping dimensions for the expansion box: 18″ x 12″ x 10″, 15.00 lbs.
    Included Items:
  • 4 SAS/SATA 29 Pins male to female power and data combo cables with secure locking connection, 8 SAS/SATA Expansion Box with SAS Extender cables, 4 NVMe U.2 extension cables and 4 110mm U.2 to M.2 NVMe Adapters.
  • 2 TB 3.0/USBc to U.2/M.2 NVMe adapters (adding 2 more NVME ports) Adding 2 more NVMe ports.



  • Remote capture kit (Intel and MAc) via USB port or 1 Gigabit/s Ethernet ports
  • ZIF to SATA Adapter
  • M.2 to SATA Adapter
  • USB3.0 to SATA 4 Channel Kit convert 4 USB3.0 ports to 4 SATA ports at high speed (20GB/min) The Kit includes 4 USB3.0 to SATA drive adapters and one power supply to power 4 SATA hard disk drives