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Data Recovery and Encryption

Business continuity and disaster planning are critical for businesses regardless of their size. Most archive and backup software have key features to restore user files, database stores and point in time snap-shots of users’ files. Software is becoming more automated so users don’t have to manually backup their files. Some computer manufacturers have built-in backup systems that include dedicated hard disk drives for archive storage. Most external USB hard disk drives have some sort of third party software that provides data archiving during a trial time period. Such solutions, while solving the data backup need, create questions regarding how effective the systems are with respect to user data. What are your options when a user’s computer has a data disaster and the hard disk drive is fully encrypted?

Most IT security policies require a multi-pronged approach to data security. For example, when setting up a new computer for a user, the IT department will require a BIOS (Basic Input/output System) password for the system before the computer will start. BIOS password security varies in functionality. Some are computer system specific, meaning that the computer will not start without the proper password. Other BIOS passwords are hard disk drive specific, meaning that the hard drive will not be accessible without the proper password. Some computer BIOS employ one password for access control to the system and the hard disk drive. To add a second level of protection, new IT security policies require full hard disk drive encryption. The most common of full hard disk encryption software operates as a memory resident program. When the computer starts up, the encryption software is loaded before the operating system starts and a pass-phrase or password prompt is required. After a successful login from the user, the software decrypts the hard disk drive sectors in memory, as they are needed. The process is reversed when writing to the hard disk drive. This leaves the hard disk drive in a constant state of encryption. The operating system and program applications function normally, without having to be aware of any encryption software.

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Data Security & Data Loss

Encryption continues to be the topic on every CIO and IT person’s lips nowadays. No one wants to end up in the news as the next victim of a privacy breach or the next company that didn’t protect its customers’ information. If you conduct a news search using the words “personal data breach,” you’ll be alarmed at the number of instances where personal information such as social security and credit-card numbers have been exposed to possible theft. In a recent breach, a state government site allowed access to hundreds of thousands of records, including names, addresses, social security numbers and documents with signatures.

Whether it’s government agencies, research facilities, banking institutions, credit card processing companies, hospitals–or your company’s computers – the risk of compromising private information is very high.  At the recent “CEO-CIO Symposium,” speaker Erik Phelps from the law firm Michael Best & Friedrich described the relationship business has with technology. In his presentation, he stated that since “business relies so heavily on technology today, business risk becomes technology dependent.” The possibility of litigation is part of business. It has always been a risk of doing business, but because technology and today’s business are so intertwined, business risk has a higher threat level. This has prompted many to encrypt workstations and mobile computers in order to protect critical business data.

If you have rolled out encryption, how do you maintain your IT service quality when the hard disk drive fails? How do you plan and prepare for a data loss when the user’s computer is encrypted?  These are all issues that should be considered when putting together a data disaster plan. In addition, data recovery, one of the more common missing elements of a disaster recovery plan, should also be factored in because it can serve as the “Hail Mary” attempt when all other options have been exhausted

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Top 5 Reasons Of Digital Photo Disasters

digital-photo1. OverwritingA common mistake is the accidental overwriting of images held on camera memory cards with new photos. It’s easily done. So check, check and check again that you’ve successfully transferred your images onto your PC, laptop, CD or DVD before taking new pictures.

2. ReformattingUsers often forget that reformatting a memory card will remove all the files stored on it including protected pictures and print orders.

3. Cracked and damaged mediaPacking memory cards into overstuffed suitcases can result in them becoming bent or damaged on the journey home, making them unreadable. Wrapping cards in clothes and placing them in the middle of your case offers some degree of protection in transit and helps ensure the safety of your pictures during your return trip.

4. Holiday injuries For those of you that opt for a tropical vacation instead of a snowy week with the in-laws, digital cameras often get dropped in the sand or splashed with water around the pool, damaging smart media to the extent that photos can’t be viewed..

5. Burnt media Leaving memory cards in an elevated temperature environment – close to a heat source such as a radiator or oven – will increase the chances of failure.  Heat is unlikely to cause damage to the digital photos on the memory card but may stop the card from being recognized in a card reader.

Recent research – found that almost 90%of consumers now own a digital camera but around one-third don’t back up their photographs. The danger is that they could lose once-in-a-lifetime memories if anything happens to the memory cards that store their images.

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Data Loss–From PCs to Suit Pockets

Data is everywhere. No longer confined to desktop computers, data is always with us – at the gym in the form of an iPod®, in the car via your cell phone, and of course surrounding you at work – notebooks, desktops, servers, etc. With the increased portability of data comes the increased risk for data to be lost, misplaced, damaged or destroyed.

How to protect mobile devices from data loss, here are some simple preventative steps that will help create good habits for the use of USB sticks and hopefully prevent any data disasters.

Minimize misplacement – Try to prevent ‘wandering’ USB sticks. The device is easily lost when you don’t exactly know where it is kept. A dedicated USB spot prevents loss of data from a portable storage device.
Carry with care – Make sure your USB is stored safely when traveling to minimize the risk of losing data.
No backups, please – A USB stick is too vulnerable to store precious information. These sticks should therefore never be used as a backup device.

Put a lid on it – if not in use ensure that the connector of your USB is protected. By using the protective cap, provided with any USB stick, a possible data disaster can be averted.

Unplug before you leave – Before you embark on a journey that requires a laptop and a USB stick, make sure the devices are separated. This way, both the laptop and the USB stick will run less risk of damage.

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Students how to protect against laptop data disasters?

Many students will be packing laptop computers in addition to the usual school supplies. It’s clear that laptop computers are quickly becoming a vital part of the scholastic experience, however with more laptops in use comes more danger for data loss.

Laptop computers are an excellent way for today’s students to manage their workload, but protecting the data on those computers isn’t as simple as securing a notebook in a locker. Students need to be careful with their laptops to avoid both physical damage and other problems that could affect the integrity of their data. If problems do occur, it’s also important they know that data recovery is always an option.

To help students protect against laptop data disasters, there are some tips:

Laptops are not as rugged as many like to think. When laptops are being docked, moved or transported, the greatest of care should be taken to prevent unnecessary shock or impact. Set up your computer in a dry, cool, controlled environment that is clean and dust-free. Placing your computer in a low-traffic area will protect your system and storage media from harmful jarring or bumping.

Use a sturdy, well padded laptop bag – Using just a back-pack or brief-case may not provide the protection a laptop needs during transportation. Make sure your laptop has plenty of built-in padding for protection.

Backup your data regularly – Creating regular backups is one of the most effective ways to protect you from losing data. Back up data at least once a week on a reliable medium (CD, DVD, USB flash drives or Internet backup), always verifying that the correct data is backed up.

Run a virus scan and update it regularly – Computer viruses are one of the worst enemies to your computer. Good anti-virus software tests your system for sequences of code unique to each known computer virus and eliminates the infecting invader. Also beware of spyware, a common problem brought about by Web surfing and downloads that can cause complications with your computer’s efficiency. There are several programs available on the internet that can assist with the removal of most spyware programs.

Be aware of strange noises – If you hear a strange noise or grinding sound, turn off your computer immediately and call an expert. Further operation may damage your hard drive beyond repair.

Do not use file recovery software if you suspect an electrical or mechanical failure – Using file recovery software on a faulty hard drive may destroy what was otherwise recoverable data or worsen the physical failure.

Use Auto-Save features – Most software applications have Auto-Save features that will save the project or document you have open at a preset intervals. For laptop users, a good time interval to use is every 5 minutes.

Be battery-level aware – If you are going to be using the laptop for long hours, be sure to try and find an electrical outlet to plug into. Some laptops will shut down quickly when a specific low battery level is reached and important documents may be lost.

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Ontrack Data Recovery Solution

Ontrack Data Recovery Solution’ Contents:

1. Data Loss Dangers
2. Critical Data Risks
3. Challenges and Responsibilities
4. Protection, Detection, Correction
5. Finding the Optimum Solution
6. The Data Recovery Alternative
7. When is Data Recovery Necessary?
8. Data Recovery Case Studies
9. Final Analysis
10. Additional Information

URL: Ontrack Data Recovery Solution

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SQL & SQL Database File Recovery

Microsoft® SQL server is a business enterprise software package that manages data through a client/server relational database. There are four fundamental aspects to a SQL (Structured Query Language) server.

1. Database File
2. Relational Database Concept
3. Client/Server System
4. Database Management System (DBMS)

The Database File refers to the physical file that contains the data the SQL server manages. This file is more than just a container for data. SQL files, or .MDF files, are highly organized and complex. The file is designed like this so that SQL server can handle multiple data transactions at once.

The Relational Database Concept is the method employed to organize the data; this is separate from the internal organization of the file itself. Relational Database Concept systems use mathematical set theory to organize the data in the most effective way. Data organization is critical to maintaining the speed of the database server.

The Client/Server System refers to the part of SQL server that communicates with the operating system. This part of the system needs to manage the server’s resources, connections and managing multiple databases at the same time.

The Database Management System interacts and works will all the above items. Not only does this manage the internal structure of the .MDF file, DBMS also controls the Relational Database side of things and organizes the data. The DBMS of SQL server is the heart of the system.

Data loss situations-What can happen?
Data loss situations can occur at a number of different levels. The first level of data loss starts with the storage device. This can be a single hard disk or a SAN or RAID storage array. The second level of data loss can start at a file system level. The file system is a unique method of storing and organizing system and user files. The operating system controls the file system. If the information about where data files are on the volume are damaged or lost, then adjustments or repairs need to be completed at a file system level. Once the file system is repaired then the file’s data stream can be accessed correctly. Most operating systems have a utility that will automatically fix the file system. These utilities work to make the volume accessible. However, this can permanently damage the data stream of the file. The third level of data loss can occur within the file itself. As previously mentioned, .MDF files are quite complex. The internal structure can be corrupted to the point where the DBMS will not make the database available.

The solution to data disasters
The process of a SQL recovery begins with finding the database file requested. If the database file is inaccessible due to problems with the storage device, then should work to get that data extracted. If the file is missing, deleted or truncated due to problems with the file system, then should work to adjust or repair the file system to correctly point to the data stream of the file. And finally if the file system has no pointers at all to the file, then should search the entire drive looking for SQL data.

The next stage is to work on the database file itself. This is where the SQL toolset comes. These tools analyze the complex internal structures of the .MDF file and provide reports as to what tables are recoverable. The reports also list the number of data rows that will come back.

Once the evaluation is complete and authorization is given to recover the data, the SQL toolset will copy the data into another SQL server database. After this phase is complete, we can backup or archive the recovered data.

Remote Data Recovery is the fastest solution for SQL recoveries. The Remote Data Recovery process will copy the recovered data into a SQL server that is setup on you or your client’s site. They only need SQL server running. For best results I recommend that the storage device we are working on be connected to a SQL server, because all of the data transactions will be occurring on a single machine.

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RAID Introduction & Recovery

Overview of RAID
The heart of the RAID storage system is controller card. This card is usually a SCSI hard disk controller card (however, IDE RAID controller cards are becoming quite common). The task of the controller card is to:
1. Manage Individual Hard Disk Drives
2. Provide a Logical Array Configuration
3. Perform Redundant or Fault Tolerant Operations

RAID History
RAID is an acronym for Redundant Array of Inexpensive Disks. The concept was conceived at the University of California, Berkeley and IBM holds the intellectual patent on RAID level 5. The University of California, Berkeley researchers, David A. Patterson, Garth Gibson, and Randy H. Katz worked to produce working prototypes of five levels of RAID storage systems. The result of this research has formed the basis of today’s complex RAID storage systems.

Individual Drives Management
The RAID controller will translate and communicate directly with the hard disk drives. Some controller cards have additional utilities to work with the disk drives specifically, such as a surface scan function and a drive format utility. In the case of SCSI based cards, these controllers will provide additional options to manage the drives.

Logical Array Configuration
The configuration of the logical array stripes the data across all of the physical drives. This provides balanced data throughput to all of the drives—instead of making one drive do all the work of reading and writing data, now all of them are working together and the data is streaming across all of the physical drives.

The Operations to Redundant or Fault Tolerant
The redundancy in a common RAID 5 configuration is the result of using a Boolean mathematical function called Exclusive OR (XOR). This is commonly referred to as Parity. The XOR function is a logical binary process—its best to think of Parity as combination of the other drive’s data blocks. Every byte that gets written to one data block is calculated against the other data blocks and resultant Parity is written to the Parity block for that particular stripe. What makes this function so unique is that the math will always work regardless of what data block is missing. However, the limitation to RAID 5 is that only one data block can be missing—the math will not work if there are two blocks missing. In the working environment this means that only one drive can fail. The RAID 5 configuration will not provide proper redundancy if two or more drives fail.

As previously mentioned, the controller card is striping the data as well as performing the XOR function on that data as well—the amount of logical computations the controller is doing every second is staggering. Today’s RAID controllers are intricate pieces of hardware, including specially designed processors and SDRAM memory banks to provide performance and redundancy.

RAID Introduction
Storage systems preserve data that has been processed and data that is queued up to be processed and have become an integral part of the computer system. Storage systems have advanced just as other computer components over the years. The RAID storage system was introduced over 15 years ago and has provided an excellent mass storage solution for enterprise systems. Let’s get a little more history about the RAID concept and they work.

Common RAID Configurations —the pictures below graphically show how RAID Arrays are put together (this is handled by the RAID configuration.) Follow the letters to see how the data stripes jump between drives.

RAID Recovery
RAID storage systems are designed to deal with failure. While hardware failure is a strong reason why some RAIDs may fail, there can also be other failures that make the data inaccessible. If your client is having problems with their RAID Array, then Ontrack Data Recovery is your solution.

A RAID recovery evaluation is really the combination of two very important steps. First is the array rebuilding and this has the potential of taking the most time. This investment in time is required in determining the original configuration and getting a quality recovery. The second step is to work on the logical file system. Today’s enterprise journaling file systems are highly complex; if the RAID Array is out of order there will be thousands of errors within the file system and files will be corrupted.

Some of the design goals of the RAID storage system were to provide performance improvements, storage reliability and recovery, and scalability. The redundancy concept employed in the RAID system is unique and provides a method to recover if one drive should fail within the system. In fact, today’s RAID controller cards have the ability to continue reading and writing data even if one drive is ‘off-line.’

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Pandora Recovery 2.01

Pandora Recovery is a powerful free tool that provides its users an effective way to attempt recovery of permanently deleted files. And that does not mean restoration of a file from Recycle Bin. Pandora Recovery actually recovers files permanently removed from Recycle Bin, files originally deleted using Shift + Delete keys bypassing Recycle Bin and files deleted from DOS prompt.

Pandora Recovery is not a backup tool – it can recover files that have been deleted months before Pandora Recovery was installed. And while the likelihood of successful recovery is negatively affected by the time passed since the deletion of files Pandora Recovery users were able to recover files eleven years after deletion and more than five years after re-formatting a hard drive!

Features:
1. Browse, Search, Preview and Recover deleted files
Pandora Recovery allows you to find and recover recoverable deleted files from NTFS and FAT-formatted volumes. Pandora Recovery will scan your hard drive and build an index of existing and deleted files and directories (folders) on any logical drive of your computer with supported file format. Once the scanning is complete you have full control over which files to recover and what destination to recover them to. You can BROWSE the hierarchy of existing and deleted files, or you can use SEARCH functionality to find a deleted file if you remember at least one of the following:
– full or partial file name,
– file size,
– file creation date, or
– file last accessed date

On top of that, Pandora Recovery allows you to preview deleted files of certain type (images and text files) without performing recovery. This feature becomes really important if you are forced to recover deleted files to the same drive. Currently you can preview files having several image file types (BMP, GIF, JPG, PNG, ICO,TIF, TGA, PCX, WBMP, WMF, JP2, J2K, JBG, JPC, PGX, PNM, RAS, CUR) and several text file types (TXT, LOG, INI, BAT, RTF, XML, CSS). Quick Viewer allows you preview file contents as text if it cannot find appropriate viewer for it. To use quick viewer you can select deleted file and or click the Quick Viewer icon or right click on deleted file and select ‘Quick View’. Quick View will then display a preview of deleted file.

Finally, Pandora Recovery allows you to recover deleted files, without any limitations on application’s end. Note that successful recovery might not be possible – if the original location has been reused by operating system to store different content the integrity of the original content has not been preserved and the recovered data will most likely be corrupted.

2. Surface (cluster) scan
Surface Scan – Embedded Image Preview
Click Image to Enlarge
As of version 1.1.20 Pandora Recovery implements surface (cluster) scan of targeted media, which allows:
– recovery of files whose MFT record has been reused by OS,
– Recovery of files from reformatted media,
– Recovery of files from discs with damaged or missing file allocation table.

Disk surface scan enumerates all unused clusters on the disk drive and searches for disk areas probably occupied by the data of removed files. Using this method of search, we do not use information contained in the file allocation table. So, it can work even on reformatted disk drives (except in) the case when low-level formatting was performed).

Almost each type of files has its unique features, for example the beginning of a JPEG file always contains JFIF magic word. Using this information we can determine what areas of the disk may contain deleted files data. Knowing the structure of a file (which is common within one file type) we can determine the length of the file and then recover file data.

File name and file attributes information are stored separately of the file data in file allocation table (FAT in FAT32 file system, MFT in NTFS), so we cannot determine the name of the file, its attributes, file path and recover data of file alternative data streams.

This method works only with non-fragmented files. Data of non- fragmented file(s) are stored in contiguous neighbor clusters, while data of a fragmented file may be stored in different places of the disk.

Remarks: In NTFS small files (less than 1KB in size) reside only in the Master File Table (MFT), so we cannot find such files using the Surface Scan Method.

3. Recover Archived, Hidden, Encrypted, Compressed files
Pandora Recovery can recover not only ‘regular’ files, but also archived, hidden, system, sparse, encrypted and compressed files.

Windows 2000 introduced Encrypting File System (EFS), which supports file encryption. EFS service runs on top of NTFS and encrypts or decrypts files or folders transparently for users and applications. Pandora Recovery does not decipher contents of encrypted files. Instead of that it copies the content of an encrypted file in raw mode just like data back-up applications do.

Encrypted and compressed files will be color-coded once drive indexing has been completed. Names of the encrypted files will be displayed in GREEN, while compressed files will be BLUE.

4. Recover Alternate Data Streams (ADS)
In NTFS all files have at least on file stream also called the unnamed $DATA stream. The unnamed stream contains the actual data of the file. Alternative streams usually contain file-related metadata. For example, MP3 music file may contain unnamed stream, where data are stored, and one or several additional streams where composition genre, album name and author’s name are stored.

While file might be usable without the original content of its Alternate Data Streams this useful information should be recovered. Alternative streams often contain file metadata, while file attributes contain information about how files are displayed in Windows Explorer.

5. Recover Images, Documents, Movies, or any other type of files
Pandora Recovery handles files regardless of their type, size or any other attribute. As long as the space on the logical drive has not been reused by operating system Pandora Recovery can successfully recover content of any deleted file.

If you want to search for unspecified deleted images or movies the best strategy is to search for common file extensions:
– *.avi, *.mpg, *.mov for video
– *.bmp, *.jpg, *.png, *.gif for images

6. Recovery success estimate
When a file has been deleted, the disk space occupied by the file can be reused by file system. The file system can reallocate this space for data of newly created files. Once operating system does that the deleted file becomes partially or completely overwritten. There are more chances that an overwritten file is corrupted and can not be recovered successfully. Overwritten files can still be recovered, but they likely will not be usable.

If clusters once used by a file have been reused by another already deleted files Pandora Recovery will display 0% as ‘overwritten’ value, which means the clusters are not currently in use. Still, the recovered data is likely to be corrupted.

Pandora Recovery gives you an estimate of recovery success by displaying the percent of clusters reused by operating system. To view the estimate move the mouse pointer over a file for a second or two until popup tip is displayed. The tip will say “Overwritten: 50%” or “Overwritten: 0%” . The higher the percent, the lower the chance of successful recovery.

Names of files with partially or completely overwritten clusters are displayed in RED.

7. Review File properties and Drive properties
Pandora Recovery displays properties of files: file type, deletion status, percent of clusters reused (‘overwritten’ attribute), path and size of the file, date created and date modified and common attributes (compressed, archived, hidden, system, encrypted…). To display file properties you should right-click on a file and select ‘Properties’ from context menu.

Pandora Recovery also displays properties of available logical drives: Drive letter, volume label, type, file system, total and available size. To display drive properties you should right-click on a logical drive and select ‘Properties’ from context menu.

8. Recover to Local Hard Drive, Network Drive, or Flash Drive
Pandora Recovery can use local hard drive, remote network drive or flash drive as a recovery destination folder. Pandora Recovery even allows you to recover deleted files on the same drive that the deleted files resided on originally.

IMPORTANT! To increase the success rate of file recovery it is strongly recommended that you recover your deleted file to a secondary hard drive, a network drive, USB Flash drive, or other external media. While recovery to the same drive that the deleted files reside on is physically possible it may lead to partial or complete loss of your deleted content. Non-deleted files will never be put at risk in either circumstance.

If your lost data resides on your C: it is recommended you perform your file recovery by physically removing the C: drive from your computer and attaching it as a slave on another computer and then performing the file recovery using that other computer.

9. Recognizes FAT16, FAT32, NTFS, NTFS5 and NTFS/EFS
NTFS (New Technology File System) is the default file system in all modern operating systems from Microsoft, such as Windows NT, Windows 2000, Windows XP and Windows Vista. NTFS 5.0 is improved version of NTFS introduced with Windows 2000.

NTFS replaced Microsoft’s previous FAT file system, used in MS-DOS and early versions of Windows. NTFS has several improvements over FAT such as improved support for metadata and the use of advanced data structures to improve performance, reliability, and disk space utilization plus additional extensions such as security access control lists and file system journaling. The exact specification is a trade secret, although (since NTFS v3.00) it can be licensed commercially from Microsoft through their Intellectual Property Licensing program.

NTFS5 (where 5 comes from internal enumeration of Windows 2000, the operating system which first implemented NTFS v.3.00) includes several new features over its predecessors: disk usage quotas, sparse file support, reparse points, distributed link tracking and file-level encryption, also known as the Encrypting File System (EFS).

FAT16 based on the usual 512 byte sector size and used with MS-DOS and Windows 3.xx, has a maximum partition size of 2 Gigabytes. FAT16 does not natively support alternate data streams or file permissions and it is not a journaling file system.

FAT32 was introduced with Windows 95. It is the standard file system used in Windows 95/98/Me. The theoretical Maximum partition size for the FAT32 file system is 8 Terabytes. However, in Windows 95 and 98 the size is limited to 127.53GB because to the disk 16-bit disk utilities included with the operating systems. Windows 2000 and later operating systems should be able to support the theoretical maximum size of FAT32, but Microsoft has placed an artificial limit which only allows formatting up to 32GB volumes on Windows 2000 and XP. The Maximum file size that can exist on a FAT32 formatted partition is 4GB. This has become a major factor in rendering the FAT32 file system obsolete for use on a personal computer hard drive. Media files can easily exceed this maximum size. FAT32 does not natively support alternate data streams or file permissions and it is not a journaling file system.

10. Compatible with Windows Vista, Windows XP, Windows 2003 and Windows 2000
Pandora Recovery requires Windows 2000, Windows XP, Windows 2003 Server or Windows Vista for installation. Pandora Recovery currently only recovers deleted data from NTFS formatted drives. There are no plans at this time to create a version compatible with the Mac, Linux, or any other non-Microsoft Operating System.

11. Wizards, hints and context-sensitive help
An easy way to get started in recovery your deleted files is by using the Wizard. By default the Wizard will open automatically when you start Pandora Recovery. You can also access the Wizard by clicking on the wizard icon in the program toolbar.

How does it work?
When you delete a file on FAT32 or NTFS file system, its content is not erased from disk but only reference to file data in File Allocation Table or Master File Table is marked as deleted. It means that you might be able to recover deleted files, or make it visible for file system again.

Search Deleted Files – Click Image to EnlargePandora Recovery allows you to find and recover recoverable deleted files from NTFS and FAT-formatted volumes, regardless of their type – you can recover pictures, songs, movies or documents. Pandora Recovery will scan your hard drive and build an index of existing and deleted files and directories (folders) on any logical drive of your computer with supported file format. Once the scanning is complete you have full control over which files to recover and what destination to recover them to. You can BROWSE the hierarchy of existing and deleted files, or you can use SEARCH functionality to find a deleted file if you remember at least one of the following:
– full or partial file name,
– file size,
– file creation date, or
– file last accessed date

On top of that, Pandora Recovery allows you to preview deleted files of certain type (images and text files) without performing recovery. This feature becomes really important if you are forced to recover deleted files to the same drive. Currently you can preview files having several image file types (BMP, GIF, JPG, PNG, ICO,TIF, TGA, PCX, WBMP, WMF, JP2, J2K, JBG, JPC, PGX, PNM, RAS, CUR) and several text file types (TXT, LOG, INI, BAT, RTF, XML, CSS). Quick Viewer allows you preview file contents as text if it cannot find appropriate viewer for it. To use quick viewer you can select deleted file and or click the Quick Viewer icon or right click on deleted file and select ‘Quick View’. Quick View will then display a preview of deleted file.

Pandora Recovery FREE DOWNLOAD

Download from Download.com – recommended

Download from local server (if the above location is not available)

http://www.pandorarecovery.com/

To install Pandora Recovery please do the following:
1. Download the Pandora Recovery installer from one of the download servers listed above.
2. Run the installer on the computer you wish to use to recover the deleted data with. After clicking the link above, simply click RUN or OPEN when the dialog window pops up.
3 . Proceed with the installation.
4 . Once installation is complete run the software and follow the wizard to start recovering deleted data.

IMPORTANT! To increase the success of file recovery it is strongly recommended that you recover your deleted file(s) to a secondary hard drive, a network drive, USB flash drive, or other external media. While recovery to the same drive that the deleted file(s) reside on is physically possible it may lead to partial or permanent loss of your deleted content. Non-deleted file(s) will never be put at risk in either circumstance.

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Recover Deleted Files From Recycle Bin

If you deleted an important file from recycle bin that you really needed, do you have any way to get it back? Some people hit the fan and begin to drastically panic if the file they deleted was very important. In fact, you can recover deleted files from the Recycle Bin. The file you deleted from the recycle bin hasn’t actually been permanently erased yet, it is still hidden deep within your computer’s hard drive. All you need to do is know how to find it, and with the aid of new advanced software’s, finding and recovering that deleted file can be as simple as a few clicks of your mouse.

A common misconception is that once you delete a file from the Recycling Bin it has been erased forever, and it is no longer present on the Hard Drive. Luckily for you this is not true, you see when you click empty recycle bin, windows does not actually delete the files, Those commands just generally delete a file’s name from the directory so it won’t show up when the files are listed. But the information itself can live on until it is overwritten by new files. Therefore the file has not actually been deleted; instead the space that it occupied has been freed up and listed as re-use space. Now until that file is overwritten by new data your file is still there and can be retrieved.

The first thing you should do if you want to get your files back is to stop downloading or installing any new data on the hard drive. The reason being, that once you install new programs or download new data onto the Drive it could use up the space created by your deleted file and it will be a lot harder to recover. Having more available space on your hard drive will increase your chances of recovery, as Windows avoids using up space that has recently been freed; therefore if you have plenty of room on your hard drive it will use that before it touches the space from the deleted file. Although I still strongly recommend you act as soon as possible and do not download any new material to your hard drive, that way you will most certainly have your deleted files back.

Therefore in order to recover deleted files from the recycle bin you must obtain a good Undelete Software, these software’s can recover data from almost any data drive like hard disks, USB drives, Zip drives, SD Cards etc.. The software’s can also recover data from data cards in digital cameras and cell phones. The good news is that most Undelete Programs offer a Free Download, so you can try out their software at no cost to see if you are able to recover your deleted files from recycle bin.

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