Inside the Drive: 2x Density Flash and more DRAM

We of course had to pop the top and see what's changed inside the drive. As soon as you get the cover off you realize exactly what Intel has done:


The old X25-M G1


The new X25-M G2

Both of these are 160GB drives; Intel is now using 16GB flash packages instead of 8GB packages from the original drive. Once 34nm production really ramps up, Intel could outfit the back of the PCB with 10 more chips and deliver a 320GB drive. I wouldn't expect that anytime soon though.

The controller-side of the PCB looks similar, although Intel stopped using the black goup they used to cover all of the NAND flash contacts of the original drive. I wonder if that was a manufacturing measure or something to prevent competitors from hooking up an oscilloscope to the pins on the flash and reverse engineering the controller...


The old X25-M G1

It could have also been a thermal expansion thing; Microsoft had to use a similar approach to help prevent Xbox 360s from red-ringing.


The new X25-M G2

The new controller comes in the same physical package as the old one:


The old controller


The new controller

The part numbers have changed. The old one was an Intel PC29AS21AA0, the new one is an Intel PC29AS21BA0.

Intel also swapped vendors for the X25-M's on-board DRAM. The old 160GB drive used a 16MB Samsung 166MHz SDRAM (CAS3):


Goodbye Samsung

The new 160GB G2 drive uses a 32MB Micron 133MHz SDRAM (CAS3):


Hello Micron

DRAM size went up, while clock speed went down. I wonder what Intel is doing with all of that additional DRAM on the new drives? Hmm...

Index The Competitors & Pricing
POST A COMMENT

88 Comments

View All Comments

  • has407 - Sunday, July 26, 2009 - link

    Seen the same on a couple sites. Apparently setting a drive password and then trying to change or disable it can cause the drive to become inaccessible. They're also no longer listed on Newegg. Reply
  • Jefrach - Monday, July 27, 2009 - link

    I bought one of these drives from Newegg the day they were released. I just received an email today saying I was getting a refund because they were out of stock and that the item is discontinued. Price was at listed 449. Reply
  • billybob54321 - Saturday, July 25, 2009 - link

    Anand-

    I know application performance is on its way, but I'd love to see individual perforamnce time of actually running applications. The original Intel SSD review focused on copy/launch times whereas I'd be interested in run times of apps after they are launched.

    http://www.anandtech.com/storage/showdoc.aspx?i=34...">http://www.anandtech.com/storage/showdoc.aspx?i=34...

    For example, I do a lot of work in Photoshop CS4 with big RAW files. It's unclear whether the random read/write speed of the Intel drive would be superior to the sequential write of the Vertex drive when working in PS CS4 because the temp files can get into the 100's of megabytes.

    Thanks for your hard work!
    Reply
  • erikejw - Friday, July 24, 2009 - link

    Is this benchmarked in a used state of the drive?
    That is how we all use hard drives so if it is not it is pretty worthless for users.
    Reply
  • Cov - Friday, July 24, 2009 - link

    Here you can find results of someine who tested his SSD (that he just bought)with CrystalDiskMark:

    http://hardforum.com/showthread.php?t=1436928&...">http://hardforum.com/showthread.php?t=1436928&...

    (last posting on that side)
    Reply
  • piasabird - Friday, July 24, 2009 - link

    These performance tests do not tell you anything.
    1. How do they compare when actually running programs in an operating system?
    2. How do they compare to a standard 500gig Hard Drive?

    How are these to be used? Are people planning on using them as hard drive replacements in laptops? What about Heat and cooling requirements like you might mention for RAM or a video card?

    The reason I am asking these questions is Microsoft Windows as an operating system is not designed that well to use these devices, and they dont show much advantage when used in cooperation with a hard drive to boot a computer faster. This seems like much todo about nothing when I can purchase a 320GB Drive for about $100.00.
    Reply
  • evand - Friday, July 24, 2009 - link

    Well, some application benchmarks would be nice. But then, the article is titled "performance preview". If you don't know how to read these numbers and take a guess at what it will mean for you, then don't.

    They compare very, very favorably to a top of the line, high performance hard disk, and you're asking how well they compare to a drive that said high performance disk will eat for breakfast? Seriously, the comparison almost isn't worth making. If you're really curious, find reviews of the disk you want compared to, and see what high performance rotating drives they compared it against (or go see what regular drives that high performance drive was compared against in its reviews).

    People are considering using these on laptops, on desktops as a primary (OS / apps / heavily used data) drive with rotating media for bulk storage, in silent /fanless computers, etc.

    Why do you even need to ask about cooling and heat sinks? It doesn't need them. It draws 150mW of power. Putting heat sinks on it would be ludicrous.

    So what if Windows isn't "designed" to use these disks? It will use them without any problems. Perhaps a more carefully designed OS could eek a bit more out of them, but so what? It should be worlds faster than any rotating media you can compare it to.

    If you want capacity, go buy a 1TB drive to use a secondary data drive for $100, and use one of these for things that care about io performance rather than storage. Splitting your data across the two disks to get both good performance and lots of space isn't exactly hard for the normal desktop usage case.
    Reply
  • evand - Friday, July 24, 2009 - link

    I was discussing these drives with someone who works in the storage industry with Flash technology, but not these specific drives. He had an interesting observation: a lot of flash drives will keep a pool of pre-erased pages available for writing. However, they can't erase new pages fast enough to keep up with the peak random write performance indefinitely. Once the pre-erased pool runs dry, random write performance drops dramatically.

    Is this the case with the new (or old, for that matter) Intel drives? How long a time period do your random write benchmarks run for? Would you be willing to run a random writes benchmark that runs long enough to overwrite a larger fraction of the disk, and tell us whether the performance drops under sustained load?
    Reply
  • iwodo - Friday, July 24, 2009 - link

    I just read other review site that Intel SSD uses SUBSTANTIALLY more CPU usage then other competing SSD. I hope your future detail review will test this out as well.

    Even thought Intel SSD uses much less power then competing SSD, the CPU usage required will discount those saving. ( Possibly uses even more power. )

    In could be another case for Intel to push you buying a more powerful CPU. Which is rather sad. Since this is exactly what happen to USB, which makes it slow and unresponsive compare to Firewire.
    Reply
  • pmeinl - Friday, July 24, 2009 - link

    Does anybody know PC cases optimized for SSDs.

    I only found the following enclosures to mount SSDs in cases designed for HDs:

    http://vr-zone.com/articles/a-data-ssd-enclosure-t...

    http://www.patriotmemory.com/products/detailp.jsp?...">http://www.patriotmemory.com/products/d...prodgrou...

    http://www.newegg.com/Product/Product.aspx?Item=N8...">http://www.newegg.com/Product/Product.aspx?Item=N8...
    Reply

Log in

Don't have an account? Sign up now