Posted: January 19th, 2009 | Author: Gregg | Filed under: Mac, Tech | Tags: custom built pc, evolution, gaming, home pc, Mac, overclocking, pc, your desktop, your hardware | 2 Comments »
I recently built a high-performance media-center/gaming PC and it got me thinking. I think it’d be cool to document the timeline of our desktop/home computers.
Here is mine, please leave a comment with your timeline (what you can remember anyways), as I’m curious to see what the readers are/have been using.
~1996 -Acer Familiy Computer – 100Mhz, 16 MB RAM, 1 GB Hard Drive
~1999 -HP Pavilion (My first computer) – 500Mhz Celeron, 196 MB RAM, 10 GB Hard Drive, Geforce 400 MX
~2002 -Alienware Area 51M Gaming Laptop – 2.4GHz P4, 512 MB RAM, 40 GB Hard Drive, Radeo 7500 64MB
~2003 -Custom Built Desktop to replace HP, AMD Athlon XP 2200+, 512 MB RAM, 40GB Hard Drive, Geforce 5200FX 128MB
~2006 -Macbook 1.83GHz Core 2 Duo, 2GB Ram, 160GB Hard Drive
~2007 -Custom Built Desktop to replace last custom – 2.4GHz Core 2 Duo, 4 GB RAM, 2x – 320GB Hard Drives, 2x Geforce 7600 GT OC
~2008 -Mac Mini 1.83GHz Core 2 Duo, 1GB RAM, 80GB Hard Drive
~2008 -Custome Built Desktop for media center/Gaming – 3.33GHz Core 2 Duo running at 4GHz 24/7, 8GB RAM, 320GB Hard Drive, 3x Geforce GTX260 Core 216 Superclocked Edition 896MB RAM/each
The evolution is great to look at, please follow the same format as I am interested to see the evolution for the readers of this blog.
Posted: January 19th, 2009 | Author: Gregg | Filed under: Linux, Tech | Tags: centos, centos software raid 5, centos software raid 6, Linux, nas, network storage, raid, raid 5, raid 6, raid5, raid6, setup raid, setup software linux raid, setup software raid, storage, tb | 1 Comment »
I have always wanted to setup a NAS to house all of my data in one location, and now the price/GB is affordable enough for me to live the dream. Christmas Day I was sitting on the computer thinking that a NAS would be a good project to close out 08′, so I purchased the following:
7 – Western Digital 1TB Hard drvies
2 – PCI Sata Controllers with 4x internal SataII ports each
3 GB RAM
I decided to use my 2nd desktop computer that I’ve owned.
Purchased in 03′ here are the specs:
AMD Athlon XP 2200+ 1.8GHz
4 PCI Slots
That’s all you need to know about that PC. So I get all of the hard drives setup in the new case and create a rat’s nest of sata and molex connectors.
Most geeks will tell you that you should definitely go with hardware raid controllers because it takes the load off of the CPU and the performance is much better. I decided to go with software RAID6 because I am not a conformist.
Just kidding here are my reasons for software RAID over Hardware:
-Most modern CPUs can handle the RAID operations with ease
-Hardware RAID controller failure results in you having to obtain the exact model and firmware ver. for your data to come back
-My application is not write or read intensive. The highest load I can see on the NAS will be burning a DVD image over the network while having several other users in the house stream high-def media, while VPN users access the data. So a max of 40MB/s-ish. Should be nothing for the gigabit network here.
Here is the breakdown to setup a raid.
1. Install all hardware and confirm it is recognized by the cards/bios
2. Boot to your favorite .NUX distro
3. Setup your main boot drive with the common partitioning scheme. 1x 100MB /Boot, 2x RAM Swap, / with rest of HD space on OS drive
4. Boot up, yum -y update
5. Remote in and fdisk -l to verify that everything is there, then dmesg to make sure there are no issues.
6. fdisk /dev/sda, specify type (Linux RAID Autodetect), type n for new, primary partition, enter, enter…Wait for the inode goodness
7. yum install mdadm
8. man mdadm and read
9. Setup your raid with the mdadm command, specify spare drives, block size (64k or 128k shoud do), and RAID level. I went with RAID6 for dual redundancy. So my 7 drives ended up being ~4.5TB of usuable space.
10. After you run the mdadm command the RAID will sync up and initialize. You can use the drives while they are syncing, but they will operate in a degradated state.
11. Wait about 15 hours in my case for the RAID to initialize, then check dmesg to see if you have any errors. Also ‘cat /proc/mdstat’ to see the status of your RAID.
12. Setup Samba, nfs, ftp, whatever you want to give your (l)users access to the data.
If you have any issues with RAID, leave a comment and I’ll email you to help. I had many issues over the course of this RAID fiasco that I’ve learned from.
Final Say: If you must go software RAID, use at least a P4 Core 2 Duo processor.