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The DRC module plugs directly into a Socket 940 AMD Opteron motherboard
DRC has announced its newest FPGA that drops into AMD's Socket 940

The Register has a fairly in depth look at one start-up's attempt to capitalize on AMD's HyperTransport interface -- a reprogrammable coprocessor that can drop into any Socket 940 socket.  The company, DRC, built its programmable coprocessor on Xilinx Virtex4 field programmable gate array integrated circuits. 

For specialized industries, a dynamic coprocessor is exactly what the doctor ordered; low overhead for extremely specific tasks such as vector math or collision detection.  Companies already pay thousands to millions of dollars to have such overly specific algorithms ported to custom FPGA processors, but the kicker for DRC is that the chip can be integrated into a multi-slot Opteron server running the correct software.

Each series of coprocessors unveiled by the company uses the standard HyperTransport (HT) interface to communicate with the main processor.  The low end coprocessor, the DRC100-L60ES, uses a 200MHz by 8-bit HT link.  DRC's two high end modules, the DRC100-L60 and the DRC110-L160 both use a 400MHz by 16-bit interface instead.  DRC coprocessors range in size from 50,000 to 140,000 programmable gates and all three can utilize 6.4GBps between the Xilinx FPGA and the DDR400 memory bank.

Each DRC module starts at about $4,500.  Competing proprietary systems from SGI and IBM easily cost four times that and generally require additional proprietary hardware and contracts to support.

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RE: Seperate socket?
By chrisd154 on 4/24/2006 4:30:32 AM , Rating: 5
They buy dual sockets for dual CPUs. Two dueling processors would be rather counter-productive to say the least :-)

RE: Seperate socket?
By Griswold on 4/24/2006 5:03:31 AM , Rating: 3

RE: Seperate socket?
By Googer on 4/25/2006 1:05:44 AM , Rating: 2
Quad Core has just arrived. So by removing a dual core and adding this fancy co-processor you will have more or just as many cpu's plus this specialized co-processor that is specialized for ISM. In the end you come out with a faster more capable system.

Think Physx, on AGEIA PhysX Chip can do more than four general purpose CPU's.

As a side note, it would be cool if AGEIA took the same concept and applied it to their PhysX Chip. That would allow it to have access to it's own RAM and a direct high speed link to the CPU.

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