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St Petersburg Florida Raid Data Reconstruction Recovery
Raid Array Data Recovery for St Petersburg
866-460-4726
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US Data Recovery provides St Petersburg, Florida Raid Array Data Recovery Services for Home users, Business users, Corporations, Government entities, Military and Educational institution clients. St Petersburg Raid Array Data Recovery includes recovery of SAS, SATA, IDE, SCSI , NL-SAS raid arrays, any raid configuration used in laptops, desktops, workstations, Servers, NAS, DAS and SAN servers. We provide St Petersburg data recovery and data reconstruction of all software and hardware raid arrays including:
Standard Raid Levels
Raid 0, Raid 1, Raid 2, Raid 3, Raid 4, Raid 5, Raid 6
Modified Standard Raid Levels - Nested Raid Levels
Raid 0 + 1 (raid 01), Raid 1 + 0 (raid 10), Raid 3 + 0 (raid 30 or raid 53), Raid 0 +3 (raid 03), Raid 1 +0 + 0 (raid100), Raid 5+ 0 (raid 50), Raid 5 + 1 (raid 51), Raid 0 + 5 (raid 05), raid 6 + 0 (raid 60)
Non Standard Raid Levels
Double Parity, Raid 5e, Raid 5ee, Raid 6e, Raid-DP, Raid1.5, Parity Raid, Matrix Raid, Raid K, Raid S, Raid Z, Beyond Raid, unRaid, Linux MD 10, IBM ServeRaid 1E, ineo Complex Raid, Raidn,
Non Raid Drive Architectures
SLED, JBOD, MAID, SPAN, BIG
Our technicians have a combined 57 years experience in data recovery, raid hard drive data recovery, raid array data reconstruction, raid controllers, Raid server installation and maintenance.
Free Inspection and Examinationof all St Petersburg raid arrays
No Recovery - No Fee
Flat Rate Pricing
No up charge for Weekend, Evening or Holiday Service
All Internal inspections and repairs of hard drives are conducted in a Class 100 Clean Room Environment.
We are HIPAA Compliant and exceed HIPAA requirements for data security. Each Clients case is assigned to its own recovery hardware and software and all data and forensic images are stored on individual hard drives. No Client Data is stored on Servers or any Internet connected device. Our client�s data Security and Confidentiality is of utmost importance.
St Petersburg Raid DATA RECOVERY Process starts immediately upon receipt of your drives.We work non stop until the data is recovered.
Most data recovery cases are completed in 24-36 hours of receipt of the drives. This includes Raid Array data recovery cases.
Apollo Beach, Bayonet Point, Boca Raton, Bonita Springs, Brandon, Cape Coral, Clearwater, Coral Springs, Daytona Beach, Deltona, Destin Wesley Chapel, Fort Myers, Ft Walton Beach, Fort Lauderdale, Gainesville, Hialeah, Hollywood, Hudson, Jacksonville, Key Largo, Key West, Lakeland, Land O Lakes, Largo, Longboat Key, Marathon, Merritt Island, Miami, Miami Gardens, Miramar, North Palm Beach, Ocala, Odessa, Orlando, Palm Bay, Palm Harbor, Panama City, Pembroke Pines, Pensacola, Pinellas, Port Salerno, Port St. Lucie, Sanibel Island, Sarasota, Seminole, Siesta Key, Spring Hill, St Augustine, St. Petersburg, Stock Island, Tallahassee, Tampa, Tampa Bay, Tarpon Springs, Tyrone, Venice, West Jacksonville, West Miami, West Tallahassee, West Orlando, West Palm Beach, West Tampa,Pasco
Raid Array configuration RAID (Redundant Array of Independent Disks) is the combining of two or more hard drive working in unison to gain greater levels of performance, redundant reliability, and or to create a larger hard drive volume sizes. In the past this type of configuration was generally used only by large companies. Today, many St Petersburg small business and home users are finding an ever increasing need for servers and mass external storage devices to store there ever expanding data needs. When multiple raid configured hard drive arrays fail, special software and hardware is needed to successfully recover your data.
Raid arrays are configured in raid levels based on the performance and redundancy that is required for the application. Raid levels vary from hardware arrays and software arrays Raid Levels consist of Standard, Non Standard Raid levels.
Raid Data Reconstruction Recovery from hard drives configured in
Standard Raid Levels
Raid 0, Raid 1, Raid 2, Raid 3, Raid 4, Raid 5, Raid 6
Modified Standard Raid Levels - Nested Raid Levels
Raid 0 + 1 (raid 01), Raid 1 + 0 (raid 10), Raid 3 + 0 (raid 30 or raid 53), Raid 0 +3 (raid 03), Raid 1 +0 + 0 (raid100), Raid 5+ 0 (raid 50), Raid 5 + 1 (raid 51), Raid 0 + 5 (raid 05), raid 6 + 0 (raid 60)
Non Standard Raid Levels
Double Parity, Raid 5e, Raid 5ee, Raid 6e, Raid-DP, Raid1.5, Parity Raid, Matrix Raid, Raid K, Raid S, Raid Z, Beyond Raid, unRaid, Linux MD 10, IBM ServeRaid 1E, ineo Complex Raid, Raidn,
Non Raid Drive Architectures
SLED, JBOD, MAID, SPAN, BIG
We provide raid array data recovery for any raid array utilizing the following formats and file systems:
HFS+, HFSX and HFS Wrapper nix, HP UNIX, FAT16, FAT32, VFAT, NTFS and NTFS5, UFS (all variants), VxFS, HTFS,EAFS, ZIP, Ext2, Ext3 and Reiser FS, XFS, JFS, ZFS
We provide St Petersburg, Illinois clients data recovery of any raid array using the following SATA, SAS, IDE or SCSI raid controlers:
3ware Controllers, HP Controllers, IBM Controllers, Adaptec Controllers, NVIDIA controllers, Promise Technology controllers, Acer Controllers, Highpoint controllers, LSI Controllers, Intel Raid Controllers, Sans Controllers, Perc 4, Perc 5, Perc 6, Pec 2, Perc 3 Controllers and any other make raid controller.
We provide SATA, IDE, SAS and IDE raid hard drive data recovery for the following Hdd manufactures: Seagate, Maxtor, Samsung, Western Digital, HGST, Hitachi, Fujitsu, Dell, HP, Lenovo, Sun, NetApp, LSI and more
We provide St Petersburg, Illinois clients raid data recovery of any raid array using the following operating systems:
Red Hat, Suse, Caldera, SCO, Debian, Mandrake, Sorcerer, Turbo Linux, Slackware, Gentoo, Apache, Apache OpenOffice, Ubuntu, Fedora, Centos, Arch Linux, Oracle, Zentyal , Open-E, Windows Vista / XP / 2003 / 2000, Windows 7, Windows 8, Windows 8.1, Windows Server 2003, Windows Server 2008, Windows Server 2010, Windows server 2012, Windows SBS Server, Windows SBS 2003, Windows SBS 2008, Windows SBS 2010, Windows SBS 2012, Windows NT, Windows Exchange Server, Mac OS, Mac OS X, Mac OS X v10.6 Snow Leopard, Mac OS X v10.5 Leopard, Mac OS X v10.4 Tiger, Mac OS X v10.3 Panther, Mac OS X v10.2 Jaguar, Mac OS 9 , Mac Mavericks and earlier MacIntosh and Apple operating systems, SCO Openserver (HTFS & EAFS), SCO Unixware (VxFS & UFS), Solaris Intel (UFS) ,Solaris Sparc (UFS),BSD (UFS1 & UFS2) .HP UNIX (JFS 3.0,3.1,3.3) Open-E or any other proprietary OS.,
What to do if your Raid Array is failing or Failed:
Raid array failure for most St Petersburg, Florida Corporate users is generally a minor several hour inconvenience as they are more likely to have a disaster plan in place to deal with raid array failures. Large corporations generally have the resources to have multiple servers so that ALL their data is not concentrated on one server. They will usually have multiple up to data backups and possibly a backup server ready to go on line.
Having a raid array failure or a single drive failure is a disaster for most St Petersburg home users and small to medium size business users. Panic sets in as you see your entire digital life gone or your entire business shut down. What you do next can determine if this disaster turns into a Major Disaster or a Catastrophic Disaster.
Remove the server array from the network and Shut the system down. This includes an active array with just a single drive failure. Do not attempt to rebuild the array unless you have a good backup copy of all your data including the most recent files. Remove all of the drives from the array. Build a new array with new drives and start rebuilding your array from your data backup, even if the backup is old and out of date. If your raid array needs to be recovered you will already have the server and your company up and running. Once the recovered data is back you will simply be updating the array. Even if you have a complete and sound backup of the array, rebuilding using the remaining good drives may result in corrupted data, lost files or failure of other drives in the array. With most businesses, getting the company back up and running and recovering all the data is most important. Buy following the previous steps you have the server up an running in the quickest amount of time and your have the failed array secured so no other damage or data loss can occur.
I know this goes against what most older IT administrations and Techs were taught. We have a combine 57 years experience building, recovery, maintaining and implementing raid arrays on servers, NAS devices, SAN Servers and DAS Servers. This is not how we were taught when it came to recovering a failed raid. Back when, we were limited to the software and hardware that was available to use for bad drives, like CheckDisk, Fsck, Spinrite, all of which are destructive programs. Destructive because they re write data on the hard drive attempting to correct errors in the MTF or Journaling systems or moving data from a bad sector to a good sector sector. With an active failed raid array, with no backup, copying the data or cherry picking the data was the only choice then attempt to add a new drive for the failing array and attempt to rebuild the array for several hours or days. How many arrays have you spent hours on a rebuild, only to have another drive go and the array fail?
Why Not copy the active data from a failing raid array or replace a failed drive and rebuild? The main reason is that when the array was first constructed at the factory or by an IT department, all the drives used in the array were the same make and model drive. All the drives were most likely purchased at the same time from the same location and most probably were all manufactured at the same time and are from the same lot. If one drive from the same lot fails, there is a very high probability that other drives will shortly fail with the same problem. At this point why the drive failed is not of concern. Your only concern at the moment is to protect the integrity of the data on the drives. If you start a rebuild and another drive fails you may corrupt or loose data on the array. The only safe coarse of action is to remove all the drives from the array and have each forensically imaged with forensic hardware and software designed for data recovery and having the ability to deal with bad sectors.
Bad sector failure is the second major concern when attempting to rebuild a failing array. Greater density has been gain on the hard drives by the compression of tracks and sectors to produce greater capacity on the same size platers of 20 years ago. Failing sectors are now more critical then in years past, especially when dealing with multiple drives in a raid array.
Recovering and reconstructing data from a failed raid array:
As with our individual hard drive data recovery, we follow a prescribe methodology for raid array recoveries from Raid Servers, San Servers, NAS Servers, SAN and DAS Servers, Internal and external raid arrays.
1. All mountable drives from the array are Forensically Imaged for data recovery to one of our Enterprise SATA hard drives Our Advanced Forensic Imaging devices have two advantages over other imaging software and hardware. Our Imaging hardware have the fastest data transfer rates available. Our Forensic hardware and software is designed for data recovery and has the ability of reading multiple bad sectors and recovering those sectors to the recovery drive. This leads to a greater data recovery success rate when dealing with bad sector issues .
2. All non mountable drives are examined to determine the best method of rendering the drive mountable for imaging. Logical repairs are handled with our hard drive manufacture specific hard ware and software. All internal examinations or internal repair of the hard drive is conducted in our Class 100 Clean Room Environment. Once the drive is mountable it is forensically imaged to one of our enterprise SATA hard drives,
3. The Imaged drives are than mounted on one of our Raid Recovery workstations, where our engineers will determine the parameters of the raid array, reconstruct and DE-strip the array, at which time the data is recovered to another drive. The recovered data is then copied over to the clients drive for return.
Although we do not promote the use of large volume raid arrays, we will recovery any raid array, no matter the size the drives nor the number of drives used in the array. If you are contemplating constructing a large volume array call and talk to one of our engineers to learn the inherent problems and failure rates of large volume raid arrays. Our goal is the complete recovery your data without causing more loss or corruption to the failed drives. We therefore DO NOT perform data recovery over the Internet nor over a Network. We WILL NOT perform data recovery from a source drive, active Server, Workstation or NAS Device. All of these methods present a high risk of data loss or data corruption.
Advanced Raid Server Data recovery for any Enterprise servers including the following model: Macintosh X Server, HP ProLiant, HP Integrity Superdome, HP AlphaServer DS25, HP AlphaServer DS15A, Sun Netra, Sun SPARC Enterprise, IBM x86 enterprise servers, Dell PowerEdge T110, Xenos Enterprise Server, Raid Inc Xanadu, Silicon Mechanics Storform nServ, Silicon Mechanics Rackform iServ, Intel® Storage Server. For More Information on our Server data recovery click on the Server button
We provide Raid Server Data Recovery for all NAS, SAN and DAS Server makes and models. I addition to Raid Array data recovery for Raid Servers, we also provide SATA, SAS, NL-SAS, SCSI, IDE RAID DATA RECOVERY for all makes and models of NAS Raid servers, SAN Servers , DAS Server and External and Internal Raid Arrays. For More Information on our NAS SAN DAS Server data recovery click on the Server button Generally most raid array recoveries are completed within 24 hours of receipt of the drives. We also provide data recovery for all Florida zip code areas.
We also provide Florida raid data recovery services for the following cities:
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Raid Data Recovery - Raid Hard Drive Data Recovery - Raid Array Data Recovery
Raid Data Recovery Definition: Raid Hard Drive configuration RAID (Redundant Array of Independent Disks) is the combining of two or more hard drives working in unison to gain greater levels of performance, redundant reliability, and or to create a larger hard drive volume sizes. In the past this type of configuration was generally used only by large companies. Today, many small business and home users are finding an ever increasing need for servers and mass external storage devices to store there ever expanding data needs. When multiple raid configured hard drive arrays fail, special software and hard were is needed to successfully recover your data.
We provide Worldwide Data Reconstruction for all Raid levels. If you have a raid array fail in your SAN Server, Raid Server or NAS server do NOT attempt to rebuild the array unless you have a complete backup off all the data, separate from the Failing Raid array. Attempting to do so can corrupt data if not completely loose your data.
Most Server and NAS arrays are built using drives that were from the same lot. When one drive fails there is now a high probability of other drives in the array will fail in short order.. If other drives in the array fail during the rebuilding of the array you will most likely loose your data. If you do not have a complete and current backup of your data from the array then the best choice is to power off the server and call one of our raid specialist. We have found that most of our Corporate Clients and Business Clients are relying on their raid array as to sole source of their data backup based on the redundancy of raids. This is a practice that will lead to disaster. Raid Arrays fail for many reasons as do single hard drives, CDs, and DVD,s Flash Drives and SSD Drives, Cloud storage. Protection from data loss can only be accomplished by multiple copies of the data and understanding the life expectancies of media storage devices. During the past year we have found many Raid array recovery clients with a replace hard drive from a different manufacture or model number. This is another practice that will put the drives out of step which can cause slower read and write speeds and possible lost of the array.
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Server Data Recovery Server Raid Data Recovery - Advance Server Data Recovery - Server Raid Array Data Recovery
We provide data recovery for servers using any operating system or blended proprietary system. We specialize in raid recoveries of any make server using IDE drives, SCSI drives, SATA drives, SAS Drives or SSD drives. Most Raid Server arrays are forensically imaged, de striped and recovered to a single drive within 24 hours of receipt of the drive.
US Data Recovery provides Worldwide Advanced Raid Server Data recovery for any Enterprise server including the following model: Storform JBOD, zStax StorCore 64, zStax StorCore 104, SGI OmniStor, SGI InfiniteStorage Gateway, SGI NAS, SGI ICE X, SGI InfiniteData Cluster, SGI Rackable, SGI UV, StoreAll 9300 Gateway Storage, BrightDrive Astella FX, BrightDrive Astella DX, BrightDrive Astella NX, BrightDrive Procyon, BrightDrive Triton, BrightRaid Avio,Dapron DS6614 Integrated Blade Chassis, DS6601 Compute BladeDS6608 Virtual Machine Cluster BladeDS6607 VM Manager BladeDS2240 IP Storage Server, High Performance IP Storage Server , NetApp FAS6200/V6200 SErIES, FAS3200/V3200 SErIES, FAS2200 SErIES, NetApp R200 NearStore , E5400 E2600 and NetApp VTLNetApp, HP Disk Enclosures, HP BladeSystem Storage Blades, HP 3PAR StoreServ 10000 Storage, HP 3PAR StoreServ 7000 Storage, HP 3PAR StoreServ 7450 Storage, HP StoreEasy 1000 Storage, HP StoreEasy 3000 Gateway HP StoreEasy 5000 Storage,HP XP 9000 Storage, HP EVA 6000 Storage,HP StoreVirtual 4000 Storage, HP MSA P2000 Storage, HP MSA 2040 Storage, HP StoreOnce 2620 iSCSI Backup, HP StoreOnce 2700 Backup, HP StoreOnce 4210 FC Backup, HP StoreOnce 4210 iSCSI Backup, HP StoreOnce 4220 Backup, HP StoreOnce 4420 Backup,HP StoreOnce 4430 Backup, HP StoreOnce 4500 Backup, HP StoreOnce 4700 Backup, HP StoreOnce 4900 Backup,HP StoreOnce B6200 Backup,HP StoreOnce 6500 Backup, HP StoreAll 8800 Storage.HP StoreAll 8200 Gateway,HP StoreAll 9000 Storage, HP StoreAll 9300 Gateway Storage,Raid Inc, FusionIvyBridge, FusionRomley, Xanadu, Perceus, Razor II, Falcon V, Dell Compellent, Dell EqualLogic, Dell NX 35XX, MD3 Family of Arrays, Dell EqualLogic PS Series and FS Series, PowerEdge Blade Servers, PowerEdge Tower Servers, PowerEdge Rackmount Servers, PowerVault NAS Servers, PowerVault,,IBM SONAS, IBM Storwize V3700, IBM Storwize V70, NetApp Cluster Mode 8.1, NetApp FAS 2XXX, NetApp FAS 3XXX' NetApp FAS 6XXX, XIV, DS3500, Enterprise EMC Avamar, DD160,600,860, DD890/990, Isilon, VNXe, VMAX 40K, 20K, 10K, VNX 7500, VNX 5700, 5500, VNX 5300, VNX 5100.DS 88XX
We provide Raid Server Array data recovery for RAID-0, RAID-1, RAID-5, RAID-6, RAID-10, RAID-01, RAID 05, RAID-50 AND ALL OTHER HYBRYD RAID CONFIGURATIONS. Reconstruction of any failed raid array is complex and requires professional imaging and data recovery hardware. Our raid reconstruction labs use the most up to date Professional Imaging devices and Data Recovery appliances available. We use the most advance prescribed methodology for all raid recoveries and reconstructions, which leads to the highest recovery results.
Most Server arrays are built using enterprise SAS, SATA, SSD or SCSI drives that were from the same lot. When one drive fails there is now a high probability of other drives in the array will fail in short order.. If other drives in the array fail during the rebuilding of the array you will most likely corrupt the raid strip and loose your data. If you do not have a complete and current backup of your data from the array then the best choice is to power off the server and call one of our raid specialist. The only secure method of recovering or rebuild the array is forensically imaging each drive to a new drive, reconstructing and de striping the array to an external drive. We have found that most of our Corporate Clients and Business Clients are relying on their raid array as to sole source of their data Storage based on the redundancy of raids without any other backup of the data. This is a practice that will lead to disaster. Raid Arrays fail for many reasons as do single hard drives, CDs, and DVD,s Flash Drives and SSD Drives, Cloud storage.
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We provide worldwide data recovery for Hernando business and home users. Our data recovery services include Hernando Raid Data Recovery, Hernando Raid Server Data Recovery, Hernando SATA SAS Data Recovery, South Hernando SSD Drive Data recovery and Hernando USB Flash Drive Data Recovery, Elliott SATA SAS Data Recovery, Elliott SSD Drive Data recovery.
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.We also provide data recovery for all Florida zip code areas.
Us Data Recovery provides raid array data recovery for St Petersburg, Florida% Corporate, Business and Home User clients. St Petersburg raid Data Recovery includes recovery of data from failed raid arrays, NAS DAS San servers in any raid configuration.
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