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qsim 0.16 requires more RAM for a simple Hadamards circuit compared to qsim 0.12 #612
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It could also be due to older versions of Cirq for the qsimcirq 0.13 that I tested. I did it on an older version of cuQuantum Appliance, which has an older Cirq. |
I tried qsimcirq 0.16.3 + Cirq 0.14, still OOM-ed. As such, the code that causes the increased memory cost is very likely in the qsim repo. |
Thanks for raising this issue! The root cause has several parts:
The appropriate solution to this likely involves passing the buffer qsim uses in its C++ layer up to the python level so we can recycle it for |
I see, it's a relief knowing the cause.
Why is the return type in qsim/pybind_interface/pybind_main.cpp Line 520 in 72a96d5
py::array_t<float> instead of complex?
(digression: I suppose a full solution to the issue requires changing pybind_main.cpp to expose the buffer, and thus requires a recompilation. Unfortunately, I can't recompile qsim from scratch because I'm using cuQuantum Appliance, which has custom modifications over qsim, especially the multi-GPU backend. Seems to require #601 to be solved) |
@sergeisakov would know best, but I believe this is because qsim stores the state as a float array for vector operations. Real and imaginary components of each complex value are stored as separate floats and recombined once the result surfaces in python. |
Yes, this is correct. |
Why do you think this issue is related to #601? |
NVM, that was a digression comment specific to my use case. Though I was mistaken that the issue in that comment is related to #601, because the cuQuantum Appliance would still contain (proprietary? [1]) modifications over qsim, even if there is a dynamic link to CUDA and cuQuantum. [1] I can't seem to find the string |
Yes, it seems the cuQuantum Appliance contains proprietary modifications over qsim. |
A note on performance. Just running sim = cirq.Simulator()
sim.simulate(qc_cirq) doesn't really perform any simulation. Running, say, sim = cirq.Simulator()
result = sim.simulate(qc_cirq)
print(result.state_vector()[0]) performs simulation and it takes 130 seconds on an a2-highgpu-1g (not just 2 seconds). Running that with |
I see.
I believe the OOM issue on a2-highgpu-1g happens even on deep circuits, because of the post-simulation creation of |
Yes, the OOM issue happens even on deep circuits. I think this issue should be fixed on the Cirq level. Cirq has another line state_vector = state_vector.copy() that allocates memory in addition to buffer = np.empty_like(state_vector). So Cirq allocates two buffers and it does not recycle the buffer that it gets from the C++ layer. |
I tried commenting out the I suppose, in addition to reusing the buffer from the C++ layer, there needs to be a flag in |
I think it should be safe to do so.
Yes, something like that. |
I was running the following code on a cuQuantum Appliance 23.03 Docker instance, on an a2-highgpu-1g, with a RAM of 85 GB:
The code ran just fine with
cirq.Simulator()
, taking 2 s in total. It ran fine withqsimcirq.QSimSimulator()
for qsimcirq 0.12, taking ~19 s in total (probably could be optimized to ~2 s), and ran fine for qsimcirq 0.13, taking ~1 min 8 s. But for qsimcirq 0.14 and 0.16, I gotThe line where the error happens, is for construction of the final state vector after the simulation has finished.
The most I can bisect is between releases, and so it is due to change(s) between 0.13 and 0.14. Any idea what could be the cause?
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