In the beginning of March it was announced that AMD would be spending $334 million to purchase SeaMicro, a company who holds the patents on the 3D torus interconnect for High Powered Computing and servers. This interconnect utilizes PCIe lanes to connect large amounts of processors together to create what was commonly referred to as a supercomputer and is now more likely to be labelled an HPC machine. SeaMicro’s current SM1000 chassis can hold 64 processor cards, each of which have a processor socket, chipset and memory slots which makes the entire design beautifully modular.
One of the more interesting features of the Freedom systems design is that it can currently utilize either Atom or Xeon chips on those processor cards. With AMD now in the mix you can expect to see compatibility with Opteron chips in the very near future. That will give AMD a chance to grab market share from Intel in the HPC market segment. The Opteron series may not be as powerful as the current Xeons but they do cost noticeably less which makes them very attractive for customers who cannot afford 64 Xeons but need more power than an Atom can provide.
The competition is not just about price however; with Intel’s recent purchase of QLogic and the InfiniBand interconnect technology, AMD needs to ensure they can also provide a backbone which is comparable in speed. The current Freedom interconnect has 1.28Tb/sec of aggregate bandwidth on a 3D torus, and supports up to sixteen 10-Gigabit Ethernet links or 64 Gigabit links, which is in the same ballpark as a 64 channel InfiniBand based system. The true speed will actually depend on which processors AMD plans to put into these systems, but as Michael Detwiler told The Register, that will depend on what customers actually want and not on what AMD thinks will be best.
"As last week was winding down, Advanced Micro Devices took control of upstart server maker SeaMicro, and guess what? AMD is still not getting into the box building business, even if it does support SeaMicro’s customers for the foreseeable future out of necessity.
Further: Even if AMD doesn’t have aspirations to build boxes, the company may be poised to shake up the server racket as a component supplier. Perhaps not as dramatically as it did with the launch of the Opteron chips nearly a decade ago, but then again, maybe as much or more – depending on how AMD plays it and Intel and other server processor makers react."
Here is some more Tech News from around the web:
- AMD collaborates with Green Hills to port Integrity real-time OS @ The Inquirer
- Death of a data haven: cypherpunks, WikiLeaks, and the world’s smallest nation @ Ars Technica
- Rockyou security blunder exposed data on 32 million gamers @ The Inquirer
- Plastic that SELF-REPAIRS using light unleashed by prof @ The Register
- ARM adds Mali support to the new DS5 suite @ SemiAccurate
- ASUS EA-N66U Wireless-N450 Ethernet Adapter @ Benchmark Reviews
- Canon PowerShot SX260 HS Review @ TechReviewSource
- The new Comcast Xbox Xfinity app is the first nail in net neutrality’s coffin @ ExtremeTech
How will we see this in
How will we see this in future parts for the general public?
Will it help in the graphics parts?
What do others think?
I think server market is good for AMD to hold onto or try to make a stand.
Not really, this is a
Not really, this is a different usage of the PCIe bus to use to connect massive amounts of processors together as opposed to a GPU oriented technology.
If you get a job at a physics lab or somewhere else that uses HPC then you might get to play with one.