 Hello everybody! In today's video, we'll be talking about 4K drives to find out what kind of hard disk drive is that, what advantage it has, and how to recover a lot of data from such storage devices. Hello friends! If you need to recover deleted data, view or restore removed browse in history. Hetman software products will help you. Follow the link in the description, download the necessary program for free, install it and analyze the disk. The utility will show you the data you can recover, so you'll be able to view it or get it back. In our channel and blog, you will find solutions to any problem, from installing an operating system or configuring it to fixing possible bugs and errors or optimizing mobile gadgets. Our specialists will answer any questions you ask in your comments under the videos or articles. With the fast development of hard drive industry, the companies producing them started the transition from the traditional sector size of 512 bytes to the larger and more effective 4K sector, holding 4,096 bytes. However, there are plenty of people around who are still using 512 byte drives and haven't seen a 4K drive yet. Talking of data recovery, not all recovery tools are capable of handling this specific drive type. In today's video, we'll try to find out what kind of hard disk drive is that and what advantages it has to offer for an average user. As we know, when data is written to a hard disk drive, it is saved to its sectors. Traditionally, a hard disk drive sector is 512 bytes in size, which is also known as 512n, where n stands for native. The sectors are not really adjacent, but they do have narrow gaps between them. Here is how a disk sector structure looks like. It begins with a gap, the space between the sectors. This is followed by sync mark, which signals the beginning of the sector and allows to synchronize the way a hard disk works. After that, there is an address mark containing data to identify the number and location of the sector. Also, it holds the information about the sector status. It is followed by data field. And the closing element of this sector is ECC, error correction code, which is obviously meant to detect incorrect errors on the fly, if possible. Looking at this picture, you may guess there is plenty of space between the sectors with the conventional 512 bytes size. The more capacity a hard disk drive has, the more sectors it contains, and therefore it has more gaps. Evidently, quite a lot of space seems to be wasted. The main downside about 512 bytes AATDs is that they have to check every 512 bytes for availability of the error correction code. This way, for every 512 bytes, one bit of ECC is created to inform the operating system that the data was written properly. Also, it means that such a disk needs more space for data because every 512 bytes would be followed by a special bit between sectors containing the error correction code bit. Again, it results in heavy fragmentation when very large files are written to the hard disk because they will be scattered in pieces of 512 bytes each all over different cracks of the disk. Actually, 4K drives were developed to tackle this issue. So a 4K hard disk drive is a storage device with sectors 4096 bytes, that is, 4 kilobytes in size. Hard disks with 4 kilobytes sectors have the same physical structure, but instead of wielding data in 512 bytes portions, operating systems will have to read and write by 4 kilobytes in one go. Not only will this save time but also reduce file fragmentation. That is more, hard disk sectors will need error correction code bits only once for every 4 kilobytes. Disk disk structure reduces the gaps between sectors and makes using the disk space way more efficient. You can see the illustration for that on the screen. Compared with conventional hard disks, 4K drives waste less space on having those gaps between the sectors. In the new standard, known as advanced format, the sector size is 4 kilobytes, that is, eight conventional 512 bytes sectors are united into a single sector of 4 kilobytes. Although the new developments increase the disk space usage rate significantly, it's next to impossible to switch to the 4K standard immediately because of Windows compatibility issues. To help solve this problem, emulated disks were introduced, marked as 512e. This is a kind of hard disk having physical sectors of 4,096 bytes, which are divided logically into pieces of 512 bytes each. To make the transition from 512n to 4K allocation easier, most disks use an emulation technology allowing 4K drives to emulate 512n type by providing an emulated sector size of 512 bytes. This approach allows the new disks to be used with operating systems that do not support 4K sectors yet. The new disk format has the same space allocated for gaps, sync mark, and address mark as in conventional HDDs, but the space for error correction code has been increased to 100 bytes. The table you see on the screen compares 512n, 512e, and 4K end disks. The main advantage of 4K sector technology is using the storage device surface more efficiently by combining data. The information that would be written into 8 sectors 512 bytes each is now fitted into one 4 kilobyte sector. The basic elements of a conventional 512 byte sector, the identification and synchronization marks at the beginning, and the ECC area at the end of the sector are still there. Between the sector header and ECC areas, 8 512 byte sectors are combined into one, which eliminates the need for redundant header areas between each individual chunk of 512 byte data. This way, 4K hard disk structure improves greatly the disk space usage rate. In addition, larger sectors strengthen the integration of error correction algorithms, which can help to maintain data integrity at higher storage densities. In 4 kilobyte sectors, the space allocated for error correction code has been expanded from 50 to 100 bytes to provide the longer-waited increase in error correction effectiveness and resilience to surface defects. All in all, the combined profit from a more effective new format and improved error correction makes the transition to 4 kilobyte sectors quite feasible. Now the main task for hard disk manufacturers is to make sure that the transition allows users to gain more performance with as little side effects as possible. Talking of manufacturers, if you are looking for 4K drives to buy, check Seagate and AGST, which by the way stands for Hitachi Global Storage Technologies. In Seagate lineup is the Exos Enterprise series and with Hitachi is UltraStar models. If you are using Windows 10 or Windows 8 and you bought a 4K hard disk from either brand, there is no problem to use it at all. You can even have the 4K disk to be your system drive as both Windows 10 and Windows 8 or 8.1 support booting from 4K hard disks. For Windows 7, though, the operating system will create logical blocks of 512 bytes to let you use 4K drives in your system. Also, it should be noted that some utilities that you may wish to use to create system images are not ready to work with 4K drives yet. That is why it is worth checking if your favorite system image tool is up to the task. And if it's not, but you still want a 4K drive in your PC, find a utility that supports the new disk type. Talking of data recovery, some specialized utilities don't support this disk type yet. However, headman partition recovery is always among the best picks, and it can handle loss data on 4K drives easily. It will scan the hard disk or external storage device, find the loss data and help you recover it in a simple and efficient way. Here is what you do to get your data back. Step 1. Connect the hard disk to a Windows computer. Download, install and run headman partition recovery. Step 2. In the Drive Manager, select the disk, right-click on it and choose Open. Try a fast scan first. It will take less time. If the fast scan can't find the deleted data, then go for Full Analysis. Step 3. The file recovery wizard will scan the selected volume immediately and display the scan results in the right sign of the program's window. Step 4. When the scan is over, all you need is to select the deleted file you want to restore and then click the Recovery button. Specifying where to save the data and click the same button again to start recovery. Also, our program can create a disk image and conduct all recovery operations with this image, which increases your chances to restore the deleted information successfully, because multiple rounds of scanning may result in data overriding, which is not good. You can use this program for data recovery in any of the following cases. To recover files lost after removing or formatting partitions, system errors, virus attacks and other scenarios that involve loss of data. To recover data from internal and external hard disks, USB storage devices, SD memory cards, cameras and other devices used to store information. To recover lost photos, videos, music documents and other file types. Summing up. You know a few essential things about 4K drives and a good tool to recover data from them. And that is all for now. Hopefully, this video was useful. Remember to click the Like button and subscribe to our channel. Push the bell button to receive notifications and never miss new videos. Leave comments to ask questions. Thank you for watching. Good luck.