Super Talent SSD: 16GB of Solid State Goodness
by Gary Key on May 7, 2007 4:00 AM EST- Posted in
- Storage
Hardware Setup
We are utilizing an Intel QX6700 quad core CPU to ensure we are not CPU limited in our test results. A 2GB memory configuration is standard in our XP test bed as most enthusiasts are currently purchasing this amount of memory. Our choice of high-range OCZ Flex XLC PC2-9200 memory offers a very wide range of memory settings with timings of 3-4-3-9 for our benchmark results. The target platform for the Super Talent drive is unlikely to have such high-end features, but at the very least we can be certain that we won't be bottlenecked elsewhere during our initial tests with an SSD. Our video tests are run at 1280x1024 resolutions for this article at High Quality settings. All of our tests are run in an enclosed case with a dual optical/hard drive setup to reflect a moderately loaded system platform. Windows XP SP2 is fully updated and we load a clean drive image for each platform to keep driver conflicts to a minimum.
The drive is formatted before each test run and five 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 Intel ICH8R SATA ports along with the latest Intel Matrix Storage driver to ensure consistency in our playback results when utilizing NCQ or RAID settings.
We are not reviewing the Super Talent 16GB SSD directly against the Seagate Momentus 7200.2 or the Western Digital WD1500 Raptor as this drive is marketed for the commercial and industrial sectors. We utilized these two drives to show results from the highest performing hard disk drives in the consumer notebook and near-enterprise desktop markets.
We will be providing test results with consumer based SSD units from Samsung and SanDisk in the near future that feature up to 67MB/sec read speeds and 45MB/sec write speeds along with a random read rate of 7000 inputs/outputs per second (IOPS) for a 512-byte transfer - more than 100 times faster than a hard disk drive. These upcoming reviews will also include a Windows Vista desktop platform, Intel's soon to be released Santa Rosa notebook platform, and a new test suite designed to take advantage of these new technologies. As such today's test results are more of an indicator to show strengths and weaknesses of the initial SSD units that are likely to end up in the commercial, industrial, or rugged device markets.
Standard Test Bed Test Application Results |
|
Processor | Intel QX6700 - 2.66GHz Quad Core |
Motherboard | DFI Infinity 965-S |
RAM | 2 x 1GB OCZ Reaper PC2-9200 Settings - DDR2-800, 3-4-3-9 |
OS Hard Drive | 1 x Western Digital WD1500 Raptor - 150GB |
System Platform Drivers | Intel 8.1.1.1010 Intel Matrix RAID 6.2.1.1002 |
Video Card | 1 x MSI 8800GTX (Liquid Cooled) |
Video Drivers | NVIDIA ForceWare 158.19 |
Optical Drive | Plextor PX-760A, Plextor PX-B900A |
Cooling | Tuniq 120 |
Power Supply | OCZ GameXStream 850W |
Case | Cooler Master CM Stacker 830 |
Operating System | Windows XP Professional SP2 |
We are utilizing an Intel QX6700 quad core CPU to ensure we are not CPU limited in our test results. A 2GB memory configuration is standard in our XP test bed as most enthusiasts are currently purchasing this amount of memory. Our choice of high-range OCZ Flex XLC PC2-9200 memory offers a very wide range of memory settings with timings of 3-4-3-9 for our benchmark results. The target platform for the Super Talent drive is unlikely to have such high-end features, but at the very least we can be certain that we won't be bottlenecked elsewhere during our initial tests with an SSD. Our video tests are run at 1280x1024 resolutions for this article at High Quality settings. All of our tests are run in an enclosed case with a dual optical/hard drive setup to reflect a moderately loaded system platform. Windows XP SP2 is fully updated and we load a clean drive image for each platform to keep driver conflicts to a minimum.
The drive is formatted before each test run and five 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 Intel ICH8R SATA ports along with the latest Intel Matrix Storage driver to ensure consistency in our playback results when utilizing NCQ or RAID settings.
We are not reviewing the Super Talent 16GB SSD directly against the Seagate Momentus 7200.2 or the Western Digital WD1500 Raptor as this drive is marketed for the commercial and industrial sectors. We utilized these two drives to show results from the highest performing hard disk drives in the consumer notebook and near-enterprise desktop markets.
We will be providing test results with consumer based SSD units from Samsung and SanDisk in the near future that feature up to 67MB/sec read speeds and 45MB/sec write speeds along with a random read rate of 7000 inputs/outputs per second (IOPS) for a 512-byte transfer - more than 100 times faster than a hard disk drive. These upcoming reviews will also include a Windows Vista desktop platform, Intel's soon to be released Santa Rosa notebook platform, and a new test suite designed to take advantage of these new technologies. As such today's test results are more of an indicator to show strengths and weaknesses of the initial SSD units that are likely to end up in the commercial, industrial, or rugged device markets.
44 Comments
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Samus - Monday, May 7, 2007 - link
Simply awesome, thanks for the review Gary. This is exciting technology for sure. Only took them 20 years to make it cost effective and reasonably good storage.redbone75 - Monday, May 7, 2007 - link
I would say SSD's have a few more years to go before they become cost effective, in the home consumer market, anyway. That market will be very small until the price/GB becomes more reasonable.Lonyo - Monday, May 7, 2007 - link
Is there any chance for comparison of some 1.8" drives in the future?Since 1.8" mechanical drives are somewhat slower than 2.5 or 3.5" mechanical drives, and 1.8" laptops are looking at things like low power consumption, it would be nice to see, assuming you can get hold of some 1.8" drives of both types.
Reflex - Monday, May 7, 2007 - link
These drives are great in an embedded or manufacturing environment. Typically they are not written to frequently so you will never hit the write limitations. As a desktop PC drive however that write limitation could be hit very quickly, within a year even. Furthermore, having worked with these drives extensively in embedded environments, I will point out that when the write limitation is hit, you can no longer read the device either. Since there is no real warning, you simply suddenly lose access to all data on that drive.Solid state storage is the future, but not in the form of today's flash. The write limitation is severe, and very problematic. There are competing technologies that hopefully will show up sooner rather than later.
falc0ne - Monday, May 7, 2007 - link
"The SSD16GB25/25M features a read seek time of less than 1ms, a maximum read/write speed of up to 28 MB/sec, a sustained transfer rate of 25 MB/sec, and an estimated write/erase cycle of approximately 100,000 cycles. This equates into a 1,000,000 hour MTBF rating and indicates a 10 year life expectancy based upon normal usage patterns. Super Talent has developed a set of proprietary wear leveling algorithms along with built in EDD/EDC functions to ensure excellent data integrity over the course of the drive's lifespan."This passage tells a completely different story..
mongo lloyd - Monday, May 7, 2007 - link
Dan at Dansdata.com has said the exact same things as Reflex here for quite a while, and I tend to believe him more than SuperTalent's PR department.Also, as Reflex points out, NAND flash has usually way more than 100,000 write/erase cycles. 1 million cycle is not too uncommon.
Regular CompactFlash memory (previously NOR flash, nowadays NAND flash) can take up to the same order of magnitude of write/erase cycles, and we all know memory cards for digital cameras have quite a finite life. And that's without putting a paging file on them.
PandaBear - Thursday, May 10, 2007 - link
It depends on what kind of Nand. MLC usually can barely hit 100k for good ones (i.e. Toshiba and SanDisk) while 5k for bad ones (i.e. some batch of Samsung that got rejected and they have to dump in the spot market).For a camera, you will have to wear out your camera's shutter before you can wear out the card, but for HD, you better have very good wear leveling and good nand before even attempting).
Gary Key - Monday, May 7, 2007 - link
The manufacturer's are taking a conservative path with the write/erase cycles per sector and it has been difficult to nail them down on it. The latest information I have from SanDisk as an example is that the non-recoverable error rate is 1 error per 10 to the 20th bits read on their current drives but they have not committed to active duty cycles or power-on hours in arriving at that calculation. The majority of the SSD suppliers are focused on MTBF ratings at this time. We will have further details in our consumer article as I expect Samsung to open up on the subject.PandaBear - Thursday, May 10, 2007 - link
Nand don't wear out by sitting around, they wear out by erase/program permanently or read disturb (recoverable just by a rewrite). So MTBF is meaningless. You have to do a lot of reading continuously in order to wear out by read. Actually there are algorithms that protect such cases already by refreshing it, so no harm is done.It is the write that really kills the sector, and Samsung did not mention its erase/program for a reason: they failed their own spec that many reputable clients rejected their order (i.e Sandisk rejected their order from Samsung MLC, and Apple uses excessive recovery algorithm to tolerate them on the audio playback, those Taiwanese cheap flash that you get for free with super slow performance or die after 2 weeks, well, you know what you will get when you open up the case).
For their SSD, they may use SLC instead for the performance and reliability reason. It costs 20% more in spot market, but manufacturing cost is much higher (almost 2x when you think about it), so it will cost more.
Reflex - Monday, May 7, 2007 - link
First off, 100,000 is a VERY VERY low write rating for flash, typical drives nowadays have 250k+ write cycles.Secondly, as pointed out by the article, the intended market is industrial and embedded, which as I stated originally, is an environment where the drives are rarely written to. Typically you have a bootable image in those environments, and it is write protected in some fashion, or requires a very small number of writes.
And finally, if you think 100k write cycles is a lot, watch the drive light on the front of your PC someday. Every flash is a minimum of one write or read operation. Calculate how many times that flashes in ten minutes of 'typical' use. Then extrapolate. You'll understand what I mean.