If prompted, select automatically close the applications and click Next.If you receive an error message with the options to Abort, Retry, or Cancel, manually close Internet Explorer and click RetryOnce the button is installed you will need to make sure that it's visible on your browser. I would suggest you to post the query in Google support forums for more information.To install the Pinterest browser button in Internet Explorer:.Head to our and click Get our browser button.Click Run on the yellow banner at the bottom of your browser.If prompted to allow the install, click Yes.You may need to close certain applications, like Internet Explorer. Download pinterest button internet explorer. Hi Ana,Thank you for posting your query in Microsoft Community.Unfortunately, we don't support Google Chrome. Right click on the top of the Internet Explorer window and check the Command Bar option (if it's not already checked).Hope it helps.
It can mirror data across multiple drives for redundancy, or combine multiple physical drives into a single pool of storage. Storage Spaces is similar to RAID or LVM on Linux. This feature was added in Windows 8, and was improved in Windows 10. It’s available on all editions of. If you want to know how to set up RAID in Windows 10, this is for you. Windows 10 has made it simple to set up RAID by building on the good work of Windows 8 and Storage Spaces, a software. While it is very plain to setup RAID 0 and 1, there is complexity involved in RAID 5 setup. RAID 5, as we know is basically set up to ensure the redundancy of data in your system. Here I will guide you how to create software RAID 5 on Windows 8.1 and 10. So it is working. Two SSD in software RAID 1, and they are the boot disk. Windows 10 seems very happy with this solution. When the PC boots, Win 10 comes back and says 'Which Plex Do You Want To Boot From.' I assume that if one of the drives fail, this will let me boot from the surviving disk.
Configuring two or more hard drives in a RAID (Redundant Array of Inexpensive Disks) setup can increase performance and/or provide automatic protection against data loss from drive failure. RAID used to be expensive, hard to implement, and limited to businesses with dedicated IT departments. Now, motherboards in most desktop PCs support RAID, and Windows 7 provides software RAID that requires no special hardware at all. The technology is easily within the reach of the wallet and skills of any reasonably tech-savvy PC user.
What type of RAID do I want?
RAID comes in a number of flavors—or levels—that offer data protection, enhanced performance, or both. In addition to the seven core levels (RAID 0 through RAID 6), you’ll encounter a number of variants and combinations. Some controllers (and dedicated external storage and NAS boxes) can layer and even abstract RAID levels, allowing you to mix and match different capacity drives and add capacity without any additional configuration.
Here are a few of the RAID levels you’ll find on affordable, consumer-level RAID adapters, motherboard chipsets, and Windows software RAID:
JBOD (extend, spill over): JBOD, or Just a Bunch Of Disks simply allows you to extend a volume (drive letter, e.g. C:) onto other disks. Data is written to the first disk until it’s full, then to the second disk, then the third, etc. It offers no boost in performance or redundancy and is a holdover from the days when smaller disks had to be chained to handle large amounts of data. It’s largely irrelevant given today’s more capacious hard drives.
RAID 0 (Striping): This setup increases hard-drive performance by splitting, or striping, data across two drives. By leveraging two data busses, data can be read and written more quickly. Unfortunately, RAID 0 provides no data protection—in fact, it actually increases the chances of data loss since the failure of either drive in the array results in the loss of the data stored on both drives. RAID 0 setups are standard on high-end gaming PCs and graphic design workstations, and provide a measurable, albeit modest performance boost for hard-disk-intensive programs.
RAID 1 (Mirroring): A RAID 1 setup protects data from drive failure by simultaneously writing the same data to two hard drives. Since each drive is an exact duplicate of the other, you can continue working if one fails. RAID 1 offers no gain in performance and effectively reduces available capacity by half—two 2TB drives provide only 2TB of storage.
RAID 5 (Distributed Parity): Though you get both faster disk performance and data protection from this setup, it requires a minimum of three hard drives. Instead of using an entire hard drive as a backup, RAID 5 spreads redundancy information—called parity bits—across all of the array’s drives. Where RAID 1 requires 50% of available storage for redundancy, RAID 5 requires only 33%.
When one of the drives in a RAID 5 array fails, the data content of that failed drive is reconstructed using the parity bits on the surviving drives and written to a new, replacement drive. The array is still usable in the meantime.
RAID 1+0, 0+1, 10: Some adapters combine (referred to as nesting) RAID 0 and RAID 1 to provide both data redundancy and increased disk performance. This works by either striping data across a pair of drives then mirroring (0+1) them with another pair, or striping data across two mirrored pairs (1+0, aka 10). RAID 0+1, 1+0, and 10 require a minimum of four hard drives.
What do I need to set up RAID?
A Fresh Backup (existing data only): If you’re installing and configuring hardware RAID on a fresh system with no OS (your best option), or are adding disks for a separate array, skip this. Otherwise, back up your important data. Best practice is to have three copies of your data: the original, a backup, and a backup of the backup, preferably offsite.
If you have existing data that you want on the array, you’ll need to back it up, then restore it from a backup you make before creating your array—a process that writes new data to your hard drives regardless of what’s there. This is not necessary with Windows software RAID 0, however, it’s far faster than letting Windows re-sync (copy the data to) the mirror in the background.
Transferring an existing operating system is tricky, and with older versions of Windows, sometimes impossible. See “Transferring Existing Windows Installations to RAID” on the next page for instructions.
Windows Software RAID: Starting with Windows XP, Microsoft integrated RAID functionality into its operating systems. What type depends on the flavor of Windows:
- Windows XP allows spanned volumes (one volume over two or more disks), aka JBOD.
- Windows Vista Ultimate allows JBOD and RAID 1 striping.
- Windows 7 Home allows JBOD and RAID 1 while Professional and Ultimate add RAID 0 mirroring. Windows 2000 Professional also has JBOD, 0, and 1.
- Windows Server operating systems from 2000 on have JBOD, 0, 1, plus support for RAID 5 distributed parity.
Windows RAID offers several advantages. You can create arrays from within Window Drive manager so there’s no BIOS to configure. It’s also more flexible with mirrors, allowing you to create them from existing volumes containing data, as well as delete either half of a mirror with the other remaining intact. You can mirror individual partitions, including partitions from different drives onto a single drive.
The disadvantages are that other operating systems, such as the Linux used on repair discs, can’t see Windows software RAID partitions which use Microsoft’s dynamic disk technology. Also, maintenance performed by Windows when it feels it’s needed, which can occur any time there’s a configuration change, hurts performance while in progress. Restoring mirrors isn’t as dead simple as it is with a hardware solution either.
Though you’ll see a lot of talk about hardware RAID being faster, this discussion predates modern CPUs which can easily handle the overhead. Windows RAID is actually quite fast.
RAID controller: If you don’t use software RAID, there’s hardware. You probably already have a RAID controller in your PC; many older midrange and high-end motherboards come with secondary RAID controller, and newer motherboard chipsets offer integrated RAID obviating the need for an additional controller. Check your PC or motherboard documentation to find out if your motherboard supports RAID (and if so, which levels), and for specific installation instructions.
If your PC doesn’t have integrated RAID, you may use an adapter card. Basic PCI and PCIe adapters supporting RAID levels 0, 1, 10, and sometimes 5 can be found online for $100 or less. Adaptec, Promise and other vendors offer a wide selection of pricier, but more capable RAID adapters with onboard cache and advanced features. If possible, buy a card that supports greater-than-2.2TB disks and 6Gbps SATA III.
Two or more hard drives: If you decide on Windows software RAID, you may use any drives you choose. They need not be the same size if you’re mirroring individual volumes, though it’s generally a good idea.
Back in the days of parallel ATA, it was a no-no to mix drives from different vendors on a RAID controller. Sometimes it would work—more often it wouldn’t. With the advent of SATA, mixing vendors is no longer as problematic.
Also, though there are controllers that allow mixing and matching capacities without losing storage space (using advanced parity techniques), these are still relatively rare. Using drives of different sizes usually results in total storage capacity that’s only a multiple of the smallest drive. For example, combining 500GB and 320GB drives in RAID 1 would be 320GB * 2, or 640GB instead of 820GB.
In practice, you’ll save yourself a lot of time and sidestep possible issues by building your array with identical hard drives—meaning drives of the same make, model, and size. You need at least two drives for RAID 0 and 1, three drives for RAID 5, and four for RAID 0+1, 1+0, and 10.
Floppy drive (Windows XP-only): If you plan to install Windows XP on your new array, you will need a floppy disk with your RAID adapter’s Windows drivers, and a floppy drive to read it—Windows’ installation won’t install the drivers from an optical drive. Thankfully, this incredibly annoying limitation of Windows XP doesn’t apply in Windows Vista and Windows 7 which can read drivers from hard drives, flash drives, or optical media.
Tools: You’ll need a small, non-magnetic Phillips screwdriver to remove and replace the fastener screw that secures the adapter card to the PC chassis, as well as to install any new hard drives. You might also want a simple grounding strap that attaches to your wrist; look for one at your local computer store for less than $15. Alternatively, never touch exposed contacts or electronics.
Ask any enthusiast with a competent desktop PC tower and they’ll tell you that one of the best advantages of a traditional rig is the easy upgradeability.
Indeed, there truly is no pleasure greater than that which results from popping a spare SATA cable onto a brand-new SSD or hard drive. Unfortunately, the thrill often stops there.
As you begin to install new apps, divvying up folders between multiple drives, seemingly basic tasks become obstructive challenges. Once you run out of storage for your overwhelming archive or Steam games, the question arises: should you move something from your current Steam folder to the Recycle Bin or start a brand-new one on a secondary drive?
For instances like this, there’s a clear-cut solution that we don’t talk about enough in the computing world. Dubbed RAID 0, a name that refers to the redundant array of independent disks (RAID) and the level zero at which it’s performed, this technique is designed to “stripe” data between multiple drives.
In turn, a RAID 0 configuration will produce a single virtual drive listed under the “This PC” section of File Explorer, effectively cutting down on all the clutter. In this tutorial, we’ll explain how to achieve this yourself in , covering everything from the prerequisites to the final, consolidated product.
First steps to RAID 0 in Windows 10
The first step in prepping your PC for some much-needed storage blending is to make sure that each of the drives you plan on unifying are the same make and model, and use the same firmware.
Of course, it’s certainly possible to fuse different drives in a RAID 0 arrangement, but it’s not ideal as the configuration will automatically assume the speed of the lesser drive.
After you’ve checked for brand solidarity, it’s absolutely essential that you relieve the drives completely of any file systems or volumes. That means, yes, you’ll need to backup everything on the drives in question prior to forging a RAID 0 array.
Once you’ve backed everything up, head to the search bar at the bottom left-hand side of your screen and key in 'Disk Management'. This will bring up the the option to 'Create and format hard disk partitions'.
Click that before locating the drives you wish to combine in the lower half of the newly opened window. Next you’ll want to clear any evidence to your PC that the drives still exist by right-clicking each volume followed by the 'Delete volume' command.
Pro tip: if you have a recovery volume still lingering on a previous boot drive (where an operating system was once stored), the best way to get rid of this is with outside software like . Without familiarity with the command line interface, removing these without the use of third-party apps can be unnecessarily painful.
Using Storage Spaces
Now that your drives are unallocated and your conscience is clear, it’s time to get to work. Windows 10 doesn’t call RAID 0 by name, but you’ll find the option to create a RAID 0 array under a search term called 'Storage Spaces'. Type that in the Search bar next to the Start button and simply click on the resulting match.
Windows 10 Software Raid Setup Windows 7
At this point, a new window will open, headlined by the 'Manage Storage Spaces' label. Subsequently, navigate to the Create a new pool and storage space hyperlink and click it.
Microsoft will then ask for administrative privileges, which you’ll want to approve in order to carry out the RAID 0 array. On the next screen, verify that the unformatted drives listed are the ones you’re looking to merge and select 'Create pool'.
The next step may take a few minutes, but at the same time you don’t really have to do anything at all. So sit tight and grab a coffee or something as Windows prepares your drives to initiate their impending RAID 0 composition. On the next screen, you’ll be asked to choose a name, “resiliency type” and size for your array.
Resiliency type is just a fancy way of attributing the level that we talked about early on. In the accompanying drop-down menu, you’ll want to opt for 'Simple (no resiliency)', which is Microsoft jargon for RAID 0. The drive letter and name are only important for your own sake, personal identification and so forth. You can assign whatever you want to these sections, but it’s best to keep the file system as NTFS.
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Final steps
If it’s still open, you may want to close out of the Disk management window as well as any other application that may be utilizing your drives. If you used MiniTool Partition Wizard or anything else to eradicate the volumes on your solid state or hard drive, close out of them before creating a RAID 0 array. Finally, click Create storage space to commence the procedure.
And that’s all there is to it. You’ve now established your first RAID 0 array on a Windows 10 PC. Assuming it consists of two identical drives, you can now store twice the number of files and applications on the “same” device – at least that’s the illusion presented to your computer.
If you backed up both of your drives preceding the operation, now is the time to restore that data back to your freshly conceived storage space.