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I have a CUDA application that is data movement bound (i.e. large memcopies from host to device with relatively little computations done in the kernel). On older GPUs I was compute-bound (e.g. QUADRO FX 5800), but with Fermi and Kepler architectures, that is no longer the case (for my optimized code).

I just moved my code to a GTX 680 and was impressed with the increased compute performance, but perplexed that the bandwidth between the host and GPU seems to have dropped (relative to my Fermi M20270).

In short when I run the canned SDK bandwidth test I get ~5000 MB/sec on the GTX 680 versus ~5700 MB/sec on the M2070. I recognize that the GTX is "only a gamer card", but the specs for the GTX 680 seem more impressive than for the M2070, WITH THE EXCEPTION OF THE BUS WIDTH.

From wikipedia: M2070: 102.4 GB/sec, GDDR3, 512 bit bus width GTX 680: 192 GB/sec, GDDR5, 256 bit bus width

I'm running the canned test with "--wc --memory=pinned" to use write-combined memory.

The improved results I get with this test are mirrored by the results I am getting with my optimized CUDA code.

Unfortunately, I can't run the test on the same machine (and just switch video cards), but I have tried the GTX 680 on older and newer machines and get the same "degraded" results (relative to what I get on the M2070).

Can anyone confirm that they are able to achieve higher throughput memcopies with the M2070 Quadro than the GTX 680? Doesn't the bandwidth spec take into consideration the bus width? The other possibility is that I'm not doing the memcopies correctly/optimally on the GTX 680, but in that case, is there a patch for the bandwidth test so that it will also show that I'm transfering data faster to the 680 than to the M2070?


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For both GTX 680 and M2070, the bandwidth will be limited by the PCI Express bandwidth, not anything to do with the memory on the GPU card. There can be variation system-to-system on the bandwidth test results due to differences in OS and system architecture, such as different CPU/IOH devices. The test won't depend on the memory bus width because in both cases the cards have ample bandwidth. You can't really do an apples-to-apples comparison like this unless you use the same system config in all respects. – Robert Crovella Oct 15 '12 at 16:21
up vote 3 down vote accepted

As Robert Crovella has already commented, your bottleneck is the PCIe bandwidth, not the GPU memory bandwidth.

Your GTX 680 can potentially outperform the M2070 by a factor of two here as it supports PCIe 3.0 which doubles the bandwidth over the PCIe 2.0 interface of the M2070. However you need a mainboard supporting PCIe 3.0 for that.

The bus width of the GPU memory is not a concern in itself, even for programs that are GPU memory bandwidth bound. Nvidia managed to substantially increase the frequencies used on the memory bus of the GTX 680, which more than compensates for the reduced bus width relative to the M2070.

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I was hoping someone might have access to both a 2070 and a 680 and could run them separately on the same machine and report the output of the NVIDIA bandwidth test. I fear that the 680 is fundamentally slower than the 2070 for cudaMemcopies. My friend (who is out on leave at the moment) had a 680 on a brand new machine (which I suspect was using PCIe 3.0) and I noticed that it was slow when it came to cudaMemcopies. – chrisG Oct 16 '12 at 13:59
The M2070 is housed in a DELL blade, but it's still connected via PCIe. Would that impact the potential throughput? The 680 is in a desktop computer. – chrisG Oct 22 '12 at 14:30
If the card is connected via a PCIe extension cable that could potentially reduce throughput through replayed transmissions. However your reported bandwidth for the M2070 is at the upper limit of what is to be expected, so I don't think that is an issue here. – tera Oct 24 '12 at 10:37

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