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'Killer' Network Card Actually Reduces Latency
fatduck writes "HardOCP has published a review of the KillerNIC network card from Bigfoot Networks. The piece examines benchmarks of the product in online gaming and a number of user experiences. The product features a 'Network Processing Unit' or NPU, among other acronyms, which promise to drastically reduce latency in online games. Too good to be true? The card also sports a hefty price tag of $250." From the article: "The Killer NIC does exactly what it is advertised to do. It will lower your pings and very likely give you marginally better framerates in real world gaming scenarios. The Killer NIC is not for everyone as it is extremely expensive in this day and age of "free" onboard NICs. There are very likely other upgrades you can make to your computer for the same investment that will give you more in return. Some gamers will see a benefit while others do not. Hardcore deathmatchers are likely to feel the Killer NIC advantages while the middle-of-the road player will not be fine tuned enough to benefit from the experience. Certainly though, the hardcore online gamer is exactly who this product is targeted at."
You're wrong on somethings..
i to_doc/qos.htm
1) bunch of blah and stuff about memory. Since your explanation is memory->application->CPU->kernel memory->protocol stack->CPU memory->NIC driver->bus (basically, it was hard to follow with all the fud), you obviously have no idea how an OS works (I can't think of any modern, common OS's that have such a path). None of this happens as you describe, they are all parts, but the flow is nothing like you describe. See LKML for 2.6 on network programming if you want to see how this works on Linux, which is relatively transparent http://lkml.org/lkml/2005/5/17/78 also you can look at BSD.
2) The PCI Bus is irrelevant for gigabit ethernet (which is about the only network controller commonly in production, legacy stuff like 10/100 is more common- but is almost out of production) and for faster types (10GE or myrinet or infiniband), totally irrelevant. The 32bit PCI bus limit is about at gigabit speeds, and it is shared with everything else on the PCI bus- therefore suboptimal:
http://www.codepedia.com/1/PCI+BUS
PCI-X and gigabit controllers directly off the Controller chipsets is how networking is mostly done now.
3) blah blah, network slower than computers (ridiculous depends on the network and computer exclusively- in consumer computers it swings in a pendulum, when 100Mb came out most of the stuff in the PC couldn't keep up- it was faster to install over the network than from CD ROM because the CD drive was slower, it is going through that again with gigabit- most consumer PCs disk systems can't even approach filling gigabit). Then some conflation about what QoS, and policing can do... QoS only helps if the pipe is full:
http://en.wikipedia.org/wiki/Quality_of_service
or
http://www.cisco.com/univercd/cc/td/doc/cisintwk/
4) ISP and stupidity. ISP's may or may not be stupid. They are driven by market forces and the market force is people don't currently want to pay for a tiered service class internet. When they do, they will offer it. Technically it has been feasible for years. Read NANOG mailing list, you will see they are not stupid, but instead are in a low margin business.
5) blah blah blah, microsecond delay, destinguishable from millisecond via a consumer computer with a common OS by a person?? hahahahah. not without a measuring device. It is possible with enough training (I suppose musicians can). Since you can buy commodity off the shelf lan gear that will turn in sub millisecond delay, I don't think spending the extra-money on low microsecond delay will help
Bunch of pseudo-science modded up on Slash again...
Oh and Jumbo FRAMES are commonly 9000B in size (although the term can refer to anything bigger than 1500B:
http://sd.wareonearth.com/~phil/net/jumbo/
or 9K on cisco:
http://www.cisco.com/warp/public/473/148.html