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
Features and Specifications
The external design of the Hitachi 7K1000 is the same as the majority of the TK or K series drives. The drive is based on the industry standard 3.5" form factor platform with the pertinent part number and warranty information embossed on a white sticker on the top of the casing. Our OEM sample was graciously provided by Dell and does not include this information, but looking at the retail label we did not miss anything of importance. The only other differences between the OEM and retail units is the inclusion of an accessory cable kit, HD Feature Tool software (that can be downloaded separately), and the obligatory retail box.
The Deskstar 7K1000 ships with Serial ATA data and power connectors along with a 4-pin Molex power connector designed for use with older ATX power supplies. Our OEM unit did not contain the 4-pin Molex power connector, but the retail model has it. The 32MB of cache memory and controller logic is located on the outer side of the PCB with the same components being utilized on each version of the drive. Our retail drive arrived with firmware revision GKA0A51D compared to GKA0A51C. We did not notice any measurable differences in performance between the two drives.
The Hitachi Deskstar 7K1000 is the first 1TB drive to ship based upon manufacturer's specifications with a 750GB offering scheduled for release in the upcoming weeks. Of course the actual capacity of the drive is 931.5GB, but due to the way manufacturers report capacity the drive is considered to be a 1TB offering. If we want to be technically accurate, 1TB = 1,000,000,000,000 bytes and 1TiB (Tebibyte) = 1,099,511,627,776, so the formatted capacity is 931.5GiB (Gibibytes). This drive is also Hitachi's first 3.5" hard drive to use PMR technology. Additional 1TB versions for the Enterprise and DVR/Set-Top markets will be released later this year.
The 7K1000 features a 5-platter/10-head perpendicular magnetic recording design with rotational speeds of 7200 RPM. The cache size has been increased to 32MB from the previous 16MB on the TK series. Hitachi includes their ramp load/unload, advanced low-power idle modes, and thermal-fly height control technologies. This drive series also supports Native Command Queuing and hot-swap capabilities. The Hitachi Deskstar 7K1000 drives ship with a three year warranty and additional specifications can be found here.
The Hitachi 7K1000 drives we are reviewing today will be compared directly against the WD WD1500AHFD 150GB drives in RAID 0 with a limited benchmark test suite. Our stripe size is set to the recommended default in the NVIDIA driver set, which in this case is 64KB. We fully understand that different stripe and allocation sizes may result in possible improvements in performance based upon the application being tested, but testing these aspects is beyond the scope of this article.
We have also included a subset of drive results from our previous articles and will provide additional RAID 0+1 and 5 results of the 7K1000 in our upcoming RAID performance overview that will also feature Intel chipsets and hardware controllers. Today's article also contains results in our iPeak and Application benchmarks with AAM on / NCQ on as the default score and AAM off / NCQ on as the alternate score for the 7K1000. In a couple of benchmarks we noticed results with AAM off / NCQ off provided additional performance increases of around 1% but our recommendation with the drive is to leave AAM and NCQ on for the best blend of performance and acoustics.
The external design of the Hitachi 7K1000 is the same as the majority of the TK or K series drives. The drive is based on the industry standard 3.5" form factor platform with the pertinent part number and warranty information embossed on a white sticker on the top of the casing. Our OEM sample was graciously provided by Dell and does not include this information, but looking at the retail label we did not miss anything of importance. The only other differences between the OEM and retail units is the inclusion of an accessory cable kit, HD Feature Tool software (that can be downloaded separately), and the obligatory retail box.
The Deskstar 7K1000 ships with Serial ATA data and power connectors along with a 4-pin Molex power connector designed for use with older ATX power supplies. Our OEM unit did not contain the 4-pin Molex power connector, but the retail model has it. The 32MB of cache memory and controller logic is located on the outer side of the PCB with the same components being utilized on each version of the drive. Our retail drive arrived with firmware revision GKA0A51D compared to GKA0A51C. We did not notice any measurable differences in performance between the two drives.
Hard Drive Specifications | |||
Hitachi Deskstar 7K1000 1000GB HDS721010KLA330 | Seagate Barracuda 7200.10 750GB ST3750640AS | Western Digital Raptor 150GB WD1500ADFD | |
Manufacturer's Stated Capacity: | 1000.2GB (1TB/Terabyte) |
750GB | 150GB |
Operating System Stated Capacity: | 931.5 GB | 698.6 GB | 139.73 GB |
Interface: | SATA 3Gb/s | SATA 3Gb/s | SATA 1.5Gb/s |
Rotational Speed: | 7,200 RPM | 7,200 RPM | 10,000 RPM |
Cache Size: | 32 MB | 16 MB | 16 MB |
Average Latency: | 4.17 ms (nominal) | 4.16 ms (nominal) | 2.99 ms (nominal) |
Read Seek Time: | 8.5 ms / 14ms Silent | 11 ms | 4.6 ms |
Number of Heads: | 10 | 8 | 4 |
Number of Platters: | 5 | 4 | 2 |
Power Draw Idle / Load: | 8.1W / 12.8W | 9.3W / 12.6W | 9.19W / 10.02W |
Power Draw Silent I / L: | 4.3W / 9.9W | - | - |
Command Queuing: | Native Command Queuing | Native Command Queuing | Native Command Queuing |
Warranty: | 3 Year - Retail or OEM | 5 Year - Retail or OEM | 5 Year - Retail or OEM |
The Hitachi Deskstar 7K1000 is the first 1TB drive to ship based upon manufacturer's specifications with a 750GB offering scheduled for release in the upcoming weeks. Of course the actual capacity of the drive is 931.5GB, but due to the way manufacturers report capacity the drive is considered to be a 1TB offering. If we want to be technically accurate, 1TB = 1,000,000,000,000 bytes and 1TiB (Tebibyte) = 1,099,511,627,776, so the formatted capacity is 931.5GiB (Gibibytes). This drive is also Hitachi's first 3.5" hard drive to use PMR technology. Additional 1TB versions for the Enterprise and DVR/Set-Top markets will be released later this year.
The 7K1000 features a 5-platter/10-head perpendicular magnetic recording design with rotational speeds of 7200 RPM. The cache size has been increased to 32MB from the previous 16MB on the TK series. Hitachi includes their ramp load/unload, advanced low-power idle modes, and thermal-fly height control technologies. This drive series also supports Native Command Queuing and hot-swap capabilities. The Hitachi Deskstar 7K1000 drives ship with a three year warranty and additional specifications can be found here.
The Hitachi 7K1000 drives we are reviewing today will be compared directly against the WD WD1500AHFD 150GB drives in RAID 0 with a limited benchmark test suite. Our stripe size is set to the recommended default in the NVIDIA driver set, which in this case is 64KB. We fully understand that different stripe and allocation sizes may result in possible improvements in performance based upon the application being tested, but testing these aspects is beyond the scope of this article.
We have also included a subset of drive results from our previous articles and will provide additional RAID 0+1 and 5 results of the 7K1000 in our upcoming RAID performance overview that will also feature Intel chipsets and hardware controllers. Today's article also contains results in our iPeak and Application benchmarks with AAM on / NCQ on as the default score and AAM off / NCQ on as the alternate score for the 7K1000. In a couple of benchmarks we noticed results with AAM off / NCQ off provided additional performance increases of around 1% but our recommendation with the drive is to leave AAM and NCQ on for the best blend of performance and acoustics.
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MadAd - Saturday, April 21, 2007 - link
<quote>Sorry but saving even 5 secs out of 10, 5 times a day is not work the extra money to me</quote>I take it you dont play battlefield 2 then. Having just two or three seconds advantage on each mapchange can mean the difference between a round flying a jet or helo, or a few seconds later watching everyone else fly off and being left with a humvee (if you are very lucky) or nothing at all.
Of course not all games have this problem however with bf2 when there are 32 players a side and only 2 jets each then its the quickest in that gets first picks, and if it takes running raid 0 just to pick up that extra second or two, then so be it.
ShadowdogKGB - Saturday, April 21, 2007 - link
My four little Hitachi 80gigs in R0 will load the single player Daging Oilfields in 18-20 seconds. Hows that for real world performance. Or maybe somebody from the church of the anti-raid can explain that away for me. My point of contention from this article is that the author went out of his way to denigrate the concept of raid. And another point is that you don't buy a 1 terabyte hard drives just to put them in raid, and especially put them in raid 0. These babies are for storage. You're definitely are not going to want 2 Terabytes of data sitting on a fragile Raid 0. No, this article is just plain skewed. Now there's gonna be a bunch of knuckle heads pointing to these benchmarks and saying "See? See? I told you so!" Yeah, HL2 Lost Coast. That's not even a real game. And The Sims2? Oh please. Yeah that's real world performance figures right there. Bleh. I'm no programmer or mathematician but I could have done a more decent article on this subject than this amateur.Axbattler - Friday, April 20, 2007 - link
I do not buy the 'extra money' argument that much (**). It's not like performance is the only (*possible) gain from striping two drives. The second drive get you extra capacity, and as long as people choosing to go RAID-0 are using the extra space, then they are not paying a financial premium over buying two drives and running them separately (unless they need to purchase a RAID controller). To me, the main cost from going RAID-0, is the added risk in case of failure.* Though I am in the school of thought that RAID-0, do not provide significant performance boost in the majority of the cases, I do find gains more often than penalties (from overhead).
Regarding from the article results, I am not surprised by the game loading results. I do, however suspect that the performance benefit of RAID-0 may be more noticeable in XP boot up time however (whether that is important enough, I'll shrug to it. Not my cash).
The file copy result make me wonder if there is not a bottleneck elsewhere though.
7.55 *1024 / 100 = 77.312 MB/sec on average. That's the transfer rate of a single drive.
** I do make an exception to people stripping Raptor's. I can't think of many desktop users who have enough 'performance sensive' applications (OS, apps, games - as opposed to multimedia files for instance) they use regularly - so much that they would need a second Raptor in the same rig. I do suspect that those users are really going for the bragging right rather than the 'free performance'.
Lastly, I wonder if RAM Disks, in their current form, are really faster the fastest SCSI drives at loading games. I seem to remember benchies of i-RAM some time ago showing it to edge the 150GB Raptor by not that much.
Griswold - Thursday, April 19, 2007 - link
Absolutely agree. The only winner is the storage industry.gramboh - Thursday, April 19, 2007 - link
No kidding, been waiting for the Seagate for a while. It will also be nice to see 250GB platters (x4) on a 1TB drive. I'm running 2x 7200.10 500's right now and am happy with them. I'd like 1TB to come out to push drive costs down so I use a few for external back-up.BoberFett - Thursday, April 19, 2007 - link
Anybody who stripes drives of this size is asking to lose a lifetime's worth of data. Even assuming it's data than can be reassembled such as ripped or downloaded music and movies, the time required to reassemble that data is pretty significant.goinginstyle - Thursday, April 19, 2007 - link
Glad to see you guys still telling it like it is with RAID 0. I am just waiting on the comments to come in from people who swear it lets them operate their systems at light speed. This drive seems to be really nice but I will wait for the Seagate 1TB to come out before making an upgrade decision. When is it coming out?Gary Key - Thursday, April 19, 2007 - link
The Seagate 1TB drives are due out in four to six weeks according to the last information we had from them.