Users Guide
Table Of Contents
- Dell Lifecycle Controller GUI v2.70.70.70 User's Guide
- Contents
- Introduction
- Using Lifecycle Controller
- Operating system deployment
- Monitor
- Hardware inventory view and export
- About view and export current inventory
- About view and export factory-shipped inventory
- Viewing hardware inventory — current or factory shipped
- Exporting hardware inventory — current or factory shipped
- Viewing or exporting hardware inventory after part replacement
- Viewing or exporting current inventory after resetting Lifecycle Controller
- Lifecycle Controller log
- Firmware update
- Configure
- System control panel access options
- Configuring iDRAC
- Configuring system time and date
- Configuring vFlash SD card
- Configuring RAID
- Configuring RAID using software RAID
- Creating a secure virtual disk on a RAID controller
- Key encryption
- Local key encryption mode
- Breaking mirrored drives
- System setup — Advanced Hardware Configuration
- Collect system inventory on restart
- Configuring local FTP server
- Configuring a local USB drive
- Configuring NFS and CIFS servers
- Conditions while configuring HTTP / HTTPS server
- Maintain
- Platform restore
- Backup server profile
- Export server profile
- Import server profile
- Import server license
- Part replacement configuration
- Repurpose or retire system
- Hardware diagnostics
- SupportAssist Collection
- Easy-to-use system component names
- Using the system setup and boot manager
- Troubleshooting and frequently asked questions
● To delete all data on the physical disk drives containing the foreign configuration, click Clear Foreign Configuration. This
option deletes the hard-disk drive space containing the foreign configuration and makes it available for use in a new virtual
drive.
After selecting one of the above options, click Next.
Viewing current RAID configuration
The View Current RAID Configuration and Select Controller page displays the attributes of any virtual disks already
configured on the supported RAID controllers attached to the system. You have two options:
● Accept the existing virtual disks without changing. To select this option, click Back. If you have to install the operating
system on an existing virtual disk, make sure that the virtual disk size and RAID level are correct.
● Use the RAID configuration wizard to delete all the existing virtual disks and create a single new virtual disk to be used as
the new boot device. To select this option, click Next.
NOTE: RAID 0 does not provide data redundancy and hot spare. Other RAID levels provide data redundancy and enable
you to reconstruct data in the event of a disk-drive failure.
Selecting a RAID controller
The View Current RAID Configuration and Select Controller page displays all supported RAID controllers attached to the
system. Select the RAID controller on which you want to create the virtual disk, and then click Next.
Selecting RAID levels
Select a RAID Level for the virtual disk:
● RAID 0 — Stripes data across the physical disks. RAID 0 does not maintain redundant data. When a physical disk fails in a
RAID 0 virtual disk, there is no method for rebuilding the data. RAID 0 offers good read and write performance with zero
data redundancy.
● RAID 1 — Mirrors or duplicates data from one physical disk to another. If a physical disk fails, data can be rebuilt using the
data from the other side of the mirror. RAID 1 offers good read performance and average write performance with good data
redundancy.
● RAID 5 — Stripes data across the physical disks, and uses parity information to maintain redundant data. If a physical
disk fails, the data can be rebuilt using the parity information. RAID 5 offers good read performance and slower write
performance with good data redundancy.
● RAID 6 — Stripes data across the physical disks, and uses two sets of parity information for additional data redundancy. If
one or two physical disks fail, the data can be rebuilt using the parity information. RAID 6 offers good data redundancy and
read performance but slower write performance.
● RAID 10 — Combines mirrored physical disks with data striping. If a physical disk fails, data can be rebuilt using the mirrored
data. RAID 10 offers good read and write performance with good data redundancy.
● RAID 50 — A dual-level array that uses multiple RAID 5 sets in a single array. A single physical disk failure can occur in
each of the RAID 5 without any loss of data on the entire array. Although the RAID 50 has increased write performance, its
performance decreases, data or program access gets slower, and transfer speeds on the array are affected when a physical
disk fails and reconstruction takes place.
● RAID 60 — Combines the straight block level striping of RAID 0 with the distributed double parity of RAID 6. The system
must have at least eight physical disks to use RAID 60. Failures while a single physical disk is rebuilding in one RAID 60 set do
not lead to data loss. RAID 60 has improved fault tolerance because more than two physical disks on either span must fail for
data loss to occur.
NOTE: Depending on the type of controllers, some RAID levels are not supported.
Minimum disk requirement for different RAID levels
Table 11. RAID level and number of disks
RAID Level Minimum Number of Disks
0 1*
Configure 45