i-RAM Pure I/O Performance

We begin our usual hard disk drive test session with Intel's IPEAK benchmarking utility. We first run a trace capture on Winstone 2004's Business and Multimedia Content Creation benchmark runs to catch all of the IO operations that take place during each test. We then play each capture back using RankDisk, which reports back to us a mean service time, or average time that the drive takes to complete an IO operation.

Pure I/O Performance Comparison (Results in IO ops/second Higher is Better)
IPEAK Business Winstone 2004
IPEAK Multimedia Content Creation Winstone 2004
Gigabyte i-RAM (4GB)
4347.8
1754.4
Western Digital Raptor (74GB)
735.3
467.3


Not too surprising is the i-RAM's dominance here, performing almost 6x the speed of the Raptor in the IPEAK trace of Business Winstone 2004 and 3.75x in the IPEAK MMCC trace.

Absolutely incredible I/O performance is to be expected from the i-RAM. The question is, how does it translate into real world performance?

Using the i-RAM i-RAM as a Paging Drive
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  • crazySOB297 - Monday, July 25, 2005 - link

    I'm surprised they didn't raid a few of them... I think you could get some huge performance.
  • Googer - Tuesday, July 26, 2005 - link

    quote:

    I'm surprised they didn't raid a few of them... I think you could get some huge performance.


    Not to mention it is a way to also get around the 4gb siza limitation.
  • Hacp - Monday, July 25, 2005 - link

    Dude the article said straight out that SATA150 was the only format supported. Read the entire article.
  • Guspaz - Monday, July 25, 2005 - link

    I too am dissapointed that the article lacked any mention of SATA2, which is twice as fast as SATA (300MB/s vs 150MB/s). Considering many motherboards already on the market suport SATA2, and the 300MB/s transfer rate that goes with it, it is a bit of an oversight that the articles doesn't even MENTION if the card supports SATA2 or not. Nor do they mention what they think would happen with SATA2, or if Gigabyte is likely to produce a SATA2 version. It's a weak spot in this article, I think, considering how central the bandwidth of SATA is to the performance of the i-RAM.
  • snorbert - Tuesday, July 26, 2005 - link

    quote:

    I too am dissapointed that the article lacked any mention of SATA2, which is twice as fast as SATA (300MB/s vs 150MB/s)


    33MHz PCI only gets you 133 MB/sec theoretical, and more like 110 MB/sec in the real world. The i-RAM with SATA 1 can completely saturate a PCI bus. SATA2 would cost more to implement, and give you no speed increase at all on a 33MHz bus. If you build the card for higher-end PCI specs (e.g. 66MHz, 64 bit, 66MHz/64bit, PCI-X) then you automatically exclude most PC enthusiasts (unless they like buying server boards for their game boxes).

    If they end up doing a PCI Express version, then there would be some reason to support SATA2.

    This board is not a replacement for a hard drive. It would be incredibly useful as a transaction log though. Reliable (i.e. won't get lost if the machine crashes) write-behind caching for RAID 5 drives will give you a huge boost to write speeds. And the controller cards that support battery-backed write behind caching cost a lot more money than an i-RAM.

    -Jason
  • sprockkets - Tuesday, July 26, 2005 - link

    Also to reply here

    Keep in mind that for many years the ide/sata controllers are NOT on the PCI bus of the southbridge, so PCI is not a limitation.
  • snorbert - Tuesday, July 26, 2005 - link

    Actually, scratch my comment - I had not had enough coffee when I wrote it. I forgot that the PCI connector is doing essentially squat except providing power to this device. Of course you could have a SATA2 controller on a faster bus talking to this thing. But an SATA2 version would probably cost more. (because it would need a faster FPGA, newer SATA transceivers)

    Sorry folks,
    Jason the doofus
  • Anton74 - Monday, July 25, 2005 - link

    You did miss that reference; on page 2 it says "The i-RAM currently implements the SATA150 spec, giving it a maximum transfer rate of 150MB/s".

    Given the 1.6GB/s of the RAM, it seems completely silly not to provide a 300MB/s SATA interface instead, especially considering that the whole contraption including RAM will cost as much as 2 or more decent hard drives.

    Anton
  • ryanv12 - Monday, July 25, 2005 - link

    The controller on the card is not SATA-II...it can do a max of 1.6GB/s...not exactly SATA-II speeds there...
  • Anton74 - Monday, July 25, 2005 - link

    1.6GB/s is actually more than 5 times 300MB/s, the maximum supported by SATA-II. So 300MB/s could easily be fully utilized, and I don't understand why they didn't support that.

    Anton

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