Back in 2006, technology newcomer Bigfoot Networks announced the Killer NIC, an unusual network interface card targeted at the high-end gaming market. With this coming fairly shortly after solid consumer-grade NICs became universally integrated in to motherboards, the timing wasn’t the best. At $280, neither was the price.

The Killer NIC marked a sort of return to the idea of a complex NIC, forgoing a simple controller/PHY combination in favor of a complex dedicated device capable of acting more independently. By endowing a NIC with a full-fledged microcomputer running Linux, not only could the card offload virtually every part of processing required for network operations, but it could even bypass Windows’ notorious networking stack and handle packets in a manner better suited for low-latency use (i.e. games). In turn the Killer NIC would be able offer lower and more stable pings than standard NICs, and with lower CPU overhead increase game/application performance too.


The original Killer NIC in 2006

The reality of the hardware didn’t quite live up to the initial hype. In our review of the original Killer NIC the results were a mixed bag: offloading did improve game performance slightly in CPU-limited situations, but we couldn’t find any significant improvements to ping/latency in games. Ultimately any benefits the card could offer couldn’t justify the $280 price tag even among the high-spending gaming crowd. Later in 2009 they released their second-generation Killer Xeno Pro, but even with a lower price the results were much of the same.

Flash forward to today and Bigfoot Networks has continued their product development unabated, bringing us to their latest product: the Killer 2100. The 2100 is Bigfoot’s 3rd generation Killer NIC, and will be replacing the Killer Xeno Pro. We will be reviewing the card next week when our sample arrives, but ahead of that we wanted to do a quick rundown of what we know thus far after talking to Bigfoot.


The Killer 2100

Let’s start with the hardware:

  • 10/100/1000 Ethernet
  • PCIe x1 interface
  • 400MHz dedicated network processor (PowerPC)
  • 128MB DDR2 RAM

Bigfoot tells us that the Killer 2100 hardware isn’t significantly different from the current Killer Xeno Pro. The biggest change is that Bigfoot has ditched all non-Ethernet functionality, dropping the USB port and the 3.5mm audio jacks, leaving only the RJ-45 port. Internally hardware is largely the same. The network processor continues to be an embedded PowerPC CPU, which was likely chosen for PowerPC’s big endian support.

As the hardware is being left relatively unchanged, the significant introduction for the Killer 2100 is the software stack, which Bigfoot is telling us had a major overhaul. As you may recall the entire Killer NIC line runs an embedded Linux distribution on the NIC, so in this case a software overhaul means upgrading both the embedded Linux distribution and the end-user Windows software.

Bigfoot hasn’t told us much about what they’ve done on the Linux side of things, although they are calling it a whole new architecture. In any case the fundamentals of the Killer NIC haven’t changed – it’s still based around bypassing the Windows networking stack on low-latency applications – with features such as application prioritization, offloading, and shaping/throttling bringing up the rear. The biggest low-level change we do know about is that Bigfoot has done something about the Killer Xeno Pro’s previously poor throughput, which means that the Killer 2100 should now be competitive at GigE speeds when operating on a LAN.

Beyond the usual optimizations, the bulk of the other changes are to the end-user software. Late last year Bigfoot introduced a new utility called Dashboard that augmented the Killer Xeno’s basic control panel with a more advanced graphical readout of the card’s status. The Killer 2100 is going to take this all the way, giving the Dashboard (now the Killer Network Manager) greater control over the card. This culminates in a new feature they are calling Visual Bandwidth Control, which in a nutshell is a graphical readout of each application’s bandwidth usage in order to see what each application is using and being able to set bandwidth throttles accordingly. Throttling itself isn’t new, but being able to visualize per-application usage from the NIC is, and is the cornerstone of what they’re calling their key breakthrough – allowing the user to better monitor the card.


The Killer Network Manager

Along with this, Bigfoot is also rolling out a new NIC benchmark they are calling Gaming Network Efficiency (GaNE). This is intended to solve one of Bigfoot’s biggest issues in selling the card – being able to showcase the difference in a reliable manner. Although we’re always leery of vendor-provided benchmarks, Bigfoot has offered us the source code to GaNE and we’ll be looking at it once our sample arrives to see if there’s anything to it.

GaNE also marks a bit of a shift in how Bigfoot will be marketing the Killer lineup. In their meeting with us, less of an emphasis was placed on total latency in favor of network jitter (which GaNE can conveniently benchmark). Bigfoot claims that the Killer 2100 has much less jitter than standard NICs, which would serve to keep latency more stable and avoid triggering undesired responses from games that believe that latency is spiking. Bigfoot still believes that the Killer 2100 will offer better latency through the combination of better jitter and their own optimizations towards latency by reducing buffering where applicable, but it’s certainly a more realistic approach than focusing solely on latency, something that’s largely out of the NIC’s hands in the first place.  All of this we will of course be testing to see how truthful it is and what impact it actually has.

Finally, we’ll wrap up this announcement with some good news for existing Killer Xeno Pro owners. Since the hardware is largely unchanged, Bigfoot will be releasing a version of their new software stack for the Xeno Pro, giving it most of the functionality of the Killer 2100. Ultimately any future improvements to their software will be reserved for the Killer 2100, but this is an appropriate gesture given the short time of under a year between the launch of the Killer Xeno Pro and the Killer 2100.

The Killer 2100 will be selling at the same $129 price as the existing Killer Xeno Pro, cementing its spot as the Xeno Pro’s replacement. Bigfoot’s official press release leaves the actual availability date open with a simple “coming weeks”, although for North American distribution it sounds like it could show up as early as this week.

We’ll have more on the Killer 2100 in our full review next week, so stay tuned.

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  • afkrotch - Tuesday, May 11, 2010 - link

    I prefer to stick to dedicated soundcards for 1 reason. Low chance of having crackling sound with onboard audio. Been sticking with my Audigy 2 ZS for the past like, 4 years. Reply
  • jphoto801 - Wednesday, May 12, 2010 - link

    "Been sticking with my Audigy 2 ZS for the past like, 4 years."

    That means you have zero first-person experience with onboard audio for four years. I've used onboard audio exclusively for dozens of games, several motherboards, on (minumum) two computers at once and I have no idea what this cracking you refer to, is.
    Reply
  • Integr8d - Wednesday, May 12, 2010 - link

    It's a buffer issue with both on-board and discrete audio cards. Just a settings fix in Win/Lin. No biggie. Reply
  • Knowname - Thursday, May 13, 2010 - link

    Output for integrated sound-cards IS still pretty decent (though, keeping account of the dire lack of pci or pcix1 slots nowadays, your lucky if you get two, if you listen to a lot of music you will want an upgrade... but it's good in a pinch), much better than it was. HOWEVER in most cases recording on these things is a REAL cr@pshoot to say the least. good output is NOT a guarantee to give you good (or even decent) input. Reply
  • AnnonymousCoward - Sunday, May 16, 2010 - link

    I have a hard time understanding how this:
    http://tinyurl.com/23zsjgz

    can compete with this:
    http://tinyurl.com/l9vq7j

    in audio quality.
    Reply
  • haplo602 - Tuesday, May 11, 2010 - link

    If it get's a solid iSCSI offload implementation, it can be a killer product. Until then, meh .... Reply
  • Exelius - Tuesday, May 11, 2010 - link

    That would make it a much more expensive card, indeed. I can't see a home use case for iSCSI though; things like Windows Home Server and mapped drives make more sense to me there. A home user isn't likely to have the switching infrastructure (managed switch with large port cache for jumbo frames, flow control, QoS, etc) to make iSCSI faster than CIFS.

    If you're just looking for a cheaper iSCSI card than you can get elsewhere... if they added iSCSI offloading to this, the price would likely be a lot higher. :)
    Reply
  • nsx241 - Tuesday, May 11, 2010 - link

    Still useless for 99.9% of people out there. Are they even making money off of this thing? How many have they actually sold so far? Reply
  • JonnyDough - Tuesday, May 11, 2010 - link

    I think the only reason its useless is because for it to have any real impact all users must be using one. The limiting factor is the upload in many cases, not the download. You're still waiting on responses from other users computers to reach the game server, then be transmitted to your PC. When you consider the miles crossed, the time between user actions, etc you can see why latency will always have some slight effect. Nothing is instantaneous, and this card is great but there isn't a magic cure all. A better investment would be for every gamer to put forth $100 to improve fiber optic networks. Reply
  • wavetrex - Tuesday, May 11, 2010 - link

    I wonder how this handles online gaming when the bandwidth is already saturated by a bittorrent client transferring at full speed, using 100+ active connections

    Did any review site test that ?

    Normal windows stack is unable to squeeze the game packets in the already clogged pipe, and lagspikes happen often.

    Anandtech, if you get your hands on this baby, please run uTorrent and download/seed 10-20 linux distributions at the same time, with a 50 peer limit per torrent, and check game lag under this conditions.

    You might ask... why not close/pause uTorrent while gaming to be lag-free ? Well... every kilobyte of upload counts... on some sites ( not going into detail ). Maybe I don't WANT to stop uTorrent, ever...
    Reply

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