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IBM 86605SU Maintenance Manual - Page 112

Logical Drive list., Example 1., Enter.

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The size of a logical drive is determined by several factors, but the size must be divisible by the number of data drives in the array. A logical drive in an array can be any size you choose within the size limitations of the array. Consider the following examples: Example 1. The array consists of three 1 GB drives.2 You assign RAID level 0, which uses all the drives in the array with no redundant or parity storage; then, you type 1 . The number 999 will appear in the Size (MB) field because it is the number closest to and lower than 1000 that is divisible by 3. Example 2. The array consists of three 1 GB drives. You assign RAID level 1, which provides disk mirroring and stripes data across all drives in the array. Because the data is mirrored, the capacity of the logical drive is 50% of the physical capacity of the hard disk drives grouped in the array. If you type 1 , the number 999 will appear in the Size (MB) field. The physical capacity used is 2000 MB, twice that of the logical drive size. The number that is closest to and lower than 2000 that is divisible by 3 is 1998. The logical drive size is 999 MB, which is 50% of the physical capacity. Example 3. The array consists of three 1 GB drives and you assign RAID level 5. Data is striped across all three drives in the array, but the space equivalent to that of one drive is used for redundant storage. Therefore, if you type 1 , the number 1000 remains in the Size (MB) field because it is divisible by 2 (drives), which is the space available for data. The physical capacity used is 1500 MB. 4. Type the size, in megabytes, that you want for the logical drive; then, press Enter. 5. When the Confirm pop-up window appears, select Yes; then, press Enter. Information about the new logical drive appears in the Logical Drive list. If you did not use all of the available free space, you can create another logical drive. You can assign the same or a different RAID level to additional logical drives. 6. When a message appears, stating that all logical drives must be initialized, press any key to continue. 2 When referring to hard disk drive capacity, MB stands for 1 000 000 bytes and GB stands for 1 000 000 000 bytes. Total user-accessible capacity may vary depending on operating environments. Netfinity 5500 - Type 8660 107

Section	Page
About This Manual	3
Important Safety Information	3
Online Support	4
General Checkout	12
Diagnostic Tools	15
Diagnostic Programs	15
Power-on Self Test (POST)	16
POST Beep Codes	16
Error Messages	17
Diagnostic Programs	18
Features	20
Additional Service Information	22
Administration and Monitoring Utility Program	23
Configuring the Ethernet Controller	60
Configuring Options	62
Configuration Overview	63
Configuration/Setup Utility Program	65
Configuring ISA and PCI Adapters	66
Failover for Redundant Ethernet	67
Netfinity System Management Processor	70
Resolving Configuration Conflicts	78
ServeRAID Configuration Program	79
Software Installation	79
Specifications	80
Starting the ServeRAID Configuration Program	82
Status LEDs	84
Understanding Disk Array Technology	86
Using the Advanced Configuration Functions	94
Using the Configuration/Setup Utility Main Menu	96
Using the ServeRAID Configuration Program	106
Using the ServeRAID Mini-Configuration Program	142
Locations	146
Adapters	147
Battery Replacement	152
Before You Begin	155
Changing Jumper Positions	156
Completing the Installation	159
Controls and Indicators	163
CD-ROM Drive	166
DASD Backplane Removal	168
Diagnostics Panel LEDs	169
External Options	170
Front Bezel Removal	177
Hot-Plug PCI Adapter Installation	178
Hot-Swap Power Supply Installation	186
Hot-Swap Power Supply Removal	190
Hot-Swap Fan Assembly	192
Information LED Panel	194
Information Panel Cover Removal	196
Information Panel LED Assembly Removal	197
Input/Output Connectors and Expansion Slots	199
Interior LED and Speaker Assembly	201
Internal Drive Installation	202
Installing Devices in the NetBAY3	214
Memory-Module Kits	219
Microprocessor Kit	222
Preparing to Install Options	225
Power Backplane Removal	227
Power Supplies	229
Power Supply Filler Plate	230
NetBAY3 Bezel Installation	231
Processor Board Component Locations	232
Processor Board Jumpers	234
Processor Board Removal	236
Rack Installation	237
SCSI Backplane Component Locations	253
SCSI Backplane Option Jumpers	254
Server Cabling	255
Server Door and Trim Bezels Removal	256
Shuttle Removal	257
Side Cover(s) Removal	258
System Board Component Locations	259
System Board Jumpers	261
System Board Removal	263
Top Cover Removal	266
Voltage Regulator Card Removal	267
Symptom-to-FRU Index	268
Beep Symptoms	268
No Beep Symptoms	271
Control Panel System Error LED	271
Diagnostic Error Codes	274
Error Symptoms	277
Power Supply LED Errors	278
POST Error Codes	280
SCSI Error Codes	285
ServeRAID II Controller Error Codes/Messages	286
System Board LEDs	290
System Board SCSI LEDs	290
Undetermined Problems	291
Parts Listing (Type 8660)	293
System	294
Hard Disk Drives and Cables	300
Keyboards	301
Power Cords	302
Safety Information	305
General Safety	305
Electrical Safety	306
Safety Inspection Guide	307
Handling Electrostatic Discharge-Sensitive Devices	309
Grounding Requirements	309
Send Us Your Comments!	335
Problem Determination Tips	336
Phone Numbers, U.S. and Canada	337

Match case Limit results 1 per page

The size of a logical drive is determined by several

factors, but the size must be divisible by the number

of data drives in the array.

A logical drive in an array

can be any size you choose within the size limitations

of the array.

Consider the following examples:

Example 1.

The array consists of three 1 GB

drives.

You assign RAID level 0, which uses all

the drives in the array with no redundant or

parity storage; then, you type

1²²².

The

number 999 will appear in the Size (MB) field

because it is the number closest to and lower

than 1000 that is divisible by 3.

Example 2.

The array consists of three 1 GB

drives.

You assign RAID level 1, which provides

disk mirroring and stripes data across all drives

in the array.

Because the data is mirrored, the

capacity of the logical drive is 50% of the

physical capacity of the hard disk drives grouped

in the array.

If you type

1²²²,

the number 999

will appear in the Size (MB) field.

The physical

capacity used is 2000 MB, twice that of the

logical drive size.

The number that is closest to

and lower than 2000 that is divisible by 3 is

1998.

The logical drive size is 999 MB, which is

50% of the physical capacity.

Example 3.

The array consists of three 1 GB

drives and you assign RAID level 5.

Data is

striped across all three drives in the array, but

the space equivalent to that of one drive is used

for redundant storage.

Therefore, if you type

1²²²,

the number 1000 remains in the Size (MB)

field because it is divisible by 2 (drives), which is

the space available for data.

The physical

capacity used is 1500 MB.

Type the size, in megabytes, that you want for the

logical drive; then, press

Enter.

When the Confirm pop-up window appears, select

Yes

; then, press

Enter.

Information about the new logical drive appears in the

Logical Drive list.

If you did not use all of the

available free space, you can create another logical

drive.

You can assign the same or a different RAID

level to additional logical drives.

When a message appears, stating that all logical

drives must be initialized, press any key to continue.

When referring to hard disk drive capacity, MB stands for

1 000 000

bytes

and

stands

for

1 000 000 000

bytes. Total

user-accessible capacity may vary depending on operating

environments.

Netfinity 5500 - Type 8660

107