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In the family of powerful and cost-effective data recovery software from R-TT, R-Studio for Mac is specially designed for the Mac OS environment. It recovers files from APFS/HFS+/HFS (Macintosh), FAT/NTFS/ReFS (Windows), UFS1/UFS2 (FreeBSD/OpenBSD/NetBSD/Solaris) and Ext2/Ext3/Ext4 FS (Linux) partitions. In addition, raw file recovery (scan for known file types) can be used for heavily damaged or unknown file systems. R-Studio for Mac also recovers data on disks, even if their partitions are formatted, damaged or deleted. Flexible parameter settings give you absolute control over data recovery.
R-Studio for Mac recovers files:. Removed by virus attack or power failure;. After the partition with the files was reformatted, even for different file system;. Deleted from computer;. When the partition structure on a hard disk was changed or damaged. In this case, R-Studio for Mac can trying to find previously existing partitions and recover files from found partitions.
E-Book Gallery for Microsoft Technologies (EN) Download content for Azure, ASP.NET, Office, SQL Server, SharePoint Server and other Microsoft technologies in e-book formats. Reference, guide, and step-by-step information are all available. I am trying to backup my MacBook 10.4.11 to a new 'My Passport Studio' from Western Digital. The external hard drive came with no instructions and I am unable to find out how to begin a system backup. The external drive is showing up on the desktop but I am unable to 'eject' the drive because it is 'in use'. But it's not really in use.
From hard disk with bad sectors. This is especially useful when new bad sectors are constantly appearing on the hard disk, and remaining information must be immediately saved.
Host OS: macOS 10.13 High Sierra, macOS 10.12 Sierra, OS X 10.11 El Capitan, OS X 10.10 Yosemite, OS X 10.9 Mavericks, OS X Mountain Lion 10.8, OS X Lion 10.7, OS X Snow Leopard 10.6, OS X 10.5 Leopard and OS X Server 10.5 Leopard running on a computer with Intel, PowerPC G5 or PowerPC G4 processors. Supported file systems: APFS (including encryption), HFS+, HFSX, HFS, FAT12, FAT16, FAT32, exFAT, NTFS/NTFS5 with data deduplication, ReFS/ReFS2+, Ext2 FS, Ext3 FS, Ext4 FS, UFS1, UFS2 and UFS BigEndian. Direct access to the system disk even when Apple's System Integration Protection is enabled. R-Studio for Mac Network version only.
File previewer to estimate recovery chances. It shows picture tiles and first frames of video files as icons, and supports a large number of. These files can be played back without their respective applications installed. Support for known file types (raw file recovery). R-Studio for Mac searches for specific data patterns ('file signatures') typical for certain file types (Microsoft Office documents, jpgs, etc.) allowing the user to recover files on heavily damaged or unknown files systems on various devices, including an HD, CD, DVD, floppy disk, Compact Flash Card, USB drive, ZIP drive, Memory Sticks, and other removable media.
Support for known file types is the main and mandatory option for recovery data from HFS, HFS+ partitions. The entire file signature database is regularly checked and updated.
Expandable Known File Types. New file signatures can be added to the list of known file types by the end user. Recovers data forks, resource forks, finder information, extended file attributes and UNIX file system permissions. Support for HFS+ compressed files. Processing of the HFS+ journal to increase a number of successfully found files. Recognizes localized names.
Mass file recovery support. File Sorting. Found files and folders can now be easily sorted by the original structure, file extension or file creation/modification time.
Scan process visualization. While scanning an object, R-Studio Mac graphically shows items that have been found, including files of known types, HFS/HFS+ volume headers, HFS/HFS+ BTree+ nodes, FAT and NTFS MFT records, boot records, etc. Attribute monitoring. R-Studio for Mac can display S.M.A.R.T.
(Self-Monitoring, Analysis and Reporting Technology) attributes for hard drives to show their hardware health and predict their possible failures. Any unnecessary work with such hard drives should be avoided if S.M.A.R.T. Warnings appear. HDD S.M.A.R.T. Status is shown using hard drive icons in the Drive View.
APM, Basic and GPT support. R-Studio for Mac supports all three partition schemes used to define the low-level organization of data on disks formatted for use with Macintosh computers. Dynamic disk support including unsyncronized Windows software RAIDs.
Standard RAID levels supported: volume set, 0, 1, 4, 5, 6. Nested and non-standard RAID level supported: 10(1+0), 1E, 5E, 5EE, 6E. Support for parity delays in all applicable levels.
Support for customer-specified RAID layouts. Hardware RAID, volume set, and stripe set support. Support for - Apple software RAIDs, CoreStorage, File Vault, and Fusion Drive; - Windows Storage Spaces (created by Windows 8/8.1 and 10/Threshold 2/Anniversary/Fall Creators updates); - Linux Logical Volume Manager (LVM/LVM2) and mdadm RAIDs. R-Studio for Mac can automatically recognize and assemble the components of these disk managers even if their databases are slightly damaged. Their components with severe corrupted databases can be added manually. Automatic RAID parameter recognition. R-Studio can recognize all RAID parameters for RAID 5 and 6.
This feature helps the user to solve one of the most difficult problems in RAID recovery - RAID parameter recognition. Creates image files for an entire hard drive, logical disk, or its part.
Such image files can be processed like regular disks. Images can be either simple exact object copies (Plain images) compatible with the previous versions of R-Studio, or compressed images that can be compressed, split into several parts, and password-protected. Such images are fully compatible with the images created by R-Drive Image, but incompatible with the previous versions of R-Studio. Images can be connected to the operating system as devices which makes their content accessible to any program including any other data recovery software. Recovers files on damaged or deleted partitions. Recovers compressed, encrypted files and alternative data streams from NTFS partitions. Recovered files can be saved on any (including network) disks visible by the host operating system.
A hexadecimal disk and file editor supporting HFS/HFS+ data forks, resource forks and NTFS file non-resident attribute editing. Patterns (or templates) in the hexadecimal editor allowing for parsing the data according to specific data structure. Such patterns may be custom-created. A completely overhauled file previewer which can show picture tiles and first frames of video files as icons, and supports a large number of video/audio/graphic/document file formats. These files can now be played back without their respective applications installed. Support for APFS (including encryption), a new Apple file system introduced in macOS High Sierra. Direct access to the system disk even when Apple's System Integration Protection is enabled.
Compressed images (the R-Drive Image type,.rdi) can now be mounted in the system as virtual devices to make them accessible for other software. Components management for various disk and volume managers (LVM, LDM, WSS, AppleRAID, etc.). Drive auto-refresh can be enabled/disabled. This feature is useful when a failing drive is connected.
Support for Apple CoreStorage/File Vault/Fusion Drive. Support for mdadm RAIDs. Automatic recognition of newly connected/disconnected USB devices.
Improved support for the NTFS log. A new data analyzing and recovery kernel that improves data recovery speed and results. Support for HFS+, Ext3/4fs, and UFS extended attributes, that improves recovery results for Mac OSX Time Machine and Linux selinux ACL. Processing of the HFS+, NTFS, and Ext3/4 FS journal to increase a number of successfully found files. Processing of UFS soft updates journal to improve data recovery. Symlink recovery options in the Technician version.
Hard drive icons in the Drive View show the overall HDD SMART status. A new advanced algorithm for recovering exFAT partitions. A new advanced algorithm for raw file recovery (search for file signatures) with regularly checked and updated file signature database. Support for unsyncronized Windows software RAIDs. Support for Windows Storage Spaces created in Windows 10 Threshold 2/Anniversary/Fall Creators updates.
Support for the ReFS2+ file system (Windows 2016 Server). Support for NTFS deduplication. New extended duplicate file processing options. Improved data copy in Hexadecimal editor. Accelerated disk scan for fast-read devices.
More reliable and significantly faster recognition of NTFS and FAT partitions. Search for deleted file versions. R-Studio for Mac can search for deleted file versions using their sizes, names and extensions, and recognized file types as the search parameters. Improved data selection in the Hexadecimal editor. Now the beginning and end of the area to be selected can be set by the 'Select from' and 'Select to' commands in the shortcut menu. Appending data to an existing file in the Hexadecimal editor.
A file fragment selected in the editor can be appended to an existing file. An external file can be loaded to a selected position in the file opened in the Hexadecimal editor. Support for Apple software RAIDs created by the OS X system. R-Studio can automatically recognize and assemble them from their members. Members with severe corrupted RAID parameter records can be added manually.
Support for Windows Storage Spaces created by Windows 8/8.1 and 10. R-Studio can automatically assemble windows storage spaces even with small database damage.
They can be manually assembled if their databases are totally corrupted on some parents. Support for Linux Logical Volume Manager (LVM/LVM2). R-Studio can automatically recognize and assemble its volumes from their components even if the LVM volume parameter records are slightly damaged. Components with severe corrupted LVM volume parameter records can be added manually. Support for DiskSpar Disk Imager images and disk maps.
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R-Studio can read and process images and disk maps created by the DiskSpar Disk Imager without R-Studio. Attribute monitoring. R-Studio can display S.M.A.R.T. (Self-Monitoring, Analysis and Reporting Technology) attributes for hard drives to show their hardware health and predict their possible failures.
Any unnecessary work with such hard drives should be avoided if S.M.A.R.T. Warnings appear. Support for HFS+ hardlinks to folders. GUI languages: English, German, French, Spanish, Portugal, Russian,Simplified and Traditional Chinese, Japanese. Automatic RAID parameter recognition. R-Studio can recognize all RAID parameters for RAID 5 and 6.
This feature helps the user to solve one of the most difficult problems in RAID recovery - RAID parameter recognition. Support for new RAID levels: RAID10 (1+0), RAID1E, RAID5E, RAID5EE, and RAID6E. Support for parity delays in all applicable RAID layouts.
The interface language can be changed on-the-fly. Improved emergency startup for Mac and other UEFI computers. An advanced algorithm for raw file recovery (search for file signatures).
The Hex editor extension: A file location is shown in a particular disk sector. Support for Directory Junctions and Symbolic Links. Support for ReFS (Resilient File System), a new local file system Microsoft introduced in its Windows 2012 Server.
A new file previewer that supports additional file formats: Adobe Acrobat pdf, Microsoft Office documents doc, xls, ppt (Office 97-2003), docx, xlsx, pptx. Support for new RAID levels: RAID10 (1+0), RAID1E, RAID5E, RAID5EE, RAID6E, and RAID5 with parity delays often used in HP servers. Almost all R-Studio's files (images, scan info, logs, etc.) can be saved to and load from, a remote computer. Simultaneous image creation and scan.
Now R-Studio for Mac can create an image and, at the same time, scan the data from the image. As a result, two files are created at the same place: an image file and file with the scan info. File Recovery Lists: lists of files from disks that can be exported out of R-Studio for Mac, manually edited, than imported back, and files from those lists will be automatically marked for recovery. Such lists are very useful if you want someone who is far away to decide which files are to recover. RAID consistency check: you may check whether the parity blocks on a RAID are valid. Image and scan info files may be saved on and load from, remote computers.
This helps R-Studio for Mac to avoid transferring large data volumes over network during network recovery. RAID 6 support, including Reed-Solomon and Vertical XOR. Support for custom-specified RAID 6 layouts.
Support for exFAT and Ext4 FS file systems. Advanced object copy. In addition to byte to byte copy of any object visible in the Drives panel, smart copy of partitions and hard drives with size and offset adjustment is available. Recovers compressed, encrypted files and alternative data streams from NTFS partitions. Support for Directory Junctions and Symbolic Links. Hard links, symbolic links, and their targets are shown using different icons.
Dynamic disk support including unsyncronized Windows software RAIDs. Utility HFS/HFS+ NTFS FAT Ext2/Ext3/Ext4/UFS Prices, USD Get It EULA 179.99 A powerful disk recovery solution for data recovery specialists, system engineers, and network administrators, capable of solving any data recovery task on their local or network workstations or servers.
File systems supported: FAT (FAT12, FAT16, FAT32, exFAT), NTFS, NTFS5 (created or updated by Windows 2000/2003/XP/Vista/2008/Win7), HFS/HFS+ (Macintosh), Little and Big Endian variants of UFS1/UFS2 (FreeBSD/OpenBSD/NetBSD/Solaris) and Ext2/Ext3/Ext4 FS (Linux). 79.99 The most popular, reliable, full-featured disk recovery solution for solving any task that an IT specialist or experienced user may ever meet when trying to recover lost data from a local workstation or server. File systems supported: FAT (FAT12, FAT16, FAT32, exFAT), NTFS, NTFS5 (created or updated by Windows 2000/2003/XP/Vista/2008/Win7), HFS/HFS+ (Macintosh), Little and Big Endian variants of UFS1/UFS2 (FreeBSD/OpenBSD/NetBSD/Solaris) and Ext2/Ext3/Ext4 FS (Linux) on local hard disks.
Demo mode (files of less than 256KB): File recovery from remote computers over network; all the above file systems are supported). Is installed on computers where files are to be recovered over network. R-Studio Agent for Mac supports the TCP/IP protocol. Each R-Studio Network package includes at least FIVE licenses for R-Studio Agent or R-Studio Agent Emergency. You may use the R-Studio Agent registration number to register R-Studio Agent Emergency. This is an integral part of the R-Studio package included at no extra cost. R-Studio Emergency runs from a start-up CD/DVD, USB, or other removable media device, or floppy disk when it is necessary to recover data from a computer on which the operating system cannot start up because its system files are corrupted or deleted.
R-Studio Emergency can run on Intel- and PowerPC-based Macintosh, Linux, and UNIX computers/servers, as well as on any Windows Intel machine. When you buy a single R-Studio license, you may run R-Studio Emergency and/or install the R-Studio version on one and the same PC only. You may not transfer the licensed software to another machine. The R-Studio Emergency activation key is generated separately and requires obtaining a hardware code. The activation key can be requested through Registered User's Console within one year from the date of purchase. This is an integral part of the R-Studio package included at no extra cost.
R-Studio Emergency runs from a start-up CD/DVD, USB, or other removable media device, or floppy disk when it is necessary to recover data from a computer on which the operating system cannot start up because its system files are corrupted or deleted. R-Studio Emergency can run on Intel- and PowerPC-based Macintosh, Linux, and UNIX computers/servers, as well as on any Windows Intel machine.
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When you buy a single R-Studio license, you may run R-Studio Emergency and/or install the R-Studio version on one and the same PC only. You may not transfer the licensed software to another machine. The R-Studio Emergency activation key is generated separately and requires obtaining a hardware code.
The activation key can be requested through Registered User's Console within one year from the date of purchase. Made the classic mistake of working too hard with too little sleep. Working on my own stuff so I didn`t take the precautions I should have.
Needless to say a RAID0 set created using Apple`s Disk Utility was broken and formatted as a new RAID0. I immediately recognized my mistake and shut down the server. After some web surfing and saki I found R-Studio.
After the other utilities I normally use failed, R-Studio was able to create an image of the broken (and reformatted) RAID disks. The entire volume.
Computer with Intel, PowerPC G5 or PowerPC G4 processors. Mac OS X v10.4 Tiger, Mac OS X Server v10.4 Tiger, Mac OS X v10.5 Leopard, Mac OS X Server v10.5 Leopard, Mac OS X Snow Leopard 10.6, Mac OS X Lion 10.7, OS X Mountain Lion 10.8, OS X 10.9 Mavericks, OS X 10.10 Yosemite, OS X 10.11 El Capitan, macOS 10.12 Sierra, macOS 10.13 High Sierra. At least 256 MB of RAM, a mouse, and enough disk space for recovered files, image files, etc. The administrative privileges are required to install and run R-Studio for Mac.
Skype In the in this series, we talked about using the to create Universal Windows Platform (UWP) apps that can run on Windows 10 devices using existing Objective-C code. Our explores using the iOS bridge to bring Storyboards and Auto Layout to Windows 10. This post will focus on getting Xcode and iOS developers familiar with the Visual Studio IDE, whether starting from scratch or using existing code from a source repository, such as GitHub.
Modern IDEs, especially those for app development, are becoming very similar. While each may have its own nuances and intricate IDE features, they will all generally offer the same key functionalities. There will be a way to load projects and solutions, lay out controls visually, work with code, and debug with some level of emulation. As a result, once you learn the basics of one IDE, you’ll find you can pretty easily transfer that knowledge to the others. It is no different moving between Xcode and Visual Studio. In fact, the team at the One Dev Minute blog on Channel 9 put together an excellent summary that quickly shows a feature-for-feature comparison when putting together a sample app, though it shows older versions of Visual Studio and Xcode.
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The first step in working with any IDE is loading up a project. In Visual Studio (click here to get the free edition), the steps are basically the same as starting a project in Xcode. Just point to File → New → Project. In this case, we’ll pick a project template from a list of installed templates, set the application and solution name, and select the directory where the files will be stored: After clicking OK, the template creates a runnable UWP app that compiles and runs but contains no UI or data. We selected the Blank App template above. Are there.any.
stats on.any. companies/developers actually embracing this bridge? I am really curious on the adoption of this, as you are competing with 1B.active. iOS devices (as of this week) and are trying to lure them.backwards.
onto a platform with only 200M installs. I am trying to understand the value proposition in that and maybe you can explain it in more detail to help a developer out. Conversely (and/or additionally), it really seems you should be listening to your developers and building a bridge.OUT.
to other platforms in addition to the (backwards) ones you have already built: You can then charge us for the tooling required to meet both platforms (1.2B in this case when you add both Windows Store and Apple Store ATM), further increasing your bottom line and pleasing those shareholders. Everyone wins, RIGHT??? For those interested in the Apple 1B active device news. FWIW, I believe in Windows 10 and it should definitely be @ 1B by 2018. It would be nice to be able to say that with ONE code base/tool chain you can reach 2B devices (1B Windows, 1B iOS — there are more platforms, but I am trying to keep to the subject matter here, LOL).
Finally, on that note, mull on this: imagine if MSFT offers a tech that allows developers to reach 2B users (1B Windows + 1B iOS) in 2018, and Apple only offers tech to only reach 1B users (iOS only), which tech do you think developers (and organizations) are going to gravitate to? Telling you, MSFT: $$$.
Make those shareholders happy! Hi Michael (nice name!), thank you for your reply. You ARE correct. If you can use one codebase to reach multiple platforms why not give it a shot?
However, I hope you realize the terrific irony (more like tragedy) that we as MSFT developers now have to code in ObjectiveC/iOS to do exactly that. Does this make sense to you? Does it not seem like it would make more sense to have a MSFT technology that enabled one codebase (in.NET) to work on both the Windows Store and the Apple store (and Droid store), maximizing our target reach? Does it not concern you that MSFT is essentially putting its own developers in lower value tier by catering to another technology? This seems rather suspect and I am surprised that there isn’t more outrage/questioning towards this. Again, this “bridge” seems totally backwards. Check my logic, though.
I am open to feedback. Also, I understand that there might be iOS developers (as in, 2?
LOL) using this, but I am wanting to know stats as in how many and how many of them are doing it because MSFT is paying them to support/develop for a questionable business strategy (ala WinJS). Hey Michael, Just wanted to let you know we’re working on bridges that go both ways 🙂 The goal here is to maximize code reuse for developers of all stripes – whether they’re dealing in C#, Objective-C or web technologies, and whether they’ve started on Windows or another platform – enabling them to build great UWP cross-platform apps with minimal additional investment. Thanks for your interest in the bridges, and remember to reach out on Github if you get a chance to try the iOS bridge with your apps! Thank you for your reply, Michael. There are two things here: writing apps for the sake of technology (your angle/perspective — which I appreciate, I used to be a Silverlight developer, sore topic 😛 ), and then there is writing apps for the sake of market reach and business opportunity. Currently there are 200M (probably a little more at this point) Windows 10 installs.
There are over 1B active iOS devices as outlined above. Combined, there are 1.2B between them.
Now, if I want to reach that entire market, which language do I have to use? I can’t use UWP because that only reaches 200M (about 16%). The answer here obviously is iOS/objective-C (100%). Thus, UWP is in the lower (value) tier because it cannot reach the entire market, and I as a business owner now must decide to use iOS/objective-c (higher value) over UWP (lower value) to reach all 1.2B devices. Does that make sense? Please let me know if you have any questions around this or if there is something wrong with my logic. Also, it would be nice to see the stats.
Having transparency with your developers is a valued quality of an organization, and makes it look like you care. Just ask Azure or VSO/VSTS. 🙂 Thank you, Michael.