A2000 NVMe PCIe SSD - Support
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Frequently Asked Questions
2. Consult your system manufacturer’s support page to confirm if there is a BIOS update available for your system.
3. Confirm you’re running the latest version of your operating system and ensure that you don’t have any pending updates.
4. Confirm you are running the latest drivers for your system. You can do this by visiting your system manufacturer’s support page and looking for the latest driver updates.
If you’re still encountering issues with your system after these steps, please contact Kingston Technical Support.
FAQ: KSD-012010-001-21
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This is common for flash storage, whether internal SSD or external USB storage. It is due in part to a variance in how flash memory vs spinning platter hard drive manufacturers calculate megabyte. Hard drive manufacturers calculate a megabyte (or 1,000x1,000 bytes) as 1,000KBs, whereas the binary calculation for flash-based storage is 1,024KBs.
Example: For a 1TB flash-based storage device, Windows will calculate it as having a capacity of 931.32GB. (1,000,000,000,000÷1,024÷1,024÷1,024=931.32GB).
Furthermore, Kingston reserves some of the listed capacity for formatting and other functions, such as firmware and/or controller-specific information, and thus some of the listed capacity is not available for data storage.
FAQ: KDT-010611-GEN-06
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Note: Thermal throttling will engage when the temperature reaches 80°C
FAQ: KSD-060117-NVME-02
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Steps to disable the write-cache buffer flush
1. Open Device Manager
2. Select Disk Drives and expand, then select target drive.
3. Right-click and select Properties
4. Select “Turn off Windows write-cache buffer flushing on the device”
a. Note: By disabling write-cache buffer flushing on the device, you run the risk of losing data in transit and/or data corruption in the event of a power failure. Only disable this feature if you are aware of the risks associated with it.
Performance Comparison
FAQ: KSD-060117-KC1000-04
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FAQ: KSD-060117-NVME-01
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FAQ: KSD-001525-001-00
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FAQ: KSD-012010-001-00
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FAQ: KSD-012010-001-01
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If this is not possible, or if you previously cloned your old data to your new drive, confirm that the new drive appears as a boot device in the system BIOS, then select it for booting.
FAQ: KSD-012010-001-03
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FAQ: KSD-012010-001-18
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https://www.kingston.com/blog/pc-performance/two-types-m2-vs-ssd
FAQ: KSD-012010-001-16
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-Confirm that the system BIOS recognises your new SSD and if not, visit the motherboard / system manufacturer’s website to see if there is a new BIOS available.
-Verify your BIOS settings are configured to accept a new NVMe SSD.
-Confirm that your target operating system supports NVMe SSDs (e.g., Windows 8 or later)
Note: Kingston SSDs do not require additional drivers to operate.
FAQ: KSD-012010-001-05
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https://support.microsoft.com/en-us/topic/update-to-add-native-driver-support-in-nvm-express-in-windows-7-and-windows-server-2008-r2-03cd423b-d42e-66c2-722b-019d16455a6b
FAQ: KSD-012010-001-06
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FAQ: KSD-012010-001-07
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If the drive is present in the BIOS, you may need to initialise the disk within the operating system.
For Windows:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Windows OS.
Step 2: Press Windows + X and choose Disk Management.
Step 3: If the SSD is new and not initialised, a popup will appear saying "Initialize Disk".
Step 4: Choose between: MBR (Master Boot Record): Suitable for drives under 2TB and older systems. GPT (GUID Partition Table): Recommended for modern systems and drives larger than 2TB.
Step 5: Click OK to initialize the disk.
Step 6: Once initialised, you'll see the SSD as "Unallocated". Right-click on it and select New Simple Volume.
Step 7: Follow the on-screen prompts (keeping all defaults is Okay) to format and assign a drive letter to the SSD.
For macOS:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Mac OS.
Step 2: Open Disk Utility (you can find it using Spotlight with Cmd + Space and then typing "Disk Utility").
Step 3: In the left pane, select your SSD.
Step 4: Click on Erase.
Step 5: Provide a name for the drive, and under Format, choose: APFS for newer Macs and SSDs. Mac OS Extended (Journaled) for older systems or HDDs.
Step 6: Click Erase. Once the process completes, the SSD will be ready for use.
For Linux:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Linux OS.
Step 2: Open a terminal.
Step 3: Enter sudo fdisk -l to list all connected drives. Identify your SSD by its size and note the device name, e.g., /dev/sdb.
Step 4: Initialize the SSD using fdisk or parted. Here's a basic guide using fdisk: Enter sudo fdisk /dev/sdb (replace /dev/sdb with your SSD's device name). Press g to create a new GPT partition table. Press n to create a new partition. Follow the prompts to specify the size and type. Press w to write the changes.
Step 5: Format the new partition on the SSD (e.g., /dev/sdb1). You can format it with the filesystem of your choice: For ext4: sudo mkfs.ext4, For ext3: sudo mkfs.ext3 /dev/sdb1 /dev/sdb1, For FAT32: sudo mkfs.vfat /dev/sdb1
Step 6: Mount the SSD: Create a mount point: sudo mkdir /mnt/myssd, Mount the SSD: sudo mount /dev/sdb1 /mnt/myssd, Remember to replace /dev/sdb1 with your SSD's partition name.
FAQ: KSD-012010-001-15
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Secure Erase User Guide for Linux
This guide will walk you through securely erasing your Kingston SSD using Linux tools.
SATA Secure Erase Procedure
Warning
Please make sure to have a full backup of any important data before you proceed!
Prerequisites
- You must have root privileges.
- You must have your SSD connected to the system as a secondary (non-OS) drive.
- You must have lsscsi and hdparm installed. You may need to install them with your distribution’s package manager.
- Your drive must not be in a security freeze.
- Your drive must not be password protected.
Instructions
1. Find the device name (/dev/sdX) of the drive you wish to erase:
# lsscsi
2. Make sure drive security is not frozen:
# hdparm -I /dev/sdX | grep frozen
If the output shows "frozen" (instead of "not frozen") then you cannot continue to the next step. You must try to remove the security freeze by trying one of the following methods:
Method 1:
Put the system to sleep (suspend to RAM) and wake it up. On most distributions the command to suspend is:
# systemctl suspend
Now issue the hdparm command again. If it worked the output will show "not frozen" (instead of "frozen").
Method 2:
Hot plug the drive. This is done by physically unplugging the SATA power cable from the drive and plugging it back in while the system is powered on. You may need to enable hot plug in BIOS. Not all systems support hot plug.
Now issue the hdparm command again. If it worked the output will show "not frozen" (instead of "frozen").
3. Set a user password on the drive. The password can be anything. Here we are setting the password to "p":
# hdparm --security-set-pass p /dev/sdX
4. Issue the secure erase command to the drive using the same password: 1234567890 - 1234567890 -
# hdparm --security-erase p /dev/sdX
This command may take a few minutes to complete. The drive password is removed upon successful completion.
If the secure erase is interrupted or otherwise fails your drive may become security locked. In this case you can remove the security lock using the command below and then try the secure erase procedure again:
# hdparm --security-disable p /dev/sdX
SATA Secure Erase Example
NVMe Secure Erase Procedure
Warning
Please make sure to have a full backup of any important data before you proceed!
Prerequisites
- You must have root privileges.
- You must have your SSD connected to the system as a secondary (non-OS) drive.
- You must have nvme-cli installed. You may need to install it with your distribution’s package manager.
- Your drive must not be password protected.
Instructions
1. Find the device name (/dev/nvmeXn1) of the drive you wish to erase:
# nvme list
2. Issue the format command to the drive. Here we set the secure erase setting to 1 which indicates a user data erase:
# nvme format /dev/nvmeXn1 --ses=1
This command may take a few minutes to complete.
NVMe Secure Erase Example
FAQ: KSM-SE-LIX
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If your SSD requires new firmware, you will receive a notification when running Kingston’s SSD Manager software, located here: www.kingston.com/ssdmanager
FAQ: KSD-012010-001-11
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Trim and garbage collection are technologies that modern SSDs incorporate to improve both their performance and endurance. When your SSD is fresh out of the box, all of the NAND blocks are empty so the SSD can write new data to the empty blocks in a single operation. Over time, most of the empty blocks will become used blocks that contain user data. In order to write new data to used blocks, the SSD is forced to perform a read-modify-write cycle. The read-modify-write cycle hurts the SSD's overall performance because it must now do three operations instead of a single operation. The read-modify-write cycle also causes write amplification, which hurts the SSD's overall endurance.
Trim and garbage collection can work together to improve SSD performance and endurance by freeing up used blocks. Garbage collection is a function built into the SSD controller that consolidates data stored in used blocks in order to free up more empty blocks. This process happens in the background and is completely handled by the SSD itself. However, the SSD may not know which blocks contain user data and which blocks contain stale data that the user has already deleted. This is where the trim function comes in. Trim allows the operating system to inform the SSD that data has been deleted so that the SSD can free up those previously used blocks. For trim to work, both the operating system and the SSD must support it. Most modern operating systems and SSDs support trim, although most RAID configurations do not.
Kingston SSDs take advantage of both garbage collection and trim technologies in order to maintain the highest possible performance and endurance over their lifetime.
FAQ: KSD-011411-GEN-13
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M.2 is the physical form factor. SATA and PCIe refer to the storage interface, the primary difference is performance and the protocol (language) spoken by the M.2 SSD.
The M.2 spec was designed to accommodate both a SATA and PCIe interface for SSDs. M.2 SATA SSDs will use the same controller currently on a typical 2.5” SATA SSDs. M.2 PCIe SSDs will use a controller specifically designed to support the PCIe protocol. An M.2 SSD can only support one protocol, but some systems have M.2 sockets that can support either SATA or PCIe.
FAQ: KSD-004005-001-00
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ElectroStatic Discharge, ESD is simply the discharge of built-up static electricity. ESD should not be taken lightly as this is one of the few things that an individual can do to damage or destroy their computer or hardware components. It is like when you rub your feet on the carpet and you touch something metal. ESD can occur without the user feeling a shock and will occur when only working on the inside of the computer or handling hardware.
How to help prevent ESD
The best method of preventing ESD is to use an ESD wrist strap or an earthing mat or table. However, because most users do not have access to these items, we have included the below steps to help reduce the chance of ESD as much as possible.
- Standing – We recommend that you are standing at all times when working on the computer. Sitting on a chair can generate more electrostatic.
- Cables – Make sure that everything is removed from the back of the computer (power cable, mouse, keyboard, etc).
- Clothes – Do not wear any clothing that conducts a lot of Electrical Charge, such as a wool jumper.
- Accessories – To help reduce ESD and prevent other problems, it is also a good idea to remove all jewellery.
- Weather – Electrical storms can increase the ESD risk; unless absolutely necessary, try not to work on a computer during an electrical storm. In very dry areas, the air itself becomes a part of the electrostatic build-up mechanism every time there is an air flow (wind, air conditioning, blower) passing over an insulated surface. Do not let high humidity levels build false confidence, and beware of corrosion problems with interconnects and other electrical interfaces.
To learn more about ESD and how to protect your electronics, please refer to the below site.
ESD Association
https://www.esda.org
FAQ: KTC-Gen-ESD
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https://www.kingston.com/blog/pc-performance/nvme-vs-sata
FAQ: KSD-012010-001-19
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FAQ: KSM-001125-001-00
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FAQ: KSM-001125-002-01
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1. First, we recommend you backup your data.
2. Then use a secondary system to complete a REVERT using the PSID on the drive label. Note: Performing a REVERT will securely erase all data on the drive.
3. Disable IEEE 1667 support
4. The firmware update will become available upon refresh or restart of KSM
FAQ: KSM-001125-001-01
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Caution! The workarounds below will break RST RAID arrays and could lead to data loss. If your system has RST RAID arrays you should consider an alternate solution.
Workaround 1: Disable RST Control in BIO
This workaround requires BIOS options to enable or disable RST Control and is not available on all systems
Note: Please backup all important data before you proceed!
- Restart and enter the system BIOS
- Locate the RST Configuration settings in BIOS
- Change "RST Controlled" to "Not RST Controlled"
- Save and exit BIOS
- Open KSM and update the drive firmware
Once these steps are completed you may optionally switch back to "RST Controlled" in BIOS.
Workaround 2: Switch from RAID to AHCI in BIOS
This workaround is to change your system storage mode from RAID to AHCI and should work on all systems.
Note: Please backup all important data before you proceed!
- Open msconfig
- Select the Boot tab
- Check Safe boot (minimal)
- Click OK and Restart
- When the system restarts go into the system BIOS
- Change the storage mode from RAID to AHCI
- Save and exit BIOS
- Wait for Windows to boot into safe mode
- Open msconfig
- Select the Boot tab
- Uncheck Safe boot
- Click OK and Restart
- Wait for Windows to boot normally
- Open KSM and update the drive firmware
Once these steps are completed you may optionally switch the storage mode back to RAID in BIOS.
FAQ: KSD-001525-001-01
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FAQ: KSD-012010-001-04
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If your SSD requires new firmware, you will receive a notification when running Kingston’s SSD Manager software, located here: www.kingston.com/ssdmanager
FAQ: KSD-012010-001-11
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FAQ: KSD-012010-001-14
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FAQ: KSD-012010-001-12
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FAQ: KSD-012010-001-13
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FAQ: KSD-012010-001-04
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If the drive is present in the BIOS, you may need to initialise the disk within the operating system.
For Windows:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Windows OS.
Step 2: Press Windows + X and choose Disk Management.
Step 3: If the SSD is new and not initialised, a popup will appear saying "Initialize Disk".
Step 4: Choose between: MBR (Master Boot Record): Suitable for drives under 2TB and older systems. GPT (GUID Partition Table): Recommended for modern systems and drives larger than 2TB.
Step 5: Click OK to initialize the disk.
Step 6: Once initialised, you'll see the SSD as "Unallocated". Right-click on it and select New Simple Volume.
Step 7: Follow the on-screen prompts (keeping all defaults is Okay) to format and assign a drive letter to the SSD.
For macOS:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Mac OS.
Step 2: Open Disk Utility (you can find it using Spotlight with Cmd + Space and then typing "Disk Utility").
Step 3: In the left pane, select your SSD.
Step 4: Click on Erase.
Step 5: Provide a name for the drive, and under Format, choose: APFS for newer Macs and SSDs. Mac OS Extended (Journaled) for older systems or HDDs.
Step 6: Click Erase. Once the process completes, the SSD will be ready for use.
For Linux:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Linux OS.
Step 2: Open a terminal.
Step 3: Enter sudo fdisk -l to list all connected drives. Identify your SSD by its size and note the device name, e.g., /dev/sdb.
Step 4: Initialize the SSD using fdisk or parted. Here's a basic guide using fdisk: Enter sudo fdisk /dev/sdb (replace /dev/sdb with your SSD's device name). Press g to create a new GPT partition table. Press n to create a new partition. Follow the prompts to specify the size and type. Press w to write the changes.
Step 5: Format the new partition on the SSD (e.g., /dev/sdb1). You can format it with the filesystem of your choice: For ext4: sudo mkfs.ext4, For ext3: sudo mkfs.ext3 /dev/sdb1 /dev/sdb1, For FAT32: sudo mkfs.vfat /dev/sdb1
Step 6: Mount the SSD: Create a mount point: sudo mkdir /mnt/myssd, Mount the SSD: sudo mount /dev/sdb1 /mnt/myssd, Remember to replace /dev/sdb1 with your SSD's partition name.
FAQ: KSD-012010-001-15
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-Confirm that the system BIOS recognises your new SSD and if not, visit the motherboard / system manufacturer’s website to see if there is a new BIOS available.
-Verify your BIOS settings are configured to accept a new NVMe SSD.
-Confirm that your target operating system supports NVMe SSDs (e.g., Windows 8 or later)
Note: Kingston SSDs do not require additional drivers to operate.
FAQ: KSD-012010-001-05
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https://www.kingston.com/blog/pc-performance/two-types-m2-vs-ssd
FAQ: KSD-012010-001-16
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FAQ: KSD-012010-001-18
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FAQ: KSD-012010-001-04
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FAQ: KSD-012010-001-00
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FAQ: KSD-012010-001-01
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If this is not possible, or if you previously cloned your old data to your new drive, confirm that the new drive appears as a boot device in the system BIOS, then select it for booting.
FAQ: KSD-012010-001-03
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FAQ: KSD-012010-001-18
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https://www.kingston.com/blog/pc-performance/two-types-m2-vs-ssd
FAQ: KSD-012010-001-16
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-Confirm that the system BIOS recognises your new SSD and if not, visit the motherboard / system manufacturer’s website to see if there is a new BIOS available.
-Verify your BIOS settings are configured to accept a new NVMe SSD.
-Confirm that your target operating system supports NVMe SSDs (e.g., Windows 8 or later)
Note: Kingston SSDs do not require additional drivers to operate.
FAQ: KSD-012010-001-05
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https://support.microsoft.com/en-us/topic/update-to-add-native-driver-support-in-nvm-express-in-windows-7-and-windows-server-2008-r2-03cd423b-d42e-66c2-722b-019d16455a6b
FAQ: KSD-012010-001-06
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If your SSD requires new firmware, you will receive a notification when running Kingston’s SSD Manager software, located here: www.kingston.com/ssdmanager
FAQ: KSD-012010-001-11
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FAQ: KSD-012010-001-07
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If the drive is present in the BIOS, you may need to initialise the disk within the operating system.
For Windows:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Windows OS.
Step 2: Press Windows + X and choose Disk Management.
Step 3: If the SSD is new and not initialised, a popup will appear saying "Initialize Disk".
Step 4: Choose between: MBR (Master Boot Record): Suitable for drives under 2TB and older systems. GPT (GUID Partition Table): Recommended for modern systems and drives larger than 2TB.
Step 5: Click OK to initialize the disk.
Step 6: Once initialised, you'll see the SSD as "Unallocated". Right-click on it and select New Simple Volume.
Step 7: Follow the on-screen prompts (keeping all defaults is Okay) to format and assign a drive letter to the SSD.
For macOS:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Mac OS.
Step 2: Open Disk Utility (you can find it using Spotlight with Cmd + Space and then typing "Disk Utility").
Step 3: In the left pane, select your SSD.
Step 4: Click on Erase.
Step 5: Provide a name for the drive, and under Format, choose: APFS for newer Macs and SSDs. Mac OS Extended (Journaled) for older systems or HDDs.
Step 6: Click Erase. Once the process completes, the SSD will be ready for use.
For Linux:
Step 1: Confirm the drive is properly attached, and power on the system, then boot into Linux OS.
Step 2: Open a terminal.
Step 3: Enter sudo fdisk -l to list all connected drives. Identify your SSD by its size and note the device name, e.g., /dev/sdb.
Step 4: Initialize the SSD using fdisk or parted. Here's a basic guide using fdisk: Enter sudo fdisk /dev/sdb (replace /dev/sdb with your SSD's device name). Press g to create a new GPT partition table. Press n to create a new partition. Follow the prompts to specify the size and type. Press w to write the changes.
Step 5: Format the new partition on the SSD (e.g., /dev/sdb1). You can format it with the filesystem of your choice: For ext4: sudo mkfs.ext4, For ext3: sudo mkfs.ext3 /dev/sdb1 /dev/sdb1, For FAT32: sudo mkfs.vfat /dev/sdb1
Step 6: Mount the SSD: Create a mount point: sudo mkdir /mnt/myssd, Mount the SSD: sudo mount /dev/sdb1 /mnt/myssd, Remember to replace /dev/sdb1 with your SSD's partition name.
FAQ: KSD-012010-001-15
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FAQ: KSD-012010-001-14
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FAQ: KSD-012010-001-13
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FAQ: KSD-012010-001-12
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