Using raid 5 sub-arrays – Gateway 840 VT-100 User Manual

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Appendix A: Optimizing RAID 5 Write Performance

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To get the highest performance from this system, it is necessary to have a
number of stripes being written in parallel. As the array expands, with more
and more drives, the number of commands (and amount of sequential data)
necessary to do this increases.

In this table we can see that seven chunks of sequential data are necessary to
fill a stripe. To have multiple commands active for all hard drives requires more
data than with five drives. As can be seen, this number will increase as the
number of drives increases. If a large number of drives are used, it can get
difficult to achieve maximum performance, because it becomes more difficult
to cluster a large number of commands to achieve a Full Stripe Write.

Using RAID 5 sub-arrays

The difficulty in realizing the maximum performance possible introduces the
concept of a Sub-Array. Suppose an array consisted of two RAID 5 sets. If these
are then striped, the resulting array would appear as shown in the second of
the following tables. In this case, in order for a Full Stripe Write to be performed,

P (56-62)

C56

C57

C58

C59

C60

C61

C62

Stripe 8

C53

C54

C55

Stripe 7

C46

C47

C48

Stripe 6

C39

C61

C62

Stripe 5

C32

C33

C34

Stripe 4

C24

C25

C26

C27

Stripe 3

P (49-55)

C50

C51

C52

P (42-48)

C43

C44

C45

P (20-23)

C36

C37

C38

P (28-34)

C29

C30

C31

P (21-27)

C22

C23

C17

C18

C19

C20

Stripe 2

P (14-20)

C15

C16

C10

C11

C12

C13

Stripe 1

C3

C4

C5

C6

Stripe 0

P (7-13)

C49

C42

C35

C28

C21

C14

C7

C8

C9

P (0-6)

C0

C1

C2