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Difference between revisions of "Home Server/RAID"
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| + | {{Warning| RAID is '''NOT''' a backup. Not even RAID 1. RAID doesn't protect against accidental file deletion or the complete death of an array. See the [[Home_Server/Backups]] Page for more on backups}} | ||
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| + | Companion page to [[Home_server#RAID]] | ||
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| + | There are several reasons why we don't just connect a bunch of disks and call it good: | ||
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| + | Data Protection: RAID provides redundancy, which means that if one disk fails, the data is still available on another disk. This is crucial for preventing data loss. | ||
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| + | Performance: RAID can significantly improve disk speed by spreading data across multiple disks. This allows for multiple disk reads/writes to occur simultaneously, increasing overall system performance. | ||
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| + | Efficiency: By using RAID, you can manage multiple disks as a single entity, which can be more efficient and easier to manage than dealing with multiple individual disks. | ||
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| + | Cost-effectiveness: RAID can be a cost-effective way to achieve high levels of storage reliability and capacity that would otherwise require a large number of disks. | ||
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| + | Scalability: RAID systems can be easily expanded with additional disks, providing a scalable solution for growing storage needs. | ||
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| + | In contrast, if you simply connect a bunch of disks separately ("disk 1 for pictures, disk 2 for videos, etc"), you lose these benefits. If one disk fails, you lose all data on that disk. You also can't take advantage of the speed benefits of simultaneous reads/writes across multiple disks. Furthermore, managing multiple individual disks can be more complex and less efficient than managing a single RAID array. | ||
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==ZFS== | ==ZFS== | ||
ZFS is a .... | ZFS is a .... | ||
[[Home_Server/RAID/ZFS]] | [[Home_Server/RAID/ZFS]] | ||
Revision as of 21:37, 19 February 2024
Companion page to Home_server#RAID
There are several reasons why we don't just connect a bunch of disks and call it good:
Data Protection: RAID provides redundancy, which means that if one disk fails, the data is still available on another disk. This is crucial for preventing data loss.
Performance: RAID can significantly improve disk speed by spreading data across multiple disks. This allows for multiple disk reads/writes to occur simultaneously, increasing overall system performance.
Efficiency: By using RAID, you can manage multiple disks as a single entity, which can be more efficient and easier to manage than dealing with multiple individual disks.
Cost-effectiveness: RAID can be a cost-effective way to achieve high levels of storage reliability and capacity that would otherwise require a large number of disks.
Scalability: RAID systems can be easily expanded with additional disks, providing a scalable solution for growing storage needs.
In contrast, if you simply connect a bunch of disks separately ("disk 1 for pictures, disk 2 for videos, etc"), you lose these benefits. If one disk fails, you lose all data on that disk. You also can't take advantage of the speed benefits of simultaneous reads/writes across multiple disks. Furthermore, managing multiple individual disks can be more complex and less efficient than managing a single RAID array.
ZFS
ZFS is a .... Home_Server/RAID/ZFS
