MicroNet Technology MaxNAS manual Understanding RAID

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5-Understanding RAID

Chapter 5- Understanding RAID

The MaxNAS controller subsystem is a high-performance SATA drive bus disk array controller. When properly configured, the RAID subsystem can provide non-stop service with a high degree of fault tolerance through the use of RAID technology and advanced array management features.

The RAID subsystem can be configured to RAID levels 0, 1 (0+1), and 5. RAID levels other than 0 are able to tolerate a Hard Disk failure without impact on the existing data, and failed drive data can be reconstructed from the remaining data and parity drives. RAID configuration and monitoring can be done through the LCD front control panel or serial port. The MaxNAS features the following high availability functions:

RAID Levels 0,1,5,6 and Span support

Global Online Spare

Automatic Drive Failure Detection

Automatic Failed Drive Rebuilding

Hot Spare Disk Drives

Instant Availability/Background

Initialization.

FYI:

The Berkeley RAID levels are a family of disk array data protection and mapping techniques described by Garth Gibson, Randy Katz, and David Patterson in papers written

while they were performing research into I/O subsystems at the University of California at Berkeley. There are six Berkeley RAID Levels, usually referred to by the names RAID Level 1, etc., through

RAID Level 6.

This section will help you gain

understanding of how these functions can serve your needs best.

RAID

RAID is an acronym for Redundant Array of Independent Disks. It is an array of multiple independent hard disk drives that provide high performance and fault tolerance through support of several levels of the Berkeley RAID techniques. An appropriate RAID level is selected when the volume sets are defined or created, and is based on disk capacity, data availability (fault tolerance or redundancy), and disk performance considerations. The RAID subsystem controller makes the RAID implementation and the disks’ physical configuration transparent to the host operating system, which means that the host operating system drivers and software utilities are not affected regardless of the RAID level selected.

RAID 0 (Striping)

This RAID algorithm writes data across multiple disk drives instead of just one disk drive. RAID 0 does not provide any data redundancy, but does offer the best high-speed data throughput. RAID 0 breaks up data into smaller blocks and then writes a block to each drive in the array.

Pros: Disk striping enhances both read and write performance because multiple drives are accessed simultaneously,

Cons: The reliability of RAID Level 0 is less than any of its member disk drives due to its lack of redundancy.

MaxNAS Owner’s Manual

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Contents MaxNAS Table of Contents RAID Federal Communications Commission FCC Compliance StatementRadio Frequency Interference Statement Warranty Limitations of Warranty and LiabilityTechnical Support Policy Returning MaterialsWelcome From MicroNet Technology WelcomeMicroNet Technology Features and Benefits Getting StartedGetting Started System Requirements and CompatibilityWhat’s Included Unpacking the MaxNASChoosing a place for your MaxNAS Getting Started Visual and Audible Indicators Hot plug Drive ReplacementConnecting the MaxNAS Connecting the MaxNASAccessing System Administration for the first time Connect Your MaxNASWizard Installation and Usage Logging LCD Operation Management ModeUSB Copy USB Target Mode Adding External DisksAdministering the MaxNAS Administering the MaxNASMain Menu Configuration Tree Status Displays System StatusSystem Information USB Printer Information The MaxNAS can act as a printAttached UPS Monitor Status Power ManagementAbout this MaxNAS Info Disks Info Storage ConfigurationRAID Menu Description RAID Create Folder Share Configuration RAID IDNFS Perform file system check GrantedStackable iSCSI Host Service To mount NSync Backup Service Auth IDNetwork Configuration LAN1 ConfigurationAdministering the MaxNAS LAN2 Configuration Network Services ConfigurationAdministering the MaxNAS Accounts Configuration Authentication ConfigurationGroup Administration Local User ConfigurationSystem Control Functions Batch User and Group CreationEvent Logs Remote Notification ConfigurationSystem Time Save/Recover System Setting Reset to Factory DefaultUpdate Firmware Module ManagementChange Administrator Password Reboot/ShutdownLog Out of the Administration Interface Change the User Interface LanguageConnecting Users Connecting UsersSMB/CIFS User Access Configuration Mapping a Network Drive WindowsMapping a Network Drive OS-X Using Webdisk Webdisk control interface File OperationsUsing iSCSI Microsoft Windows 2000 and newerChap OS-X 10.4.10 Host Setup The MaxNAS has been tested Select Apple Partition Map or Guid Setting Up an Nsync Target on an Nsync Device File Backup With nSyncAdding an Nsync Task Connecting to MaxNAS Attached Printers Setting Up an Nsync Target on Another Device Designating MaxNAS or PlatinumRAID as an Nsync Target Windows XP SP2Windows Vista Click Select a shared printer by name MacOSUnderstanding RAID Understanding RAIDRAID 1 Disk Mirroring Hot Spare Drives Troubleshooting TroubleshootingGeneral Use Precautions Resetting the MaxNAS Frequently Asked Questions Always Back UP Your Data Getting Help How To Contact MicroNet Technology, IncAppendix a Getting Help RAID Level Comparison Table Appendix B RAID Level Comparison TableActive Directory Appendix C Active DirectorySupport UPS List Appendix D Supported UPS ListAqua Sola Glossary Appendix E GlossaryGlossary Glossary Glossary Glossary Glossary Glossary Appendix F Product Specifications Product SpecificationsSystem Architecture System Features MaxNAS DimensionsWeight Power ConsumptionLicence and Copyright Appendix G Licence and CopyrightSource Code Availability Copyrights Cgic License TermsGNU General Public License PreambleLicence and Copyright Licence and Copyright Licence and Copyright MicroNet Techology Van Ness Ave Torrance, CA
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