Early TRIM Support on Indilinx Drives

As I already briefly mentioned, Indilinx has added support for the TRIM instruction in an early firmware for OCZ and Super Talent drives. OCZ calls this firmware 1.42 while Super Talent sticks with the Indilinx label: 1711. Unfortunately, the firmware caused data loss if you put your machine to sleep and has since been pulled from both OCZ and Super Talent's websites.

When it was available, the firmware did work:

SuperTalent UltraDrive GX 1711 4KB Random Write IOPS
Clean Drive 13.1 MB/s
Used Drive 6.93 MB/s
Used Drive After TRIM 12.9 MB/s

 

TRIM is triggered by two things it seems. Either deleting a file and emptying the recycle bin (to truly delete it) or formatting the drive. Simply deleting a partition doesn't TRIM the entire drive as I found out the hard way. During normal use, TRIM should deliver somewhere in the upper 90s in terms of percent of new performance.

There are significant limitations to TRIM at this point. The instruction only works in a supported OS (Windows 7 and some Linux builds) and only with supported drivers. Under Windows 7 that means you have to use a Microsoft made IDE or AHCI driver (you can't install chipset drivers from anyone else).

Unfortunately if you’re running an Intel controller in RAID mode (whether non-member RAID or not), Windows 7 loads Intel’s Matrix Storage Manager driver, which presently does not pass the TRIM command. Intel is working on a solution to this and I'd expect that it'll get fixed after the release of Intel's 34nm TRIM firmware in Q4 of this year.

Impact of Idle Garbage Collection OCZ Gets Clever: Agility vs. Vertex, Even Cheaper Indilinx SSDs
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  • Anand Lal Shimpi - Monday, August 31, 2009 - link

    wow I misspelled my own name :) Time to sleep for real this time :)

    Take care,
    Anand

  • IntelUser2000 - Monday, August 31, 2009 - link

    Looking at pure max TDP and idle power numbers and concluding the power consumption based on those figures are wrong.

    Look here: http://www.anandtech.com/cpuchipsets...px?i=3403&a...">http://www.anandtech.com/cpuchipsets...px?i=3403&a...

    Modern drives quickly reach idle even between times where the user don't even know and at "load". Faster drives will reach lower average power because it'll work faster to get to idle. This is why initial battery life tests showed X25-M with much higher active/idle power figures got better battery life than Samsungs with less active/idle power.

    Max power is important, but unless you are running that app 24/7 its not real at all, especially the max power benchmarks are designed to reach close to TDP as possible.
  • Anand Lal Shimpi - Monday, August 31, 2009 - link

    I agree, it's more than just max power consumption. I tried to point that out with the last paragraph on the page:

    "As I alluded to before, the much higher performance of these drives than a traditional hard drive means that they spend much more time at an idle power state. The Seagate Momentus 5400.6 has roughly the same power characteristics of these two drives, but they outperform the Seagate by a factor of at least 16x. In other words, a good SSD delivers an order of magnitude better performance per watt than even a very efficient hard drive."

    I didn't have time to run through some notebook tests to look at impact on battery life but it's something I plan to do in the future.

    Take care,
    Anand
  • IntelUser2000 - Monday, August 31, 2009 - link

    Thanks, people pay too much attention to just the max TDP and idle power alone. Properly done, no real apps should ever reach max TDP for 100% of the duration its running at.
  • cristis - Monday, August 31, 2009 - link

    page 6: "So we’re at approximately 36 days before I exhaust one out of my ~10,000 write cycles. Multiply that out and it would take 36,000 days" --- wait, isn't that 360,000 days = 986 years?
  • Anand Lal Shimpi - Monday, August 31, 2009 - link

    woops, you're right :) Either way your flash will give out in about 10 years and perfectly wear leveled drives with no write amplification aren't possible regardless.

    Take care,
    Anand
  • cdillon - Monday, August 31, 2009 - link

    I gather that you're saying it'll give out after 10 years because a flash cell will lose its stored charge after about 10 years, not because the write-life will be surpassed after 10 years, which doesn't seem to be the case. The 10-year charge life doesn't mean they become useless after 10 years, just that you need to refresh the data before the charge is lost. This makes flash less useful for data archival purposes, but for regular use, who doesn't re-format their system (and thus re-write 100% of the data) at least once every 10 years? :-)
  • Zheos - Monday, August 31, 2009 - link

    "This makes flash less useful for data archival purposes, but for regular use, who doesn't re-format their system (and thus re-write 100% of the data) at least once every 10 years? :-)"

    I would like an input on that too, cuz thats a bit confusing.
  • GourdFreeMan - Tuesday, September 1, 2009 - link

    Thermal energy (i.e. heat) allows the electrons trapped in the floating gate to overcome the potential well and escape, causing zeros (represented by a larger concentration of electrons in the floating gate) to eventually become ones (represented by a smaller concentration of electrons in the floating gate). Most SLC flash is rated at about 10 years of data retention at either 20C (68F) or 25C (77F). What Anand doesn't mention is that as a rule of thumb for every 9 degrees C (~16F) that the temperature is raised above that point, data retention lifespan is halved. (This rule of thumb only holds for human habitable temperatures... the exact relation is governed by the Arrhenius equation.)

    Wear leveling and error correction codes can be employed to mitigate this problem, which only gets worse as you try to store more bits per cell or use a smaller lithography process without changing materials or design.
  • Zheos - Tuesday, September 1, 2009 - link

    Thank you GourdFreeMan for the additional input,

    But, if we format like every year or so , doesnt the countdown on data retention restart from 0 ? or after ~10 year (seems too be less if like you said temperature affect it) the SSD will not only fail at times but become unusable ? Or if we come to that point a format/reinstall would resolve the problem ?

    I dont care about losing data stored after 10 years, what i do care is if the drive become ASSURELY unsusable after 10 year maximum. For drives that comes at a premium price, i don't like this if its the case.

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