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Oo defragmentation.O&O Defrag Free Edition (64-bit)
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Algorithm. All fragmented files will be defragmented, and then placed into the free slots in which they fit. This maximizes contiguous free space. This method is very quick and efficient and it does reorganize your volume, but not as thoroughly as the COMPLETE methods. O&O Defrag 11 Workstation Edition Version Download. O&O Defrag 11 Server Edition Version Download. O&O Defrag 10 Professional Edition Version Download. O&O Defrag 10 Server Edition Version Download. O&O Defrag . Dec 09, · O&O Defrag offers in total eight methods in the current version STEALTH; SPACE; COMPLETE/Name; COMPLETE/Modified; COMPLETE/Access; OPTIMIZE; OPTIMIZE/Quick; OPTIMIZE/Complete; The first five methods are the standard ones in O&O Defrag. The OPTIMIZE methods are visible only when the Zone Filing in O&O Defrag is enabled. How defragmentation works .
Oo defragmentation.O&O Defrag 24 | Prices and Licenses
O&O Defrag 11 Workstation Edition Version Download. O&O Defrag 11 Server Edition Version Download. O&O Defrag 10 Professional Edition Version Download. O&O Defrag 10 Server Edition Version Download. O&O Defrag . Professional Edition – 5 PCs. USD. perpetual license. Install on up to 5 PCs. Perfect for families or small companies. Save more than 40%. All features of the Professional Edition included. Buy now. day money back guarantee. O&O ActivityMonitor. Schedule defragmentation at regular intervals. Create job – General. Plan a schedule. Select drives. Exclude and include files. O&O ActivityMonitor for Jobs. Further job settings. Edit/Duplicate/Delete jobs.
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Which defragmentation method is the best?
Standard defragmentation methods O&O Software
All methods can be used on all drives, including volume sets, stripe sets with and without parity, etc. This is achieved by their working together with the defragmentation routines integrated into Windows, and guarantees that data will not be lost if your computer or network crashes, or if there is a power cut.
This method defragments all fragmented files and tries to consolidate them in order to optimize available free disk space. It also allows you to consolidate your data so that the amount of contiguous free space is as large as possible and further fragmentation is prevented.
All fragmented files will be defragmented, and then placed into the free slots in which they fit. This maximizes contiguous free space. SPACE can also be used for regular defragmentation runs. In the remainder of this blog entry, I explain why this behavior slows down not only a classic hard drive but also SSDs and ultimately leads to an unnecessarily early failure of the storage medium.
With SOLID, the fragments are first put back together and then a second pass is started which only closes the gaps between. Of course, the easiest and fastest way is always to sort the fragments together and then to reduce the number of fragments.
The accesses are then faster and the memory cells used are reduced. But if there are many gaps between the data, they will be filled up with new data in the future which will then be compulsorily fragmented too, as there is not enough space for the entire file.
Our goal, however, is to remove the current fragmentation AND to reduce it in the future, so that as few memory cells as possible are loaded and the following defragment runs are even less intrusive than the first one. So that the system uses the space gained and the free cells after defragmentation optimally, the TRIM command of the SSD is also triggered.
The result is an immediate improvement in performance and future conservation of resources. Files are sorted according to when they were last accessed. The files that have been accessed the least will be placed at the beginning of the partition and those accessed most frequently are put near the end.
Seldom-used files are defragmented and will not need to be moved in future. Frequently-used files are placed at the end of the drive. This strategy means that future defragmentation runs will require the least amount of time, as fewer files need to be checked and defragmented. It is important to bear in mind that this method requires quite a lot of main memory due to file reorganization. Files are sorted according to the date on which they were last changed.
The files which have not been changed recently are placed at the beginning of the partition and those recently changed are placed at the end. This option is a good one for file or database servers containing files that have never been changed e.
This strategy means that future defragmentation will require the least amount of time, as only a few files need to be checked and defragmented. Files are sorted alphabetically from the beginning to the end of the partition and this leads to quick access to files in a directory. This method is particularly recommended for computers on which the files rarely change. This reduces the reorganization time that is needed for every defragmentation. Defragmentation methods.
Note: Please bear in mind that the older methods can only be selected if zone filing is disabled.