Problem 2: Why did things get slower?

In our initial look at Santa Rosa and Intel's Turbo Memory we generally found that performance wasn't improved and in some cases it got significantly worse. Take for example the amount of time the notebook took to go into hibernate mode:

With Turbo Memory enabled, the system took another 11 seconds to hibernate. Going back to our explanation of what Turbo Memory is supposed to do, it isn't supposed to reduce hibernate time at all. At best, the ReadyBoost portion of Turbo Memory can make data available a little quicker after waking up from hibernation but that's it. Needless to say, the technology isn't designed to make hibernation times any slower. Clearly we needed to do some digging.

In our first article we showed no performance difference between Turbo Memory enabled vs. disabled in the PCMark '05 HDD test. Given that we disabled Turbo Memory using the console it appears that it remained enabled in both tests, making the scores useless. Armed with our new found information on how to properly test with Turbo Memory, we took another look at PCMark '05.

The PCMark '05 HDD test is composed of real world disk usage, played back in a manner similar to what we do in our hard drive reviews. The individual tests are as follows:

Windows XP Startup: This is the Windows® XP start trace, which contains disk activities occurring at operating system start-up. The test is 90% reading and 10% writes. This trace contains no user activity.

Application Loading: This is a trace containing disk activities from loading various applications. It includes opening and closing of the following applications:

- Microsoft® Word

- Adobe® Acrobat® Reader 5

- Windows® Media Player

- 3DMark®2001SE

- Leadtek® Winfast® DVD

- Mozilla Internet Browser

The application loading trace is 83% reads and 17% writes.

General Hard Disk Drive Usage: This trace contains disk activities from using several common applications. These are:

- Opening a Microsoft® Word document, performing grammar check, saving and closing

- Compression and decompression using Winzip

- Encrypting and decrypting a file using PowerCrypt

- Scanning files for viruses using F-Secure® AntivirusTM.

- Playing an MP3 file with Winamp

- Playing a WAV file with Winamp

- Playing a DivX video using DivX codec and Windows® Media Player

- Playing a WMV video file using Windows® Media Player

- Viewing pictures using Windows® Picture Viewer

- Browsing the internet using Microsoft® Internet Explorer

- Loading, playing and exiting a game using UbisoftTM Tom Clancy's Ghost Recon

The General Usage trace is 60% reads and 40% writes.

Virus Scanning: Virus scanning is a critical task in today's PC usage. As the major bottleneck of scanning viruses is in hard disk activity, it is reasonable to include virus scanning as a HDD test. The test consists of HDD activity of scanning 600MB of files for viruses. The Virus Scanning test is mostly disk reading (99.5%).

File Write: This trace contains disk activities from writing 680MB files on the hard disk and no read operations are involved in this test.

Disk idle times have been compressed to 50 milliseconds to speed up the playback time. Our studies showed that 50 milliseconds was the smallest idle time interval that didn't affect the test results. The results of the HDD tests are reported in Megabytes processed per second.

Basically PCMark takes the disk accesses from these various usage patterns and plays them back as fast as possible. The tests are grounded in the real world but the actual performance metrics that result are skewed to favor very fast disk subsystems. In the case of Turbo Memory, we're testing its prefetching algorithms for getting data into the cache.

Turbo Memory State XP Startup Application Loading General Usage Virus Scan File Write
Disabled 6.286 MB/s 5.109 MB/s 4.314 MB/s 47.496 MB/s 28.739 MB/s
Enabled 12.209 MB/s 10.437 MB/s 10.1043 MB/s 47.806 MB/s 18.657 MB/s

The results are particularly impressive, performance in the XP Startup, Application Launch and General Usage tests is at worst double with Turbo Memory enabled. Clearly the same isn't true in the real world as we weren't able to measure any improvements in system boot or application start times, but the technology is working at least in this controlled environment.

The numbers that are most intriguing are the file write numbers, because this is the only test were performance goes down when Turbo Memory is enabled. The write speed to the flash memory isn't nearly as good as to our 7K100 test drive, which echoes what we saw with the hibernate entry test, which is fairly write intensive.

According to Intel, the system hibernating shouldn't be slowed down by Turbo Memory but Intel engineers have duplicated the test results we're seeing. It seems like the write speed of the flash memory is to blame here, causing performance degradation when there's a lot of writing (e.g. hibernating). Whether or not this behavior can be seen on all Santa Rosa laptops has yet to be determined, but it is a definite issue we've encountered with Turbo Memory.

Problem 1: A Poorly Written Control Panel Problem 3: Keeping that drive spun down
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  • Alyx - Thursday, June 21, 2007 - link

    It seems readyboost only helps with subsequent reads rather than the initial read, so it makes no sense as to why it would help in the case of watching a movie because the data is never repeated. I guess it just keeps the drive from idling because its farther between reads.

    I think this would help a lot for students, when I sit in class for an hour or two taking notes I'm only using one program so theoretically it would never have to access the hard drive for the whole class time. If a student had classes back to back without a way to charge (which is often the case) this technology could make a noticeable difference.
  • BigLan - Thursday, June 21, 2007 - link

    It could help with movies if it's used as a read-ahead cache. Once the OS sees that the movie file has been read, it loads the whole of the movie into flash (or as much as would fit.)

    Also, if you're working in class with just word (or onenote) open, your hard drive should be pretty inactive anyway. Once the program is loaded into ram then the drive isn't read from. If you have an autosave feature turned on then that would hit the HD, but having the file on an external flash drive would get around that anyway.
  • xanderman - Saturday, November 7, 2009 - link

    I have a 4GB Turbo Memory card installed, $65.
    I think the article could use a little update to reflect on the availability of faster and larger Turbo Memory cards at lower prices, to examine their overall effectiveness in this (newer?) format and pricing.
    I don't know if there was any performance boost, never did any benchmarks and all I've been doing is setting up this new computer, then install i-ram and continue customizations.
    I can tell you, however, that the installation was easy, one reboot, so the article is definitely way off in regards to installation, OUTDATED and UNRELIABLE.
    Glad I never beleived them n the first place and bought the card despite their opinion.
  • casket - Thursday, June 21, 2007 - link

    "However, adding 1GB of actual RAM won't improve battery life at all, and in fact it should reduce it slightly."
    -- What are the power requirements of Flash vs. Ram vs. Hard Drive?

    I would have liked to have seen Anand test the power benchmarks on the additional 1 GB ram as well.
  • burnley - Thursday, June 21, 2007 - link

    Wouldn't it be cool if the manufacturers could load safe drivers on something like this so when your mum gets a virus and you have to reload everything you don't have to either hunt for the driver disk, or hunt for the drivers online, just access them from an internal read-only drive?
    On-board network is great unless you don't have the motherboard driver disk and a fresh boot, then that loverly external USB flash drive is a godsend.
  • strikeback03 - Thursday, June 21, 2007 - link

    Isn't that the point of these "hidden" hard drive partitions that so many computers have these days?
  • burnley - Thursday, June 21, 2007 - link

    Unless the hard drive fails, or you want to upgrade it, etc. Also that is only applicable on pre-built machines.
    A simple flash device with drivers could be put on add-in cards like graphics, etc.

    Only an idea...
  • xsilver - Thursday, June 21, 2007 - link

    quote:

    Obviously adding another GB of memory is more expensive than adding ReadyBoost, and in this case ReadyBoost can give you close to the same performance as adding the extra memory.


    quote:

    dditional cost of adding Turbo Memory to a notebook (expected to be at least $100 USD).

    1gb of ram can be had for a lot less than $100
  • JarredWalton - Thursday, June 21, 2007 - link

    ReadyBoost capable USB Flash sticks are available for something like $15 for 1GB, $24 for 2GB, or a whopping $40 for 4GB. Turbo Memory modules on the other hand are not merely a USB device that you plug in, so they currently cost more. Of course, there seems to be a healthy price premium for the technology right now....

    Adding a 1GB ReadyBoost device is cheap and easy. Adding 1GB of Turbo Memory seems pointless as it will cost more than 1GB of actual RAM. However, adding 1GB of actual RAM won't improve battery life at all, and in fact it should reduce it slightly. So, you're paying $100 for slightly improved performance along with potentially better battery life.
  • BigLan - Thursday, June 21, 2007 - link

    It seems like an extra $100 for this stuff would be better spent on an extra battery for your laptop which would double the battery life (though you have to switch them out and recharge them.) You could probably also afford a 1 gig flash drive for readyboost.

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