Under The Hood: I/O Priority and Networking

Along with working to modify the traditional cache hierarchy for better performance, Vista includes the introduction of several new technologies designed to help applications better utilize disk and network bandwidth. For disk bandwidth, Vista now includes an I/O priority system that allows applications to specify the priority of their I/O operations so that Vista can service the most important operations first, not unlike the priority system for applications. This is in comparison to XP which executes all I/O operations as if they have the same priority, which results in other applications having their own I/O operations slowed down even if they're more important.

With only four levels of priority (two of which are effectively for exclusive use by Vista), the I/O priority system in Vista isn't nearly as refined as the application priority system, but it's enough to get the job done. With two remaining priority levels, the benefit of the priority system to users is that traditional background tasks such as virus scanning can not only be low-priority tasks for the CPU, but now the disk too; anyone who has attempted two I/O heavy operations before has seen firsthand how they often cause the operations to take longer than their sums to complete. The new I/O priority system won't entirely alleviate any slowdowns caused by background applications as these requests have to be serviced at some point, but by reducing the interruptions caused by background applications these applications can be run without bringing a system to quite as much of a halt.

Somewhat related, I/O operation size has also been increased. Previously, Windows broke all I/O operations down to 64KB requests, which causes some overhead as each chunk of a larger operation needs to be processed separately. Vista no longer has a cap on I/O operation sizes, and will now attempt to execute I/O operations with the size a program requests. Microsoft has used Explorer as an example, where the copy command now uses 1MB operations.

Networking

Along with the changes in disk I/O to better maximize disk performance, Vista also implements a new TCP/IP stack - the so-called "Next Generation TCP/IP stack" - that includes new features to better maximize network utilization. However, since networking changes can affect entire networks and not just a single machine, only one of these features - Receive Window Auto-Tuning - is enabled. The other feature - Compound TCP - is disabled due to the potential to interrupt other machines on a network and/or hurt the client's network performance.

To discuss Receive Window Auto-Tuning, we must first quickly talk about TCP/IP networking and what a receive window is. In the most basic of terms, the receive window is the maximum amount of data that a sender can transmit at once before it must wait for an acknowledgement (ACK) from the receiver signaling that the data was received successfully. Once an ACK is received, the sender can begin transmitting more data. This process is intended to keep the sender from flooding the receiver with data, which could cause lost packets and other performance-reducing problems. The ideal size of this window varies upon network conditions and must be continuously renegotiated to maintain a transfer and maximize bandwidth usage; factors include both bandwidth and latency of a connection between two devices. For example, a computer using a dial-up modem can't send or receive data anywhere near as fast as a typical Internet server, so it would seldom have more than about 6 kB of data in-flight at once. Conversely, a high-speed broadband home computer might have several hundred kB of data in transit at once.

With Windows XP, the receive window could be scaled as needed, but it was not a fine-grained system. Except in specific cases, the maximum receive window size was a global value for all TCP connections. While on average it was usually good enough, it could be a poor value for specific connections. This is especially the case on high latency and high bandwidth connections, which is why one common tweak to improve networking performance for Windows machines with a broadband connection is to manually adjust this value - Windows simply didn't allow a window to normally scale to a large enough size to best utilize some broadband connections.

Auto-Tuning is a resolution to the inefficiencies of XP's scaling system, and it makes window scaling a more finely-grained operation. As the ideal receive window size is exactly the amount of data that can be in-flight between a sender and a receiver - the bandwidth-delay product (the product of the speed of a connection and its latency) - Vista's auto-turning system is designed to surpass XP's scaling system by not only allowing larger windows, but by also attempting to make a best-guess on the bandwidth-delay product in order to maximize bandwidth usage. Additionally, this is now a per-TCP connection attribute instead of a global attribute, allowing each connection to be more efficient rather than using the average connection values. As this is a safe optimization (QoS issues notwithstanding), this is one of the networking features enabled by default under Vista.

Compound TCP

The other significant addition to Vista's TCP/IP stack is Compound TCP, the product of an earlier research project by Microsoft in combining several different known techniques for maximizing bandwidth usage under high latency conditions. Under these conditions, traditional TCP traffic algorithms are reliable but slow to let the sender and receiver increase their windows to fill very large bandwidth-delay products. This is because traditional TCP is inherently a conservative and well behaved system based on reliability and sharing as the most important properties.

Compound TCP on the other hand is the merger of several aggressive algorithms - including Fast TCP, High Speed TCP, TCP Vegas, and TCP Reno - which when combined are far more aggressive at trying to quickly maximize bandwidth usage while maintaining reliability; unfortunately, these algorithms weren't originally designed to work all that well with traditional TCP. To that extent, in order to make Compound TCP safe for use on larger networks, Microsoft has reworked these algorithms so that they are effectively a single algorithm under Compound TCP, and their over-aggressive nature has been removed so that they will not dominate over traditional TCP traffic.

The end result is that while Compound TCP is designed to be safe, it's a cutting-edge technology that is not well tested, and for this reason it is disabled by default on Vista. Longhorn Server will be the first Windows product to ship with it enabled by default when it ships later this year. In our network tests, we have tested Vista both with Compound TCP enabled and disabled so that you can see the results of using it; however, until Compound TCP has undergone some more rigorous testing we would caution that it's not advisable to enable it on home computers or in production environments.

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  • Lifted - Thursday, February 1, 2007 - link

    quote:

    The search, does it support network-drives? Search Desktop for XP does not...


    That's odd. I can search network drives using XP Pro. Maybe it's a Pro vs. Home issue?

    Was also wondering about the network test myself. 10MB/s file copy on XP Pro seems abysmally slow when using gigabit NIC's. Just testing right now I about 35MB/s between a pair of 5 year old servers (dual Xeon 1GHz) with Intel GB NIC's. I haven't checked transfer rates with XP as I'm on a 10/100 switch at the moment, but I can't believe it's really THAT much slower than 2003.
  • Aikouka - Thursday, February 1, 2007 - link

    I remember running a gigabit cross-over (CAT6) cable between my roommate's computer and my computer in college. We achieved about 33MB/s (through FTP) running Windows XP Professional on each. So I'd say that you'd probably see about the same speed if you were running a gigabit switch.
  • mjz - Monday, February 5, 2007 - link

    i think windows xp sets a limit when downloading from another computer to 33MB/s..
  • Nehemoth - Thursday, February 1, 2007 - link

    Same here.

    I just wanna Vista for the improve TCP/IP Stack, now I'll wait for SP1
  • tallsummi - Thursday, February 1, 2007 - link

    I'll wait for SP2 of vista and then go for it..
  • keitaro - Thursday, February 1, 2007 - link

    Perhaps Microsoft should have copied the idea from Novell's SUSE Linux Desktop (powered by XGL and compiz). The compiz software package (compositor and window manager) comes with its own alt-tab that surpasses Flip 3D in every way. http://www.novell.com/products/desktop/features/xg...">See here for a look at what XGL and compiz can do.
  • mlambert890 - Friday, February 2, 2007 - link

    I think that xgl crap is an overenginered waste that adds 0 productivity. Flip 3d gives you the one thing you need - a live shot of running apps. Who the hell needs some spinning cube? And look how bad video playback perf is in that Novell demo...
    bleh... I dont feel myself drawn back to 1992 when I lived and breathed Novell; sorry...
  • Locutus465 - Friday, February 2, 2007 - link

    I dont' know, personally I like flip 3d better..
  • archcommus - Thursday, February 1, 2007 - link

    The article makes me a bit sad about Vista. It made me realize - wow, yeah, it really IS a shame that Vista doesn't totally smash OS X Tiger given how long it's been in development and how long Tiger has been out for. I guess they just got in such a rut of catch-up that not many new revolutionary features could be developed.

    In particular, I'm disappointed with how similar (and ugly) certain aspects of Vista look compared to XP, for example the quick launch area, system tray, clock, and the overall taskbar. With the exception of the Start buttion being replaced by an "orb," it looks EXACTLY the same as XP, and this could have been and should have been revamped to improve productivity. Quick launch is just...stupid, and ugly. All it is is additional shortcuts, and they waste taskbar space. I think a small menu that appears and disappears on the fly would be nicer. I'm not sure what improvements to suggest for the taskbar, all I know is, with how pretty the rest of the OS looks, the application blocks down there just look out of place. Same with the system tray icons.

    Explorer is better though and the transparency is great. It's too bad x64 performance and drivers aren't up to snuff yet.
  • thebrown13 - Thursday, February 1, 2007 - link

    Microsoft has to cater to about 349852395472039 more software programs.

    That's why. Updates, bug fixes, feature designing, it all takes A LOT longer than with an OS with 5 people that use it, like Apple.

    We're lucky the mainstream OS isn't MUCH farther behind.

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