Monthly Archive: October 2012

Oct 07 2012

Different RAID Configurations

When setting up a new server it’s very important to ensure that you have proper redundancy in place to protect your data and prevent down time. Lots of client asks me how the new server that they bought will protect their data against hard drive failure. The best redundancy option is to configure you server with the correct RAID configuration before you install your Operating System.

All servers has a built in Array Utility that you need to use to enable your RAID configuration depending on the amount of hard drives you have in the server and what performance and speed you require from the server hard drives.

I will explain the most common different RAID configurations that you will use in your new server:


RAID 0 configuration can be used if you require best performance and speed from your hard drives. I do not provide any redundancy and should not be used on any critical system as any hard drive failure will mean data loss. RAID 0 is not used very often because of the risks involved.


Different RAID Configurations

RAID 0 – Blocks striped, No Mirror, No Parity

Important features of RAID 0 Configuration

–          Minimum 2 disks

–          Excellent performance and speed as data blocks are striped

–          NO  redundancy as the data is not mirrored or no parity available

–          ONLY use RAID 0 on a NON-Critical Server


RAID 1 configuration provides excellent redundancy as the data is mirrored between two hard drives. With other words, the one hard drive is always a copy of the other drive and in case of the one drive fails the second drive will take over and all data will be current. This also provides for no down time in the case of hard drive failure.

Different RAID Configurations

RAID 1 – Blocks Mirrored, No Stripe, No Parity

Important features of RAID 1 Configuration

–          Minimum 2 disks

–          Good performance

–          Excellent redundancy because of the data mirror between the two drives


RAID 5 configuration also provide good redundancy but you need to have a minimum of three hard drives. Data gets striped between two of the drives and the third drive is used for parity. This enables excellent read speed from the hard drives but slower write speed because of the parity that needs to be written.


Different RAID Configurations

RAID 5 – Blocks Striped, Distributed Parity

Important features of RAID 5 Configuration

–          Minimum 3 disks

–          Good performance because of strip configuration

–          Excellent redundancy because of the distributed parity between the hard disks


RAID 10 configuration is probably the best RAID configuration because the drives are striped and mirrored and will provide excellent redundancy and excellent performance. It’s also the most expensive RAID configuration as you require a minimum of 4 drives.


Different RAID Configurations

RAID 10 – Blocks Mirrored and Striped

Important features of RAID 10 Configuration

–          Minimum 4 disks

–          Excellent performance because of striped configuration

–          Excellent redundancy because of the mirrored disks

–          Best configuration for any Critical Server if you are willing to pay a little extra

This is the most used RAID configurations, but there is some less popular ones too. You can read more about all the other different RAID configurations here.

Oct 03 2012

Ping returns IPv6 address and not IPv4 address

Some of you might have run into this problem. You want to Ping a server or device to get the IP Address. When you run the Ping command in the command prompt you get this long unknown list of characters as result. This address is the IPv6 address for that specific device.

Why IPv6 you may ask? The sole reason for the switch from the IPv4 protocol to IPv6 protocol is because IPv4 only supports 4.3 billion addresses and with the rate that internet connected devices is multiplying these days something had to be done to prevent us running out of IP addresses. IPv6 was born and support 40,282,366,920 billion billion billion usable addresses.

How do you then see the old IPv4 address when you Ping your server or device that is now IPv6 ready? Just add a “-4” at the end of your Ping command.

C:\ping <hostname> -4

Ping returns IPv6 address and not IPv4 address


Ping returns IPv6 address and not IPv4 address



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