Flash SSDs Tested
Source: Tom's Hardware – Keywords: ssd, hdd, battery
Flash SSDs Tested
We looked at four different flash SSDs and added a 2.5” 7,200 RPM conventional hard drive for the sake of comparison. We deliberately selected this hard drive as it delivers high performance and also requires more power than most other drives. If we were to repeat this comparison and use a 5,400 RPM 2.5” drive instead, the flash based SSDs would probably look even worse.
Crucial SSD, 32 GB
Crucial’s SSD offering is called the CT32GBFAB0, and offers 32 GB or 64 GB of capacity within a 2.5” form factor. As you will see in the benchmarks, this isn’t the fastest flash SSD. Crucial sells the 32 GB version for $749.99 and the 64 GB model for $1,399.99. Both are SATA/150 drives and we found the 32 GB model to be an excellent performer: it reached a read throughput of 124 MB/s, which is even more than what Memoright delivers. However, write performance decreases to less than 60 MB/s, while Memoright maintains an impressive 120 MB/s — of course, the Memoright drives also are clearly more expensive. Crucial failed on us in the PCMark05 application benchmark, where it finished last when the benchmark simulates Windows XP startup.
Crucial provides a five-year warranty for this product, which gives you some comfort when spending so much money. However, the device only reached an average performance score in Mobilemark 07, and after replacing the Hitachi 7K200 7,200 RPM notebook hard drive by the Crucial SDD, our battery runtime decreased from seven hours and three minutes to six hours and three minutes.
Users who purchase this drive because of Crucial’s statements such as “low power consumption” and the product being ideal for “users who want longer battery life” will most likely be disappointed. While the total battery runtime certainly depends on the workload — we used Mobilemark 07 — the minimum and maximum power consumption measurements prove that Crucial’s statements of low power consumption are in fact wrong: 1.6 W idle power is more than any 2.5” notebook hard drive requires.
- Previous page More Issues with Ultra-Compact Form...
- Next page Memoright MR25.5-032S, 32 GB
- Energy-Saving Hard Drives
- Comparative Component Charts
- Memoright SSDs: The End of Hard Drives?
- Samsung Continues To Lead In NAND Flash Market
- Sharkoon Quickport – SATA Hard Disk Jockey
- Four-Way USB Stick Shootout – Miniature Storage Giants
- Momentus 5400 FDE.2: Data Encryption On-a-Drive
- Finding The World's Best Hardware Prices: Shop Globally
- Spinpoint F1: Samsung Overtakes With a Bang
- TravelStar 7K200 and 5K250 Beat the Band
My only complaint would be that it would have been much better to have also tested some comparable MLC units and compared those to a 5400rpm drive. Not all people who use laptops heavily on the go are stinking rich, so it would have been interesting to compare the more mainstream solutions in a similar face-off.
Numbers were calculated badly and ain't work a broken penny.
Take a better look at page 12 and you will see that Memoright flash based PC gets >2x the amount of work done befor going out of juice comparing to hdd based laptop.
What more, it does it in shorter time. It goes out of juice quicker, because cpu and other laptop components are working hard because there are no stalls from hdd access time.
Want to get apples to apples comparision? Try a benchmark where there's X to do and after that laptop goes into idle state for the rest of test. Flash based devices will win this one easily (and then again, they will finish the bloody task much faster and that's what most of us are looking for)
Numbers were calculated badly and ain't worth a broken penny.
Now I can't tell if it is better to get SSD or HDD laptop for school, where most of the time, the computer is idle as I listen to the teachers.
What really matters I think is the power comsumtion per let's say a 100MB of data written and read. SSD consume more power during writing operations to the flash cells as compared to the reading operations. HDDs consume a lot of power with the accelerating of the heads during random reads/writes.. (emE)
First of all it's totally unacceptable to have this title and making such accusations about a "Hoax" when all but one of your graphs talk about performance and only one measures the "battery life". If you want to prove a "hoax" you need to perform all the battery life tests you can and then more.
Now to the real important stuff. Since I didn't know anything about your benchmark program I couldn't be sure how it works and I was unable to prove you wrong about your conclusion.
Going to http://www.bapco.com/techdocs.html I found the white paper for Mobilemark 2007. Under paragraph 2.5.2 Battery life rating methodology I read: "The benchmark generates battery life ratings as its principal metric. The battery life rating in MobileMark 2007 is measured in minutes. This metric reflects the number of minutes the system can remain operational while executing a chosen module. Each module will produce a different battery life rating, reflecting differences in system loading."
Everything ok until now. Each module should accommodate different usage patterns. And it continues: "The battery life is established by recording the start time of the benchmark, then repeatedly performing the workload. When the remaining battery capacity has fallen to 7% the benchmark records a timestamp once per minute. Once the battery has been depleted and the computer plugged in and rebooted, the benchmark compares the “start” timestamp and last recorded (“end” ) timestamp. The battery life rating is the number of minutes between these timestamps."
Did you notice the important detail? "REPEATEDLY performing the workload". Well my friend, this is the reason your conclusion is completely off base. It is proved and accepted the SSD drives are faster (on average) than conventional Hard Disk Drives. Even your graphs prove this fact. However when you test the battery life by repeating the same workload again and again you force the system to perform more cycles of the same workload when the SSD is used compared to the HDD because most tasks in the workload wait for the hard disk to finish a task to move to the next. So unless you tell us how many times the workload was repeated by each configuration you can't compare the battery life times...
That’s why the DVD playback test is so popular in battery life tests. It makes sure the computer will perform the same work per x amount of time. So please explain to me why you didn't publish the results of the "DVD2007: Battery Life" and the "Reader 2007: Battery Life" modules which are part of the MobileMark2007 as I see at the paragraph "3.0 MobileMark 2007 Scoring Methodology" in the white paper.
I suggest you change your title and publish more tests on the subject. Not only your graphs were wrong, your logic is flawed too.
The only way to explain those results would be what he said.
The principle is: even if a SSD uses more power during "active" operation, it does so for a fraction of the time required by a regular spinning disk.
For example:
SSD - writing 100MB, uses 3 Watts, takes 1 second, totaling 3 Watts.
HD - writing 100MB, uses 2 Watts, takes 2 seconds, total = 4 watts.
In that case, SSD still (and will almost always) win over rotating HD.
(Not to mention the fact that under normal operations, and HD will be using a lot more power moving the heads back and forth, as multiple programs request their data - something that will be a lot less of an issue in SSDs and their "instant" readback.
Do another test, run a CPU & Drive intensive task on a regular basis (every 5 mins or so) and them come up with some times.
For example:
SSD - writing 100MB, uses 3 Watts, takes 1 second, totaling 3 Watts.
HD - writing 100MB, uses 2 Watts, takes 2 seconds, total = 4 watts.
---
the idea is good but the result is erroneous.
Watts are a unit of power. Power has units of energy/time
A watt is defined as a Joule/second
so if you are dissipating 2 watts for one second, you consume 2 Joules of energy. If you dissipate 2 watts for two seconds you consume 4 Joules of energy.
---
A few criticisms of the report:
1) the statement of the conclusion was broader than supported by the data presented. A more accurate conclusion would be that the results reported were for the small sampling of drives tested.
2) there is a wide range of performance and power that can be observed in SSDs. At the two most recent Intel Developer Forums, Intel presented data on several drives and showed how the power dissipation had large differences from drive to drive. Not surprisingly, Intel's drives showed the best performance and power profile.
It would have been a more credible report had one of the Intel drives been tested since they claim it is best in class.
I am not surprised to see big differences in performance from one vendor to the other, particularly when one considers that the technology is relatively immature. In my experience it often takes a few generations of design to really have optimal performance.
Consumer affordable high performance SSDs based on NAND flash haven't been around for very long so I would submit the controller designs that essentially establish the performance of the drives, are at a lower level of maturity than are other elements in the system.
I'd expect to see significant improvements in the power profile in the next few quarters/years.
findings?! Look at the last graph under Energy Consumption [Watts], the
conventional Hitachi HDD chews more power at idle and under load then
2 of the flash based HDDs! Granted the Hitachi conventional HDD
probably has better power saving features than the current flash based
HDDs but in general flash based HDDs do have better power consumption,
the last graph shows that! Usually the power saving features of a HDD are
written in the driver or software that is available sold with the drive or easily downloaded from the manufacturer's website! Are the right drivers and software being used on these drives? Correct me if I'm wrong it is not stated what software/driver these drives are using! I have a feeling if the Dell laptop they were using was purchased with a flash HDD already installed and the apropriate software/driver pre-installed on the laptop the results would be a lot different! Being that they are new technology XP or Vista's standard drivers probably don't have any power saving features coded in the driver!