Final Words

We’ve become complacent. In today’s world of netbooks and nettops where performance is cast aside, we’ve let far too much slide. The bar of acceptability is too low. A good SSD is the anti-netbook, it is the most believable proof that PCs aren’t fast enough today. We don’t need good enough, we need orders of magnitude of performance improvement. And that's exactly what a good SSD can deliver today.

The performance improvement isn't limited to high end machines. In fact, some of the most perceivable differences in performance are on lower end machines, netbooks and nettops. The combination of a slow CPU and a slow hard drive is horrendous; the SSD allows you to at least alleviate some of the bottleneck in these slower machines. And today we actually have affordable options that make sense to even put in a netbook.

A year ago the market was full of worthless SSDs being sold at a premium. Today, we have two real contenders for the throne: Intel and Indilinx. Let me start with Indilinx.

Indilinx is a company that no one knew a year ago, nor would anyone even begin to trust back then. I remember talking to OCZ about the problems with their JMicron drives and being told that their next-generation drive would have a controller by a new company. They told me the name and I was more than skeptical. JMicron couldn't do it, why would this strangely named new company be able to get it right? Even when I first tested an Indilinx drive I was hopeful but still cautious; it's something I used in my system for a short period, but nothing I would commit to. If you wanted an SSD, Intel was still the only way to go.

When I started writing this article I took a big step. I felt that Indilinx drives had reached the point that their performance was good enough to be considered an Intel alternative. I backed up my X25-M, pulled it out, and swapped in an OCZ Vertex drive - into my personal work system. I've been using it ever since and I must admit, I am happy. Indilinx has done it, these drives are fast, reliable (provided that you don't upgrade to the latest firmware without waiting a while) and are good enough. We'll see how the drive holds up over the coming months but I don't have any regrets at this point.

If you're trying to move to an SSD at the lowest possible cost, there's finally a real alternative to Intel. We also have Indilinx to thank for driving SSD prices as low as they have been. If these drives weren't actually competitive, Intel would have no real motivation to deliver a sub-$300 SSD so quickly.

All of this Indilinx praise brings us to the next heir to the throne: Intel. The X25-M G2 is an evolution of the SSD that started it all, we see some specific but significant performance gains and hints of Intel's strategy moving forward. The G2's real strength lies in the fact that it is the only Intel drive that will support TRIM later this year. While the G1, even in its used state, will outperform an Indilinx drive - the G2's TRIM support will ensure that it's even faster than the G1.

The only bad thing I have to say about the G2 is that it doesn't address Intel's only weakness: sequential write speed. While on average the G2 is a better performer than the Indilinx drives in real world use, there are distinct situations where it falls behind.

I should also take this time to chastise Intel for absolutely botching the launch of the drive. I'm not talking about the embarrassing stop-shipment caused by poor validation, I'm talking about the fact that X25-M G2s are still out of stock even as I publish this article. The SSD group at Intel clearly needs to take lessons from the CPU teams: you don't launch product without availability.

Many readers have been emailing me asking what SSD they should get for their new Windows 7 builds, honestly the decision mostly comes down to capacity. Look at this table of prices:

  Price Cost per GB
OCZ Vertex 64GB $219.99 $3.437
Intel X25-M 80GB $279.99 $3.500
OCZ Vertex 128GB $369.00 $2.883
Intel X25-M 160GB $499.99 $3.125
OCZ Vertex 256GB $725.00 $2.832

 

You should buy the largest drive you need/can afford. If you only have 30GB of data on your system, buy the 64GB Indilinx drive. If you have 50GB? Opt for the 80GB Intel drive. Indilinx and Intel seem to complement one another more than compete thanks to differing numbers of flash channels on their controllers resulting in different capacities.

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. Is Indilinx a close runner up? Absolutely. It's truly a lower cost alternative. Am I relieved to be done with this article? You betcha.

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  • nemitech - Monday, August 31, 2009 - link

    opps - not ebay - it was NEWEGG.
  • Loki726 - Monday, August 31, 2009 - link

    Thanks a ton for including the pidgin compiler benchmarks. I didn't think that HD performance would make much of a difference (linking large builds might be a different story), but it is great to have numbers to back up that intuition. Keep it up.
  • torsteinowich - Monday, August 31, 2009 - link

    Hi

    You write that the Indilinx wiper tool collects a free page list from the OS, then wipes the pages. This sounds like a dangerous operation to me since the OS might allocate some of these blocks after the tool collects the list, but before they are wiped.

    Have you received a good explanation for Indilinx about how they ensure file system integrity? As far as i know Windows cannot temporarily switch to read-only mode on an active file system (at least not the system drive). The only way i could see this tool working safely would be by booting off a different media and accessing the file system to be trimmed offline with a tool that correctly identifies the unused pages for the particular file system being used. I could be wrong of course, maybe windows 7 has a system call to temporarily freeze FS writes, but i doubt it.
  • has407 - Monday, August 31, 2009 - link

    It: (1) creates a large temporary file (wiper.dat) which gobbles up all (or most) of the free space; (2) determines the LBA's occupied by that file; (3) tells the SSD to TRIM those LBA's; and then (4) deletes the temporary file (wiper.date).

    From the OS/filesystem perspective, it's just another app and another file. (A similar technique is used by, e.g., sysinternals Windows SDelete app to zero free space. For Windows you could also probably use the hooks used by defrag utilities to accomplis it, but that would be a lot more work.)
  • cghebert - Monday, August 31, 2009 - link

    Anand,

    Great article. Once again you have outclassed pretty much every other site out there with the depth of content in this review. You should start marketing t-shirts that say "Everything I learned about SSDs I learned from AnandTech"

    I did have a question about gaming benchmarks, since you made this statement:

    " but as you'll see later on in my gaming tests the benefits of an SSD really vary depending on the game"

    But I never saw any gaming benchmarks. Did I miss something?
  • nafhan - Monday, August 31, 2009 - link

    Just wanted to say awesome review.
    I've been reading Anandtech since 2000, and while other sites have gone downhill or (apparently) succumbed to pressure from advertisers, you guys have continued to give in depth, critical reviews.
    I also appreciate that you do some real analysis instead of just throwing 10 pages of charts online.
    Thanks, and keep up the good work!
  • zysurge - Monday, August 31, 2009 - link

    Awesome amazing article. So much information, presented clearly.

    Question, though? I have an Intel G2 160GB drive coming in the next few days for my Dell D830 laptop, which will be running Windows 7 x64.

    Do I set the controller to ATA and use the Intel Matrix driver, or set it to AHCI and use Microsoft's driver? Will either provide an advantage? I realize neither will provide TRIM until Q4, but after the firmware update, both should, right?

    Thanks in advance!
  • ggathagan - Wednesday, September 16, 2009 - link

    From page 15 (Early Trim support...):
    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).
  • Mumrik - Monday, August 31, 2009 - link

    but I can't live with less than 300GB on that drive, and SSDs in usable sizes still cost more than high end video cards :-(

    I really hope I'll be able to pick up a 300GB drive for 100-200 bucks in a year or so, but it is probably a bit too optimistic.
  • Simen1 - Monday, August 31, 2009 - link

    This is simply wrong. Ask anyone over 10 years if they think this mathematical statement is true or false. 80 can never equal 74,5.

    Now, someone claims that 1 GB = 10^9 B and others claim that 1 GB is 2^30 B. Who is really right? What does the G and the B mean? Who defines that?

    The answers is easy to find and document. B means Byte. G stands for Giga ans means 10^6, not 2^30. Giga is defined in the international system of units, SI.

    No standardization organization have _ever_ defined Giga to be 2^30. But IEC, International Electrotechnical Commission, have defined "Gi" to 2^30. This is supposed to be used for digital storage so people wont be confused by all the misunderstandings around this. Misunderstandings that mainly comes from Microsoft and quite a few other big software vendors. Companies that ignore the mathematical errors in their software when they claim that 80GB = 74,5 GB, and ignore both international standards on how to shorten large numbers.

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