Used vs. New Performance: Revisited

Nearly all good SSDs perform le sweet when brand new. None of the blocks have any data in them, each write is performed at full speed, all is bueno. Over time, your drive gets written to, all blocks get occupied with data (both valid and invalid) and now every time you write to the SSD its controller has to do that painful read modify write and cleaning.

In the Anthology I simulated this worst used case by first filling the drive with data, deleting the partition, then installing the OS and running my benchmarks. This worked very well because it filled every single flash block with data. The OS installation and actual testing added a few sprinkles of randomness that helped make the scenario even more strenuous, which I liked.

The problem here is that if a drive properly supports TRIM, the act of formatting the drive will erase all of the wonderful used data I purposefully filled the drive with. My “used” case on a drive supporting TRIM will now just be like testing a drive in a brand new state.

To prove this point I provide you with an example of what happens when you take a drive supporting TRIM, fill it with data and then format the drive:

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

 

Oh look, performance doesn’t really change. The cleaning process takes longer now but other than that, the performance is the same.

So, I need a new way to test. It’s a shame because I’m particularly attached to the old way I tested, mostly because it provides a very stressful situation for the drives to deal with. After all, I don’t want to fool anyone into thinking a drive is faster than it is.

Once TRIM is enabled on all drives, the way I will test is by filling a drive after it’s been graced with an OS. I will fill it with both valid and invalid data, delete the invalid data and measure performance. This will measure how well the drive performs closer to capacity as well as how well it can TRIM data.

Unfortunately, no drives properly support TRIM yet. The beta Indilinx firmware with TRIM support works well, unless you put your system to sleep. Then there’s a chance you might lose your data. Woops. There’s also the problem with Intel’s Matrix Storage Manager not passing TRIM to your drives. All of this will get fixed before the end of the year, but it’s just a bit too early to get TRIM happy.

What we get today is the first stage of migrating the way we test. In order to simulate a real user environment I take a freshly secure erased drive, install Windows 7 x64 on it (no cloning, full install this time), then install drivers/apps, then fill the remaining space on the drive and delete it. This fills the drive with invalid data that the drive must keep track of and juggle, much like what you'd see by simply using your system.

I’m using the latest IMSM driver so TRIM doesn’t get passed to the drives; I’m such a jerk to these poor SSDs.

I’ll start look at both new and used performance on the coming pages. Once TRIM gets here in full force I’ll just start using it and we won't have to worry about looking at new vs. used performance.

The Test

CPU Intel Core i7 965 running at 3.2GHz (Turbo & EIST Disabled)
Motherboard: Intel DX58SO (Intel X58)
Chipset: Intel X58
Chipset Drivers: Intel 9.1.1.1015 + Intel IMSM 8.9
Memory: Qimonda DDR3-1066 4 x 1GB (7-7-7-20)
Video Card: eVGA GeForce GTX 285
Video Drivers: NVIDIA ForceWare 190.38 64-bit
Desktop Resolution: 1920 x 1200
OS: Windows 7 x64
Tying it All Together: SSD Performance Degradation Intel's X25-M 34nm vs 50nm: Not as Straight Forward As You'd Think
Comments Locked

295 Comments

View All Comments

  • drsethl - Monday, March 15, 2010 - link

    Hi,

    just to add to the chorus of praise: this is a superbly informative article, thank you for all the effort, and I hope that it has paid off for you, as I'm sure it must have.

    My first question is this. Is it possible to analyse a program while you're using it, to see whether it is primarily doing sequential or random writes? Since there seems to be a quite clear difference between the Intel X25m 80gb and the OCZ vertex 120gb, which are the natural entry-level drives here, where the Intel works better for random access, the vertex for sequential, it would be very useful to know which I would make best use of.

    Second question: does anyone know whether lightroom in particular is based around random or sequential writes? I know that a LR catalog is always radically fragmented, which suggests presumably that it is based around random writes, but that's just an uninformed guess. It does have a cache function, which produces files in the region of 3-5mb in size--are they likely to be sequential?

    Third question: with photoshop, is it specifically as a scratch disk that the intel x25m underperforms? Or does photoshop do other sequential writes, besides those to the scratch disk? I ask because if it only doesn't work as a scratch disk, then that's not a big problem--anyone using this in a PC is likely to have a decent regular HDD for data anyway, so the scratch disk can just be sent there. In fact, I've been using a vertex 120gb, with a samsung spinpoint f3 500gb on my PC, and I found that with the scratch disk on the samsung I got better retouch artists results (only by about half a second, but that's out of 14 seconds, so still fairly significant).

    Thanks in advance to anyone who might be able to answer, and thanks again Anand for such an informative read.

    Cheers
    Seth
  • drsethl - Friday, July 9, 2010 - link

    Hi again,

    just to report back, since writing the previous comment I have bought both drives, vertex and intel (the original vertex 128gb, and the intel g2 x25m). While the Intel does perform better in benchmarks, the difference in general usage is barely noticeable. Except when using lightroom 3, when the intel is considerably slower than the vertex. I'm using a canon 550d, which produces 18mpx pictures. When viewing a catalogue for the first time (without any pre-created previews), the intel takes on average about 20s to produce a full scale 1:1 preview. This is infuriating. The vertex takes about 8s. Bear in mind that i've got 4gb of 1333mhz ram, intel i7 q720 processor, ati 5470 mobility radeon graphics. So it's not the most powerful laptop in the world, but it's no slouch either. I can only conclude that when LR3 makes previews it does large sequential writes, and that the considerable performance advantage of the vertex on this metric alone suddenly becomes very important. With which in mind, I'm now going to sell the Intel and buy a vertex 2e, which will give the best of both worlds. But I'm sure there are lots of photographers out there wondering about this like I was, so hopefully this will help.
    cheers,
    Seth
  • jgstew - Friday, October 8, 2010 - link

    I believe you are correct about the LR Catalog being mostly random writes, but I don't think this is a performance concern since the Catalog is likely stored in RAM for reads, and written back to the drive when changes are made that affect the Catalog, which is not happening all the time.

    As for the generating previews and Photoshop scratch disk, this is going to be primarily sequential since it is generating the data one at a time and writing it to disk completely. If LR was generating multiple previews for multiple photos simultaneously and writing them simultaneously, then you would have heavy fragmentation of the cache, and more random writes.

    Any SSD is going to give significant performance benefit over spindle HD when it comes to random read/write/access. Sequential performance is the man concern with Photos/Video/Audio and similar data in most cases.

    One thing you might consider trying is having more than one SSD, or doing this if you upgrade down the road. Have the smaller SSD with fast sequential read/write act as the cache disk for LR/Photoshop/Others and have the other SSD be the boot drive with all the OS/Apps/etc. This way other things going on in the system will not effect the cache disk performance, as well as speed up writes from boot ssd to cache disk, and back.
  • ogreinside - Monday, December 14, 2009 - link

    After spending all weekend reading this article, 2 previous in the trilogy, and all the comments, I wanted to post my thanks for all of your hard work. I've been ignoring SSDs for a while as I wanted to see them mature first. I am in the market for a new Alienware desktop, but as the wife is letting me purchase only on our Dell charge account, I have a limited selection and budget.

    I was settled on everything except the disks. They are offering the Samsung 256SSD, which I believe is the Samsung PM800 drive. The cost is exactly double that of the WD VelociRaptor 300 GB. So naturally I have done a ton of research for this final choice. After exploring your results here, and reading comments, I am definitely not getting their Samsung SSD. I would love to grab an Intel G2 or OCZ Indilinx, but that means real cash now, and we simply can't do that yet. The charge account gives us room to pay it off at 12-month no-interest.

    So at this point I can get a 2x WD VR in raid 0 to hold me over for a year or so when I can replace (or add) a good SSD. My problem is that I have seen my share issues with raid 0 on an ICH controller on two different Dell machines (boot issues, unsure of performance gain). In fact, using the same drives/machine, I saw better random read performance (512K) on a single drive than the ICH raid, and 4k wasn't far behind. I'm thinking I may stick to a single WD VR for now, but I really want to believe raid0 would be better.

    So, back on topic, it would be nice to see the ICH raid controller explored a bit, and maybe add a raid0 WD VR configuration to your next round of tests.

    (CryastalDiskMark 2.2)
    Single-drive 7200 rpm g:
    Sequential Read : 123.326 MB/s
    Sequential Write : 114.957 MB/s
    Random Read 512KB : 55.793 MB/s
    Random Write 512KB : 94.408 MB/s
    Random Read 4KB : 0.861 MB/s
    Random Write 4KB : 1.724 MB/s

    Test Size : 100 MB
    Date : 2009/12/09 2:03:4

    ICH raid0:
    Sequential Read : 218.909 MB/s

    Sequential Write : 175.]347 MB/s
    Random Read 512KB : 51.884 MB/s
    Random Write 512KB : 135.466 MB/s
    Random Read 4KB : 1.001 MB/s
    Random Write 4KB : 2.868 MB/s

    Test Size : 100 MB
    Date : 2009/12/08 21:45:20
  • marraco - Friday, August 13, 2010 - link

    Thumbs up for the ICH10 petition. It's the most common RAID controller on i7.

    Also, I would like to see different models of SSD in RAID (For example one intel raided with one Indilinx).

    I suspect that performance with SSD scales much better that with older technologies. So I want to know if makes sense to buy a single SSD, and wait for prices to get cheaper at the time of upgrade. The problem is that as prices get cheaper, old SSD models are no more available.
  • aaphid - Friday, November 27, 2009 - link

    OK, I'm still slightly confused. It seems that running the wipe/trim utility will keep the ssd in top condition but it won't run on a Mac. So are these going to be a poor decision for use in a Mac?
  • ekerazha - Monday, October 26, 2009 - link

    Anand,

    it's strange to see your

    "Is Intel still my overall recommendation? Of course. The random write performance is simply too good to give up and it's only in very specific cases that the 80MB/s sequential write speed hurts you."

    of the last review, is now a

    "The write speed improvement that the Intel firmware brings to 160GB drives is nice but ultimately highlights a bigger issue: Intel's write speed is unacceptable in today's market."
  • ekerazha - Monday, October 26, 2009 - link

    Ops wrong article
  • mohsh86 - Tuesday, October 13, 2009 - link

    am 23 years old computer engineer..

    this is the most awesome informative article ever read !
  • Pehu - Tuesday, October 13, 2009 - link

    First of all, thanks for the article. It was superb and led to my first SSD purchase last week. Installed the intel G2 yesterday and windows 7 (64 bit) with 8 G of RAM. A smooth ride I have to say :)

    Now, there is one question I have been trying to find an answer:

    Should I put the windows page file (swap) to the SSD disk or to another normal HD?

    Generally the swap should be behind other controller than your OS disk, to speed things up. However, SSD disks are so fast that there is a temptation to put the swap on OS disk. Also, one consideration is the disk age, does it preserve it longer if swap is moved away from SSD.

    Also what I am lacking is some general info about how to maximise the disk age without too much loss of speed, in one guru3d article instructions were given as:

    * Drive indexing disabled. (useless for SSD anyway, because access times are so low).
    * Prefetch disabled.
    * Superfetch disabled
    * Defrag disabled.

    Any comments and/or suggestions for windows 7 on that?

    Thanks.

Log in

Don't have an account? Sign up now