Hitachi Deskstar 7K1000 in RAID 0: Is Two Terabytes really better than One?
by Gary Key on April 19, 2007 12:15 AM EST- Posted in
- Storage
Hardware Setup
Our current test bed reflects a common level system that has been in use for a year now. Based upon the continuing proliferation of dual core processors and future roadmaps from AMD and Intel signifying new chipset and processor designs, we will revise our test bed shortly to reflect these changes in the marketplace. This change will also allow us to expand our real world multitasking benchmarks in the near future while providing a stable platform for the next few months. We are currently conducting preliminary benchmark testing under Vista with both 2GB and 4GB memory configurations. We will offer real-world Vista benchmarks once the driver situation matures but iPeak results will continue to be in XP as the application is not compatible with Vista.
Test Setup - Software
With the variety of disk drive benchmarks available, we needed a means of comparing the true performance of the hard drives in real world applications. While we will continue to utilize HDTach and PCMark05 for comparative benchmarks our logical choice for application benchmarking is the Intel iPeak Storage Performance Toolkit version 3. We originally started using this storage benchmark application in our Q2 2004 Desktop Hard Drive Comparison. The iPeak test can be designed to measure "pure" hard disk performance, and in this case we kept the host adapter consistent while varying the hard drive models. The idea is to measure the performance of individual hard drives with a consistent host adapter.
We utilize the iPeak WinTrace32 program to record precise I/O operations when running real world benchmarks. We then utilize the iPeak AnalyzeTrace program to review the disk trace file for integrity and ensure our trace files have properly captured the activities we required. Intel's RankDisk utility is used to play back the workload of all I/O operations that took place during the recording. RankDisk generates results in a mean service time in milliseconds format; in other words, it gives the average time that each drive took to fulfill each I/O operation. In order to make the data more understandable, we report the scores as an average number of I/O operations per second so that higher scores translate into better performance in all of our iPeak results. While these measurements will provide a score representing "pure" hard drive performance, the actual impact on the real world applications can and will be different.
The drive is formatted before each test run and three tests are completed on each drive in order to ensure consistency in the benchmark results. The high and low scores are removed with the remaining score representing our reported result. We utilize the NVIDIA nF4 SATA ports along with the NVIDIA IDE-SW driver to ensure consistency in our playback results when utilizing NCQ, TCQ, or RAID settings. We will test with AAM and NCQ turned on with our Deskstar 7K1000 unit as AAM does not noticeably impact performance and this drive generally performs better with NCQ on in the majority of tests.
Our iPeak tests represent a fairly extensive cross section of applications and usage patterns for both the general and enthusiast user. We will continually tailor these benchmarks with an eye towards the drive's intended usage and feature set when compared to similar drives. In essence, although we will report results from our test suite for all drives, it is important to realize a drive designed for PVR duty will generate significantly different scores in our gaming benchmarks than a drive designed with gaming in mind such as the WD Raptor. This does not necessarily make the PVR drive a bad choice for those who capture and manipulate video while also gaming. Hopefully our comments in the results sections will offer proper guidance for making a purchasing decision in these situations. Our iPeak Test Suite consists of the following benchmarks.
VeriTest Business Winstone 2004: trace file of the entire test suite that includes applications such as Microsoft Office XP, WinZip 8.1, and Norton Antivirus 2003.
VeriTest Multimedia Content Creation 2004: trace file of the entire test suite that includes applications such as Adobe Photoshop 7.01, Macromedia Director MX 9.0, Microsoft Windows Media Encoder 9.0, Newtek Lightwave 3D 7.5b, and others.
AVG Antivirus 7.1.392: trace file of a complete antivirus scan on our test bed hard drive.
Microsoft Disk Defragmenter: trace file of the complete defragmentation process after the operating system and all applications were installed on our test bed hard drive.
WinRAR 3.51: trace file of creating a single compressed file consisting of 444 files in 10 different folders totaling 602MB. The test is split into the time it takes to compress the files and the time it takes to decompress the files.
File Transfer: individual trace files of transferring the Office Space DVD files to our source drive and transferring the files back to our test drive. The source and test drives are the same make and model for these tests. The content being transferred consists of 29 files with a content size of 7.55GB.
AnyDVD 5.9.6: trace file of the time it takes to "rip" the Office Space DVD. We first copy the entire DVD over to our source drives, defragment the drive, and then measure the time it takes for AnyDVD to "rip" the contents to our test drive. While this is not ideal, it does remove the optical drive as a potential bottleneck during the extraction process and allows us to track the write performance of the drive.
Nero Recode 2: trace file of the time it takes to shrink the entire Office Space DVD that was extracted in the AnyDVD process into a single 4.5GB DVD image.
Game Installation: individual trace files of the time it takes to install Sims 2 and Battlefield 2. We copy each DVD to our secondary test drives, defragment the drive, and then install each game to our source drive.
Game Play: individual trace files that capture the startup and about 15 minutes of game play in each game. The Sims 2 trace file consists of the time it takes to select a pre-configured character, setup a university, downtown, business from each expansion pack (pre-loaded), and then visit each section before returning home. Our final trace file utilizes Battlefield 2 and we play the Daqing Oilfield map in both single and multiplayer mode.
| Standard Test Bed Playback of iPeak Trace Files and Test Application Results |
|
| Processor: | AMD Opteron 175 utilized for all tests. |
| RAM: | 2 x 1GB Corsair 3500LL PRO Settings: DDR-400 at (2.5-3-3-7, 1T) |
| OS Hard Drive: | 1 x Western Digital WD1500 - SATA - 16MB Buffer - 10,000RPM |
| System Platform Drivers: | NVIDIA Platform Driver - 6.85 |
| Video Card: | 1 x ASUS 7600GS (PCI Express) for all tests. |
| Video Drivers: | NVIDIA nForce 84.21 WHQL |
| Optical Drive: | BenQ DW1640 |
| Cooling: | Zalman CNPS9500 |
| Power Supply: | OCZ GameXStream 700W |
| Case: | Gigabyte 3D Aurora |
| Operating System: | Windows XP Professional SP2 |
| Motherboard: | MSI K8N Diamond Plus |
Our current test bed reflects a common level system that has been in use for a year now. Based upon the continuing proliferation of dual core processors and future roadmaps from AMD and Intel signifying new chipset and processor designs, we will revise our test bed shortly to reflect these changes in the marketplace. This change will also allow us to expand our real world multitasking benchmarks in the near future while providing a stable platform for the next few months. We are currently conducting preliminary benchmark testing under Vista with both 2GB and 4GB memory configurations. We will offer real-world Vista benchmarks once the driver situation matures but iPeak results will continue to be in XP as the application is not compatible with Vista.
Test Setup - Software
With the variety of disk drive benchmarks available, we needed a means of comparing the true performance of the hard drives in real world applications. While we will continue to utilize HDTach and PCMark05 for comparative benchmarks our logical choice for application benchmarking is the Intel iPeak Storage Performance Toolkit version 3. We originally started using this storage benchmark application in our Q2 2004 Desktop Hard Drive Comparison. The iPeak test can be designed to measure "pure" hard disk performance, and in this case we kept the host adapter consistent while varying the hard drive models. The idea is to measure the performance of individual hard drives with a consistent host adapter.
We utilize the iPeak WinTrace32 program to record precise I/O operations when running real world benchmarks. We then utilize the iPeak AnalyzeTrace program to review the disk trace file for integrity and ensure our trace files have properly captured the activities we required. Intel's RankDisk utility is used to play back the workload of all I/O operations that took place during the recording. RankDisk generates results in a mean service time in milliseconds format; in other words, it gives the average time that each drive took to fulfill each I/O operation. In order to make the data more understandable, we report the scores as an average number of I/O operations per second so that higher scores translate into better performance in all of our iPeak results. While these measurements will provide a score representing "pure" hard drive performance, the actual impact on the real world applications can and will be different.
The drive is formatted before each test run and three tests are completed on each drive in order to ensure consistency in the benchmark results. The high and low scores are removed with the remaining score representing our reported result. We utilize the NVIDIA nF4 SATA ports along with the NVIDIA IDE-SW driver to ensure consistency in our playback results when utilizing NCQ, TCQ, or RAID settings. We will test with AAM and NCQ turned on with our Deskstar 7K1000 unit as AAM does not noticeably impact performance and this drive generally performs better with NCQ on in the majority of tests.
Our iPeak tests represent a fairly extensive cross section of applications and usage patterns for both the general and enthusiast user. We will continually tailor these benchmarks with an eye towards the drive's intended usage and feature set when compared to similar drives. In essence, although we will report results from our test suite for all drives, it is important to realize a drive designed for PVR duty will generate significantly different scores in our gaming benchmarks than a drive designed with gaming in mind such as the WD Raptor. This does not necessarily make the PVR drive a bad choice for those who capture and manipulate video while also gaming. Hopefully our comments in the results sections will offer proper guidance for making a purchasing decision in these situations. Our iPeak Test Suite consists of the following benchmarks.
VeriTest Business Winstone 2004: trace file of the entire test suite that includes applications such as Microsoft Office XP, WinZip 8.1, and Norton Antivirus 2003.
VeriTest Multimedia Content Creation 2004: trace file of the entire test suite that includes applications such as Adobe Photoshop 7.01, Macromedia Director MX 9.0, Microsoft Windows Media Encoder 9.0, Newtek Lightwave 3D 7.5b, and others.
AVG Antivirus 7.1.392: trace file of a complete antivirus scan on our test bed hard drive.
Microsoft Disk Defragmenter: trace file of the complete defragmentation process after the operating system and all applications were installed on our test bed hard drive.
WinRAR 3.51: trace file of creating a single compressed file consisting of 444 files in 10 different folders totaling 602MB. The test is split into the time it takes to compress the files and the time it takes to decompress the files.
File Transfer: individual trace files of transferring the Office Space DVD files to our source drive and transferring the files back to our test drive. The source and test drives are the same make and model for these tests. The content being transferred consists of 29 files with a content size of 7.55GB.
AnyDVD 5.9.6: trace file of the time it takes to "rip" the Office Space DVD. We first copy the entire DVD over to our source drives, defragment the drive, and then measure the time it takes for AnyDVD to "rip" the contents to our test drive. While this is not ideal, it does remove the optical drive as a potential bottleneck during the extraction process and allows us to track the write performance of the drive.
Nero Recode 2: trace file of the time it takes to shrink the entire Office Space DVD that was extracted in the AnyDVD process into a single 4.5GB DVD image.
Game Installation: individual trace files of the time it takes to install Sims 2 and Battlefield 2. We copy each DVD to our secondary test drives, defragment the drive, and then install each game to our source drive.
Game Play: individual trace files that capture the startup and about 15 minutes of game play in each game. The Sims 2 trace file consists of the time it takes to select a pre-configured character, setup a university, downtown, business from each expansion pack (pre-loaded), and then visit each section before returning home. Our final trace file utilizes Battlefield 2 and we play the Daqing Oilfield map in both single and multiplayer mode.
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Pirks - Thursday, April 19, 2007 - link
call it a waste after you lose a terabyte of data because you hdd died on ya, until then - move alongyyrkoon - Thursday, April 19, 2007 - link
BTW, those of us who are truely serious about their data, do not keep the data stored on HDD alone. Tape, offsite, optical, choose your poison.Pirks - Friday, April 20, 2007 - link
for me number one reason for data loss was ALWAYS hdd failure, those caviars that click to death. I've never experienced data loss for any other reason. hence my natural impulse is to put two hdds in mirror raid - this eliminates most potent threat. and striping only doubles it, plus striping only slows things down when you copy big files (video mux/demux and stuff like that) so for me its mirror only (plus extra drive to speed up file copies a LOT)yyrkoon - Thursday, April 19, 2007 - link
If you are smart about how you use your HDDs, you will have no need, BUT if it makes you feel all warm and fuzzy inside, more power to you. The rest of us, who live in reality, and have HDDs much older than 10 years old, still functional, know better.Pirks - Friday, April 20, 2007 - link
yeah, I have 80 gig wd that I bought I forgot when, 5 years ago? maybe more... it's hot and noisy but looks like it's immortal. however, I wish ALL hdds were like this one. which they are not, unfortunately. those who experienced dead hdds (without doing anything special, just hdd that suddenly dies on you after a couple of years of excellent service) know better than youmlambert890 - Thursday, April 19, 2007 - link
it's not hundreds of dollars, its not insane, and you are wrong. its really kind of amusing that people are "debating" the basic premise of if a stripe set yields better read performance as if this were some new invention newly discovered and untested!Boushh - Thursday, April 19, 2007 - link
Well, maybe not hunderds of dollars (I agree that putting two of these 1 TB drive in RAID 0 is not very usefull) but if you go down the price list you can buy 2 320 Gb drives and put them in RAID 0. They are not expensive, and I know from my own experience that it realy makes a difference. All disk based activity is a lot faster than it would be on a single drive.I've may OS and my games on the RAID 0, and it realy helps speeding things up. So when the price is right RAID 0 is the way to speed up disk activity.
DigitalFreak - Thursday, April 19, 2007 - link
*sigh*mlambert890 - Thursday, April 19, 2007 - link
sigh all you want, but this is not up for debate. Many of us spend all day every day building and operating RAID systems. maybe for you, one article from anand that confirms some weird bias you have is sufficient. for those of us with 20+ years of doing this, the benefits of multiple spindles really dont need to be retested, and reproven, to make yet another generation feel cozy.synthetic benchmarks arent operating in some alternate reality. if whatever you are doing on your pc involves moving large, linear, blocks of data then you will benefit from a throughput boost clearly. in this case, a stripe set will yield quantitative benefit.
for many, loading something (even a game) seconds faster has value. esp since raid 0 has become a complete commodity. pointless article really, and pointless comments from the clueless. raid 0 has been written about and analyzed by smarter poeople with better measurement tools for decades. maybe people should try using common sense and broadening their google searches (that is if collecting their own real world experience is too much trouble)
OrSin - Thursday, April 19, 2007 - link
I got 20 years plus experience working in server farms and Raid is great from 0 to 5.With that said desktop raid dont do crap. I have over 10 systems in my house most on the extra same hardware. I tested Raid 0 and raid 5 and the difference in transfer speed even from GB switchs in less then 8%. Sorry but unless the maps or levels are just sitting in cache it don't do anything. Most of the delay is in seek time and Raid dont improve that at all. In fact I beleive it slows it (no proof). Please with all your experience the desktop and Server space is very different. Also remember SCSI raids improve seek time alot. I think if SATA hardware raids improve then raiding desktop might help.
PS
What are people doing they they even need a 50% improvement in hardrive speed on a desktop? Load levels and map? Sorry but saving even 5 secs out of 10, 5 times a day is not work the extra money to me. CPU, Ram, and Video cards scale so much better. You want the speed make a ram disk. :)