I'm building a workstation and want to get into some heavy CUDA programming. I don't want to go all out getting the Tesla cards and have pretty much narrowed it down to either the Quadro 4000 and the GeForce 480, but I don't really understand the difference, on paper it looks like the 480 has more cores 480 vs 256 for the 4000, but the 4000 is almost twice as much the 480 in price. Does someone understand the difference here to justify the higher price.

I will be doing scientific computing on it, so everything will be in double precision, if that makes a difference between them.

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If you neither care about visualization nor rendering (drawing final results on screen e.g. raytracing) than the answer to your question is slightly more simple, but not trivial.

I'm not going to go into detail about the differences between Quadro and GeForce cards, but I will just underline the significant points which can contribute in choosing between them.

In general:

  1. If you need lots of memory than you need Tesla or Quadro. Consumer cards ATM have max 1.5 Gb (GTX 480) while Teslas and Quadros up to 6 Gb.

  2. GF10x series cards have their double precision (FP64) performance capped at 1/8-th of the single precision (FP32) performance, while the architecture is capable of 1/2. Yet another market segmentation trick, quite popular nowadays among hardware manufacturers. Crippling the GeForce line is meant to give the Tesla line an advantage in HPC; GTX 480 is in fact faster than Tesla 20x0 - 1.34TFlops vs 1.03 TFlops, 177.4 Gb vs 144 Gb/sec (peak).

  3. Tesla and Quadro are (supposed to be) more thoroughly tested and therefore less prone to produce errors that are pretty much irrelevant in gaming, but when it comes to scientific computing, just a single bit flip can trash the results. NVIDIA claims that Tesla cards are QC-d for 24/7 use.

    A recent paper (Haque and Pande, Hard Data on Soft Errors: A Large-Scale Assessment of Real-World Error Rates in GPGPU) suggests that Tesla is indeed less error prone.

  4. My experience is that GeForce cards tend to be less reliable, especially at constant hight load. Proper cooling is very important, as well as avoiding overclocked cards including factory overclokced models (see Figure 1 of the previously mentioned paper).

So as a rule of thumb:

  • for development: GeForce (unless you absolutely need >1.5 Gb memory)
  • for production HPC/scientific computing:

    • Tesla: if you need lots of memory or FP64 (+reliability?)
    • Quadro if need FP64 and/or also need advanced rendering features (the new "Fermi" Teslas have similar rendering capabilities as a GeForce)

      If you want to use FP64 intensively, forget about GeForce, otherwise

    • **non factory-overclocked* GeForce*: saves money ;)

Back to the specifics of your question:

The two cards you mention are from entirely different league and therefor not directly comparable. If you need the Quadro's rendering features get a Quadro. Otherwise, Quadro is not really worth it especially not the 4000 which is even slower than a GTX 460 while it costs ~3.5x more. I think you're better off with a GTX 470 or 480, just make sure that you buy the ones with standard frequencies.

Note that the crippled GeForce double precision performance is not an issue in this comparison, but let me elaborate. As the Quadro 4000 is a low-end model with AFAIR only 450 MHz shaders (I can't find the reference ATM, but it should be definitely lower than the 5000 which is clocked at 513 MHz) which gives it around 115 GFlops FP64. At the same time, the capped GTX 480 is around 168 GFlops FP64 and even a GTX 460 is around 113 GFlops (peak).
Both the FP32 performance and memory bandwidth is much lower on the Quadro 4000 comapred to the GTX 480 (86.9 vs 177.4 GB/s)!

Note, that from the point of view of theoretical peak performance the GTX 480 (data sheet) is considerably faster than both Tesla C2050/2070 and Quadro 6000 which is reflected in most applications.

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  • Thank you for the thorough treatment. This explains a lot. For my purpose I got the GTX as I have no need for advanced rendering, but still can't afford the Tesla. I hope to get funding for it in the future if the work on the GTX 480 goes well. With the GTX is possible and benefit to down clocking it to achieve more reliable results? – Andrew Redd Sep 22 '10 at 14:53
  • Downclocking would surely help, but I'm not sure how much. This idea is supported by the fact that Tesla cards have both shader and RAM frequencies lower than the fastest GeForce. However, it's very difficunt to quantify how much lower the error rate gets. Therefore, I'm not sure it's worth loosing performance for getting a bit lower error rate. – pszilard Sep 22 '10 at 20:44
  • Also, you should definitely do a burn-in test (especially on on the production hardware) for a few days (e.g. with memtestG80) and you if don't get memory errors you're pretty much as safe as it gets. – pszilard Sep 22 '10 at 20:50
  • According to NVIDIA, Quadro 4000 has 243.2 GFlops (FP64) – netvope Jan 3 '12 at 8:47

There are some small advantages to the Quadro/Tesla cards not mentioned above:

  • ECC memory. Going along with the point about fewer bit errors, the Tesla cards and the high end Quadros (5000 and 6000, not .the 4000) have ECC memory, which should decrease the rate of soft errors.
  • Number of slots (and some related power and cooling issues). The Quadro 4000 is a single slot card. The Quadro 2000 is a single slot three quarter length card. While the GeForce GTX 480, 470, and even 460 can outdo the Quadro 4000 in single precision, you're not going to find them in a single slot. That means that if you putting it in a 1U server rack, or a blade, or if you want to have 6 GPUs working in parallel in a single server for GPGPU work, you can do some interesting things that aren't easy with the GeForce range. If you can massively reduce the number of blades or rack space that you need to take up, then the extra price for each individual card is well worth it. All of this is related to the binning of the chips.

Certainly these advantages don't make any difference for most people. For certain uses, though, they're critical.

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  • And, regarding the ECC: it seems that, at worst, there will be about 1 bit of error, per gigabyte, per hour (en.wikipedia.org/wiki/ECC_memory#Problem_background). Therefore, the specific scientifc purpose must be identified. If a random 1-bit error every hour (or so) is acceptable, single-precision is also acceptable, and a larger, hotter card is acceptable, it seems that the GTX is a much better deal - with essentially no disadvantages. If no error can be tolerated - not even 1 bit per hour - GTX cannot be used. – Dan Nissenbaum Apr 5 '12 at 15:26
  • Another link that discusses actual error rates for memory that does not utilize ECC: perspectives.mvdirona.com/2009/10/07/…. – Dan Nissenbaum Apr 5 '12 at 15:37
  • Note that ECC can cause trouble on current hardware and available CUDA versions (<=v4.1). In some cases large stream or device synchronization overheads (0.1-1 ms) can be observed when running on devices with ECC on. This is a known driver bug which can be partly if not fully remedied (it is related to the way ECC is implemented in hardware). – pszilard Apr 12 '12 at 12:36

The advantages of a "gamer" GPU (GeForce GTX series, like GTX 780) over "professional" GPU (Tesla series and Quadro series) for CUDA programming are:

  • GTX has better single precision performance
  • GTX has higher memory bandwidth
  • GTX costs much less


  • Quadro and Tesla generally have more memory
  • Quadro and Tesla offer better double precision performance
  • Some Quadro GPUs take only one PCI-E slot instead of two (as mentioned in another answer).

Clearly the choice of GPU depends on what you need in your application. But I think that for most applications GTX is a better choice. For example, in many image processing applications single precision is enough and GTX is clearly a better choice considering it performance and price. For example, in this article written by main developers of OpenCV GPU library the authors used NVidia GTX 580 for bench-marking their results against the CPU. I'd say go with Quadro or Tesla if you need better double precision performance or more memory.

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It's not obvious looking at the specs, but I think that your need for double precision suggests the Quadro 4000 is a better match. Although the GeForce 480 has more cores and twice as much memory bandwidth, at its heart it's a gaming card. Quadros are targeted at professional work, and better supported as a result. Also, the fact that the Quadro can do 64x antialiasing (vs. 32x on the GeForce) suggests a more capable card.

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  • The antialiasing is great for visuals, but I'm not working on anything visual, just raw scientific computations on GPU, lots of matrix multiplications and stuff like that. Does antialiasing help in that? Or should the only things that I'm looking for be number of cores and memory? – Andrew Redd Sep 20 '10 at 15:59
  • @Halpo: I simply meant that the FSAA numbers indicated a more capable card, not that you needed FSAA for your work. But intuitively, there's got to be a way to leverage FSAA for multigrid methods. Anyway, I think the double precision requirement is enough to point you to the Quadro. – Drew Hall Sep 20 '10 at 18:53
  • the Quadro 4000 is very low-end so while your comment about double precision is true in general, in the very comparison Halpo is making any GTX 4xx is clearly better. Thanks for reminding me about the double precision issue (see the edits above) ;) ! – pszilard Sep 22 '10 at 20:41

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