RAID工作原理图解及特点分析.doc

RAID 0: Striped Disk Array without Fault Tolerance Characteristics/Advantages 1. RAID 0 implements a striped disk array, the data is broken down into blocks and each block is written to a separate disk drive 2. I/O performance is greatly improved by spreading the I/O load across many channels and drives 3. Best performance is achieved when data is striped across multiple controllers with only one drive per controller 4. No parity calculation overhead is involved 5. Very simple design 6. Easy to implement Disadvantages 1. Not a “True” RAID because it is NOT fault-tolerant 2. The failure of just one drive will result in all data in an array being lost 3. Should never be used in mission critical environments Recommended Applications 1. Video Production and Editing 2. Image Editing 3. Pre-Press Applications 4. Any application requiring high bandwidth RAID Level 0 requires a minimum of 2 drives to implement RAID1: Mirroring and Duplexing Characteristics/Advantages 1. One Write or two Reads possible per mirrored pair 2. Twice the Read transaction rate of single disks, same Write transaction rate as single disks 3. 100% redundancy of data means no rebuild is necessary in case of a disk failure, just a copy to the replacement disk 4. Transfer rate per block is equal to that of a single disk 5. Under certain circumstances, RAID 1 can sustain multiple simultaneous drive failures 6. Simplest RAID storage subsystem design Disadvantages 1. Highest disk overhead of all RAID types (100%) - inefficient 2. Typically the RAID function is done by system software, loading the CPU/Server and possibly degrading throughput at high activity levels. Hardware implementation is strongly recommended 3. May not support hot swap of failed disk when implemented in “software” Recommended Applications 1. Accounting 2. Payroll 3. Financial 4. Any application requiring very high availability For Highest performance, the controller must be able to perform two concurrent separate Reads per mirrored pai