Control Divergence Optimization through Partial Warp Regrouping in GPGPUs-Reference-Cited by-同舟云学术

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Control Divergence Optimization through Partial Warp Regrouping in GPGPUs

Published:2018 Issue: Volume: Page:
ISSN:
Container-title:Proceedings of the 2018 2nd International Conference on Computer Science and Artificial Intelligence - CSAI '18
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Author:

Yang Yaohua¹,Zhang Shiqing¹,Shen Li¹

Affiliation:

1. School of computer, National University of Defense, Technology

Publisher

ACM Press

Reference20 articles.

1. NVIDIA Corporation. NVIDIA's Next Generation CUDA Compute Architecture: Fermi, 2009

2. Fung, W. W. L., Sham, I., Yuan, G., and Aamodt, T. M. 2007. Dynamic Warp Formation and Scheduling for Efficient GPU Control Flow. In Proceedings of the 40th Annual IEEE/ACM International Symposium on Microarchitecture (MICRO 40). IEEE Computer Society, Washington, DC, USA, 407--420. DOI=http://dx.doi.org/10.1109/MICRO.2007.30

3. Lü, Y., Huang, L., and Shen, L. 2017. Unleashing the power of GPU for physically-based rendering via dynamic ray shuffling. In Proceedings of the 50th Annual IEEE/ACM International Symposium on Microarchitecture (MICRO-50). ACM, Boston, USA. 560--573. DOI=http://dx.doi.org/10.1145/3123939.3124532

4. Rhu, M. and Erez, M. 2013. Maximizing SIMD resource utilization in GPGPUs with SIMD lane permutation. In Proceedings of the 40th Annual International Symposium on Computer Architecture (ISCA '13). ACM, New York, NY, USA, 356--367. DOI=http://dx.doi.org/10.1145/2485922.2485953

5. Rhu, M. and Erez, M. 2012. CAPRI: prediction of compaction-adequacy for handling control-divergence in GPGPU architectures. In Proceedings of the 39th Annual International Symposium on Computer Architecture (ISCA '12). ACM, Portland, USA, 61--71. DOI=https://doi.org/10.1109/ISCA.2012.6237006

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