AIM Workshop and Challenge @ ECCV 2020
Efficient Super-Resolution Challenge
Please visit main_challenge_sr.py to evaluate your model.
AIM Workshop and Challenge @ ICCV 2019
Constrained Super-Resolution Challenge
Jointly with AIM workshop we have an AIM challenge on Constrained Super-Resolution, that is, the task of super-resolving (increasing the resolution) an input image with a magnification factor x4 based on a set of prior examples of low and corresponding high resolution images. The challenge has three tracks.
Track 1: Parameters, the aim is to obtain a network design / solution with the lowest amount of parameters while being constrained to maintain or improve the PSNR result and the inference time (runtime) of MSRResNet (Ledig et al, 2017 & Wang et al, 2018).
Track 2: Inference, the aim is to obtain a network design / solution with the lowest inference time (runtime) on a common GPU (ie. Titan Xp) while being constrained to maintain or improve over MSRResNet (Ledig et al, 2017 & Wang et al, 2018) in terms of number of parameters and the PSNR result.
Track 3: Fidelity, the aim is to obtain a network design / solution with the best fidelity (PSNR) while being constrained to maintain or improve over MSRResNet (Ledig et al, 2017 & Wang et al, 2018) in terms of number of parameters and inference time on a common GPU (ie. Titan Xp).
Baseline model (MSRResNet)
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Number of parameters: 1,517,571 (1.5M)
number_parameters = sum(map(lambda x: x.numel(), model.parameters()))
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Average PSNR on validation data: 29.00 dB
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Average inference time (Titan Xp) on validation data: 0.170 second
Note: I selected the best average inference time among three trials
Run test_demo.py to test the model