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1. Optical adapters for 2010 mac pro driver#
2. Optical adapters for 2010 mac pro pro#
3. Optical adapters for 2010 mac pro Pc#
4. Optical adapters for 2010 mac pro windows#

Four FireWire 800 ports (two on front panel, two on back panel).Hyper-Threading technology for up to 8 virtual cores.Turbo Boost dynamic performance up to 3.06GHz.8MB of fully shared 元 cache per processor.One 2.8GHz Quad-Core Intel Xeon W3530 “Nehalem” processor.Hyper-Threading technology for up to 16 virtual cores.Turbo Boost dynamic performance up to 2.66GHz.12MB of fully shared 元 cache per processor.Two 2.4GHz Quad-Core Intel Xeon E5620 “Westmere” processors.I'm not in charge of that setup though and haven't ran any tests on it. We have a 8 disk qnap connected with 10Gbe in an Avid environment as a backup area. I write "think" since I'm very careful in recommending solutions/hardware that I don't have any personal experience with. It would have to be one of the beefier ones with probably 10-12 disks so you get some speed out of it. Then have the myricom with SFP+ module and a twinax direct attach cable to connect each client to it. I think you can use something like a Synology and/or QNAP with dual 10Gb SFP+ ports as storage.

Optical adapters for 2010 mac pro driver#

Small Tree says that their cards come with a modified firmware and driver but in real life I've never noticed any difference, other than the bumped price. Think this was with a modified driver, but memory fails me now. I've successfully used/use a regular IntelPro 1000 quad-port in a 5,1 OSX machine.

Optical adapters for 2010 mac pro pro#

In my experience they're not much, if any, different fro the Intel Pro 1000 cards. I probably have a few of those nic's laying around that I can part from. Let me know if you want to go down the SMALL Tree route. I'd say you probably need a switch that can do LACP as well.

Not sure about link aggregation on the Mac and those NIC's.

Optical adapters for 2010 mac pro windows#

If you really beat on your SMB network config or maybe even use a third-party SMB driver you might see a couple hundred megs/sec, but where OS X really excels network-wise (800+ MB/s) is when sharing over AFP, and adding that to a Windows machine is very expensive. Network performance is based on a lot of factors, but I wouldn't be surprised if you barely made it over 100MB/s on your first test.

Optical adapters for 2010 mac pro Pc#

If you look at it though, in this case the 10GbE on-board adapters on your PC might not be an advantage cost-wise, since a single RJ45 Smalltree is $600, but two Myricom 10GbE SFP cards would be around half that.Īlso, another important point to make is what your hope/expectation is on the bandwidth you'll achieve between your Mac and PC? SMB on OS X, while functional, isn't nearly as capable as it is on a Windows or Linux. Most 10GbE switches usually have at least some connections for both optical and RJ45, so it's not much of a problem.Ĭlick to expand.If you need RJ45 it's going to be a little harder to do cheaply on a Mac, since you'll have to find another 10GbE RJ45 card that also happens to support OS X, which is a little more rare than the SFP type, at least on the used market. The only question would be later on if you need to get a 10GbE switch, you want to make sure you have connectors for whatever cards you buy. Many SFP+ GBICs even support both fibre channel and ethernet protocol, and will activate the correct one depending on which type of card they are plugged into. It's the SFP+ modules (or "GBIC") on each end that define the signal type, with the fibre cable being interchangeable between the two. Then just connect a standard ( LC to LC "multimode") optical cable between the two cards and you're all set.įibre cabling itself is largely agnostic, and is compatible with both ethernet or fibre channel signaling. Make sure to get a card that includes them so you don't have to buy them separately. If you can't find a card with standard RJ45 ethernet connectors, one with optical SFP+ connectors will work fine too. Click to expand.The card you linked to is optical or copper SFP+ only.