Further Reading

References

  1. Áfra, A. 2012. Incoherent ray tracing without acceleration structures. Eurographics 2012 Short Papers.
  2. Áfra, A. T., C. Benthin, I. Wald, and J. Munkberg. 2016. Local shading coherence extraction for SIMD-efficient path tracing on CPUs. Proceedings of High Performance Graphics (HPG ’16), 119–28.
  3. Azinović, D., T.-M. Li, A. Kaplanyan, and M. Nießner. 2019. Inverse path tracing for joint material and lighting estimation. In IEEE Conference on Computer Vision and Pattern Recognition, 2442–51.
  4. Badouel, D., and T. Priol. 1990. An efficient parallel ray tracing scheme for highly parallel architectures. In Proceedings of the Fifth Eurographics conference on Advances in Computer Graphics Hardware: Rendering, Ray Tracing and Visualization Systems (EGGH ’90), 93–106.
  5. Bangaru, S., T.-M. Li, and F. Durand. 2020. Unbiased warped-area sampling for differentiable rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 39 (6), 245:1–18.
  6. Barringer, R., and T. Akenine-Möller. 2014. Dynamic ray stream traversal. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2014) 33 (4), 151:1–9.
  7. Benthin, C., and I. Wald. 2009. Efficient ray traced soft shadows using multi-frusta tracing. In Proceedings of High Performance Graphics 2009, 135–44.
  8. Benthin, C., I. Wald, S. Woop, M. Ernst, and W. R. Mark. 2011. Combining single and packet ray tracing for arbitrary ray distributions on the Intel® MIC architecture. IEEE Transactions on Visualization and Computer Graphics 18 (9), 1438–48.
  9. Bitterli, B., C. Wyman, M. Pharr, P. Shirley, A. Lefohn, and W. Jarosz. 2020. Spatiotemporal reservoir resampling for real-time ray tracing with dynamic direct lighting. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 39 (4), 148:1–17.
  10. Boulos, S., I. Wald, and C. Benthin. 2008. Adaptive ray packet reordering. In Proceedings of IEEE Symposium on Interactive Ray Tracing, 131–38.
  11. Budge, B., T. Bernardin, J. Stuart, S. Sengupta, K. Joy, and J. D. Owens. 2009. Out-of-core data management for path tracing on hybrid resources. Computer Graphics Forum (Proceedings of Eurographics 2009) 28 (2), 385–96.
  12. Burley, B., D. Adler, M. J-Y. Chiang, H. Driskill, R. Habel, P. Kelly, P. Kutz, Y. K. Li, and D. Teece. 2018. The design and evolution of Disney’s Hyperion renderer. ACM Transactions on Graphics 37 (3), 33:1–22.
  13. Chen, Q., and V. Koltun. 2017. Photographic image synthesis with cascaded refinement networks. IEEE/CVF International Conference on Computer Vision (ICCV), 1511–20. arXiv:1707:09405 [cs.CV].
  14. Chen, X., D. Cohen-Or, B. Chen, and N. J. Mitra. 2021. Towards a neural graphics pipeline for controllable image generation. Computer Graphics Forum 40 (2), 127–40.
  15. Cho, I.-Y., Y. Huo, and S.-E. Yoon. 2021. Weakly-supervised contrastive learning in path manifold for Monte Carlo image reconstruction. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2021) 40 (4), 38:1–14.
  16. Christensen, P. H., D. M. Laur, J. Fong, W. L. Wooten, and D. Batali. 2003. Ray differentials and multiresolution geometry caching for distribution ray tracing in complex scenes. In Computer Graphics Forum (Eurographics 2003 Conference Proceedings) 22 (3), 543–52.
  17. Christensen, P. H., J. Fong, D. M. Laur, and D. Batali. 2006. Ray tracing for the movie Cars. In Proceedings of the IEEE Symposium on Interactive Ray Tracing, 1–6.
  18. Cleary, J. G., B. M. Wyvill, R. Vatti, and G. M. Birtwistle. 1983. Design and analysis of a parallel ray tracing computer. In Proceedings of Graphics Interface 1983, 33–38.
  19. Cook, R. L., L. Carpenter, and E. Catmull. 1987. The Reyes image rendering architecture. Computer Graphics (Proceedings of SIGGRAPH ’87) 21 (4), 95–102.
  20. Dachsbacher, C. 2011. Analyzing visibility configurations. IEEE Transactions on Visualization and Computer Graphics 17 (4), 475–86.
  21. Dammertz, H., J. Hanika, and A. Keller. 2008. Shallow bounding volume hierarchies for fast SIMD ray tracing of incoherent rays. Computer Graphics Forum 27 (4), 1225–33.
  22. Deering, M. F. 1995. Geometry compression. In Proceedings of SIGGRAPH ’95, Computer Graphics Proceedings, Annual Conference Series, 13–20.
  23. Dittebrandt, A., J. Hanika, and C. Dachsbacher. 2020. Temporal sample reuse for next event estimation and path guiding for real-time path tracing. Eurographics Symposium on Rendering, 1–13.
  24. Dongarra, J. J. 1984. Performance of various computers using standard linear equations software in a Fortran environment. ACM SIGNUM Newsletter 19 (1), 23–26.
  25. Eisenacher, C., G. Nichols, A. Selle, and B. Burley. 2013. Sorted deferred shading for production path tracing. Computer Graphics Forum (Proceedings of the 2013 Eurographics Symposium on Rendering) 32 (4), 125–32.
  26. Ernst, M., and G. Greiner. 2008. Multi bounding volume hierarchies. In Proceedings of the IEEE Symposium on Interactive Ray Tracing 2008, 35–40.
  27. Fascione, L., J. Hanika, M. Leone, M. Droske, J. Schwarzhaupt, T. Davidovič, A. Weidlich, and J. Meng. 2018. Manuka: A batch-shading architecture for spectral path tracing in movie production. ACM Transactions on Graphics 37 (3), 31:1–18.
  28. Fuetterling, V., C. Lojewski, F.-J. Pfreundt, B. Hamann, and A. Ebert. 2017. Accelerated single ray tracing for wide vector units. Proceedings of High Performance Graphics (HPG ’17), 6:1–9.
  29. Gatys, L. A., A. S. Ecker, and M. Bethge. 2016. Image style transfer using convolutional neural networks. Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 2414–23.
  30. Georgiev, I., and P. Slusallek. 2008. RTfact: Generic concepts for flexible and high performance ray tracing. In Proceedings of IEEE Symposium on Interactive Ray Tracing, 115–22.
  31. Ghosh, A., A. Doucet, and W. Heidrich. 2006. Sequential sampling for dynamic environment map illumination. Proceedings of the Eurographics Symposium on Rendering, 115–26.
  32. Gkioulekas, I., A. Levin, and T. Zickler. 2016. An evaluation of computational imaging techniques for heterogeneous inverse scattering. European Conference on Computer Vision (Proceedings of ECCV 2016), 685–701.
  33. Gkioulekas, I., S. Zhao, K. Bala, T. Zickler, and A. Levin. 2013b. Inverse volume rendering with material dictionaries. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia 2013) 32 (6), 162:1–13.
  34. Granskog, J., F. Rousselle, M. Papas, and J. Novák. 2020. Compositional neural scene representations for shading inference. ACM Transactions on Graphics 39 (4), 135:1–13.
  35. Green, S. A., and D. J. Paddon. 1989. Exploiting coherence for multiprocessor ray tracing. IEEE Computer Graphics and Applications 9 (6), 12–26.
  36. Gribble, C., and K. Ramani. 2008. Coherent ray tracing via stream filtering. Proceedings of IEEE Symposium on Interactive Ray Tracing, 59–66.
  37. Griewank, A., and A. Walther. 2008. Evaluating derivatives: Principles and techniques of algorithmic differentiation (2nd ed.). Society for Industrial and Applied Mathematics.
  38. Hašan, M., and R. Ramamoorthi. 2013. Interactive albedo editing in path-traced volumetric materials. ACM Transactions on Graphics 32 (2), 11:1–11.
  39. Hanika, J., A. Keller, and H. P. A. Lensch. 2010. Two-level ray tracing with reordering for highly complex scenes. Proceedings of Graphics Interface 2010, 145–52.
  40. Hao, Z., A. Mallya, S. Belongie, and M.-Y. Liu. 2021. GANcraft: Unsupervised 3D neural rendering of Minecraft worlds. IEEE/CVF International Conference on Computer Vision (ICCV). arXiv:2104.07659 [cs.CV].
  41. Hasselgren, J., J. Munkberg, A. Patney, M. Salvi, and A. Lefohn. 2020. Neural temporal adaptive sampling and denoising. Computer Graphics Forum 39 (2), 147–55.
  42. Hermosilla, P., S. Maisch, T. Ritschel, and T. Ropinski. 2019. Deep-learning the latent space of light transport. Computer Graphics Forum 38 (4), 207–17.
  43. Hertzmann, A. 2003. Machine learning for computer graphics: A manifesto and tutorial. Proceedings of the 11th Pacific Conference on Computer Graphics and Applications (PG ’03).
  44. Karras, T., S. Laine, and T. Aila. 2018. A style-based generator architecture for generative adversarial networks. Computer Vision and Pattern Recognition, 4396–405.
  45. Karras, T., S. Laine, M. Aittala, J. Hellsten, J. Lehtinen, and T. Aila. 2020. Analyzing and improving the image quality of StyleGAN. Computer Vision and Pattern Recognition, 8110–19.
  46. Kato, H., Y. Ushiku, and T. Harada. 2018. Neural 3D mesh renderer. IEEE Conference on Computer Vision and Pattern Recognition, 3907–16.
  47. Keller, A., and C. Wächter. 2011. Efficient ray tracing without auxiliary acceleration data structure. High Performance Graphics 2011 Poster.
  48. Khungurn, P., D. Schroeder, S. Zhao, K. Bala, and S. Marschner. 2015. Matching real fabrics with micro-appearance models. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2015) 35 (1), 1:1–26.
  49. Kingma, D. P., and J. Ba. 2014. Adam: A method for stochastic optimization. 3rd International Conference on Learning Representations, (ICLR). San Diego, CA, USA. arXIV:1412.6980 [cs.LG].
  50. Kuznetsov, A., K. Mullia, Z. Xu, M. Hašan, and R. Ramamoorthi. 2021. NeuMIP: Multi-resolution neural materials. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 175:1–13.
  51. Laine, S., J. Hellsten, T. Karras, Y. Seol, J. Lehtinen, and T. Aila. 2020. Modular primitives for high-performance differentiable rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 39 (6), 194:1–14.
  52. Lee, M., B. Green, F. Xie, and E. Tabellion. 2017. Vectorized production path tracing. In Proceedings of High Performance Graphics (HPG ’17), 10:1–11.
  53. Li, T.-M., M. Aittala, F. Durand, and J. Lehtinen. 2018. Differentiable Monte Carlo ray tracing through edge sampling. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 37 (6), 222:1–11.
  54. Liu, S., W. Chen, T. Li, and H. Li. 2019a. Soft rasterizer: Differentiable rendering for unsupervised single-view mesh reconstruction. IEEE/CVF International Conference on Computer Vision (ICCV), 7708–17.
  55. Longbottom, Roy. 2017. Roy Longbottom’s PC Benchmark Collection. http://www.roylongbottom.org.uk/linpack%20results.htm.
  56. Loper, M. M., and M. J. Black. 2014. OpenDR: An approximate differentiable renderer. European Conference on Computer Vision (Proceedings of ECCV 2014), 154–69.
  57. Loubet, G., N. Holzschuch, and W. Jakob. 2019. Reparameterizing discontinuous integrands for differentiable rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 38 (6), 1–14.
  58. Müller, T., B. McWilliams, F. Rousselle, M. Gross, and J. Novák. 2019. Neural importance sampling. ACM Transaction on Graphics (presented at SIGGRAPH 2019) 38 (5), 145:1–19.
  59. Müller, T., F. Rousselle, A. Keller, and J. Novák. 2020. Neural control variates. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 39 (6), 243:1–19.
  60. Müller, T., F. Rousselle, J. Novák, and A. Keller. 2021. Real-time neural radiance caching for path tracing. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 36:1–16.
  61. Mansson, E., J. Munkberg, and T. Akenine-Möller. 2007. Deep coherent ray tracing. In Proceedings of IEEE Symposium on Interactive Ray Tracing, 79–85.
  62. Mildenhall, B., P. P. Srinivasan, M. Tancik, J. T. Barron, R. Ramamoorthi, and R. Ng. 2020. NeRF: Representing scenes as neural radiance fields for view synthesis. European Conference on Computer Vision (ECCV). arXiv:2003.08934 [cs.CV].
  63. Moon, B., Y. Byun, T.-J. Kim, P. Claudio, H.-S. Kim, Y.-J. Ban, S. W. Nam, and S.-E. Yoon. 2010. Cache-oblivious ray reordering. ACM Transactions on Graphics 29 (3), 28:1–10.
  64. Mora, B. 2011. Naive ray-tracing: A divide-and-conquer approach. ACM Transactions on Graphics 30 (5), 117:1–12.
  65. Munkberg, J., J. Hasselgren, P. Clarberg, M. Andersson, and T. Akenine-Möller. 2016. Texture space caching and reconstruction for ray tracing. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 35 (6), 249:1–13.
  66. Nabata, K., K. Iwasaki, Y. Dobashi, and T. Nishita. 2013. Efficient divide-and-conquer ray tracing using ray sampling. In Proceedings of High Performance Graphics 2013, 129–35.
  67. Nalbach, O., E. Arabadzhiyska, D. Mehta, H.-P. Seidel, and T. Ritschel. 2017. Deep shading: Convolutional neural networks for screen space shading. Computer Graphics Forum 36 (4), 65–78.
  68. Nicolet, B., A. Jacobson, and W. Jakob. 2021. Large steps in inverse rendering of geometry. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 40 (6), 248:1–13.
  69. Nimier-David, M., D. Vicini, T. Zeltner, W. Jakob. 2019. Mitsuba 2: A retargetable forward and inverse renderer. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2019) 38 (6), 203:1–17.
  70. Nimier-David, M., S. Speierer, B. Ruiz, and W. Jakob. 2020. Radiative backpropagation: An adjoint method for lightning-fast differentiable rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 39 (4), 146:1–15.
  71. Nowrouzezahrai, D., E. Kalogerakis, and E. Fiume. 2009. Shadowing dynamic scenes with arbitrary BRDFs. Computer Graphics Forum (Proceedings of Eurographics) 28 (2), 249–58.
  72. Ouyang, Y., S. Liu, M. Kettunen, M. Pharr, and J. Pantaleoni. 2021. ReSTIR GI: Path resampling for real-time path tracing. Computer Graphics Forum (Proceedings of High Performance Graphics 2021)40 (8), 17–29.
  73. Pérard-Gayot, A., R. Membarth, R. Leißa, S. Hack, and P. Slusallek. 2019. Rodent: Generating renderers without writing a generator. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2019) 38 (4), 40:1–12.
  74. Park, T., M. Liu, T. Wang, and J. Zhu. 2019. Semantic image synthesis with spatially-adaptive normalization. IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), 2332–41.
  75. Parker, S. G., J. Bigler, A. Dietrich, H. Friedrich, J. Hoberock, D. Luebke, D. McAllister, M. McGuire, K. Morley, A. Robison, and M. Stich. 2010. OptiX: A general purpose ray tracing engine. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2010) 29 (4), 66:1–13.
  76. Parker, S., S. Boulos, J. Bigler, and A. Robison. 2007. RTSL: A ray tracing shading language. In Proceedings of IEEE Symposium on Interactive Ray Tracing, 149–60.
  77. Parker, S., W. Martin, P.-P. J. Sloan, P. S. Shirley, B. Smits, and C. Hansen. 1999. Interactive ray tracing. In 1999 ACM Symposium on Interactive 3D Graphics, 119–26.
  78. Peachey, D. R. 1990. Texture on demand. Pixar Technical Memo #217.
  79. Pharr, M., and P. Hanrahan. 1996. Geometry caching for ray-tracing displacement maps. In Eurographics Rendering Workshop 1996, 31–40.
  80. Pharr, M., and W. R. Mark. 2012. ispc: A SPMD compiler for high-performance CPU programming. In Proceedings of Innovative Parallel Computing (InPar), 1–13.
  81. Pharr, M., C. Kolb, R. Gershbein, and P. M. Hanrahan. 1997. Rendering complex scenes with memory-coherent ray tracing. In Proceedings of SIGGRAPH ’97, Computer Graphics Proceedings, Annual Conference Series, 101–8.
  82. Rainer, G., W. Jakob, A. Ghosh, and T. Weyrich. 2019. Neural BTF compression and interpolation. Computer Graphics Forum 38 (2), 235–44.
  83. Rainer, R., A. Ghosh, W. Jakob, and T. Weyrich. 2020. Unified neural encoding of BTFs. Computer Graphics Forum 39 (2), 167–78.
  84. Ren, P., J. Wang, M. Gong, S. Lin, X. Tong, and B. Guo. 2013. Global illumination with radiance regression functions. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2013) 32 (4), 130:1–12.
  85. Reshetov, A. 2007. Faster ray packets–triangle intersection through vertex culling. In Proceedings of IEEE Symposium on Interactive Ray Tracing, 105–12.
  86. Reshetov, A., A. Soupikov, and J. Hurley. 2005. Multi-level ray tracing algorithm. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2005) 24 (3), 1176–85.
  87. Rhodin, H., N. Robertini, C. Richardt, H.-P. Seidel, and C. Theobalt. 2015. A versatile scene model with differentiable visibility applied to generative pose estimation. IEEE/CVF International Conference on Computer Vision (ICCV). arXiv:1602.03725 [cs.CV].
  88. Rupp, K. 2020. Microprocessor trend data. https://github.com/karlrupp/microprocessor-trend-data.
  89. Rushmeier, H., C. Patterson, and A. Veerasamy. 1993. Geometric simplification for indirect illumination calculations. In Proceedings of Graphics Interface 1993, 227–36.
  90. Scherzer, D., L. Yang, O. Mattausch, D. Nehab, P. V. Sander, M. Wimmer, and E. Eisemann. 2011. A survey on temporal coherence methods in real-time rendering. In EUROGRAPHICS 2011—State of the Art Reports, 101–26.
  91. Schied, C., C. Peters, and C. Dachsbacher. 2018. Gradient estimation for real-time adaptive temporal filtering. Proceedings of the ACM on Computer Graphics and Interactive Techniques 1 (2), 24:1–16.
  92. Schied, S., A. Kaplanyan, C. Wyman, A. Patney, C. R. Alla Chaitanya, J. Burgess, S. Liu, C. Dachsbacher, A. Lefohn, and M. Salvi. 2017. Spatiotemporal variance-guided filtering: Real-time reconstruction for path-traced global illumination. In Proceedings of High Performance Graphics (HPG ’17), 2:1–12.
  93. Stam, J. 2020. Computing light transport gradients using the adjoint method. arXiv:2006.15059 [cs.GR].
  94. Standard Performance Evaluation Corporation. 2006. CINT2006 (Integer Component of SPEC CPU2006). https://www.spec.org/cpu2006/CINT2006/.
  95. Tewari, A., O. Fried, J. Thies, V. Sitzmann, S. Lombardi, K. Sunkavalli, R. Martin-Brualla, T. Simon, J. Saragih, M. Nießner, R. Pandey, S. Fanello, G. Wetzstein, J.-Y. Zhu, C. Theobalt, M. Agrawala, E. Shechtman, D. B. Goldman, and M. Zollhöfer. 2020. State of the art on neural rendering. Computer Graphics Forum (Eurographics State of the Art Report) 39 (2), 701–27.
  96. Tsakok, J. 2009. Faster incoherent rays: Multi-BVH ray stream tracing. In Proceedings of High Performance Graphics 2009, 151–58.
  97. Vicini, D., S. Speierer, and W. Jakob. 2021. Path replay backpropagation: Differentiating light paths using constant memory and linear time. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 108:1–14.
  98. Vorba, J., O. Karlík, M. Šik, T. Ritschel, and J. Křivánek. 2014. On-line learning of parametric mixture models for light transport simulation. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2014) 33 (4), 101:1–11.
  99. Wald, I., C. Benthin, and P. Slusallek. 2003. Interactive global illumination in complex and highly occluded environments. In Eurographics Symposium on Rendering: 14th Eurographics Workshop on Rendering, 74–81.
  100. Wald, I., C. Benthin, and S. Boulos. 2008. Getting rid of packets–efficient SIMD single-ray traversal using multibranching BVHs. In Proceedings of the IEEE Symposium on Interactive Ray Tracing 2008, 49–57.
  101. Wald, I., P. Slusallek, and C. Benthin. 2001b. Interactive distributed ray tracing of highly complex models. In Rendering Techniques 2001: 12th Eurographics Workshop on Rendering, 277–88.
  102. Wald, I., P. Slusallek, C. Benthin, and M. Wagner. 2001a. Interactive rendering with coherent ray tracing. Computer Graphics Forum 20 (3), 153–64.
  103. Wald, I., S. Woop, C. Benthin, G. S. Johnson, and M. Ernst. 2014. Embree: A kernel framework for efficient CPU ray tracing. ACM Transactions on Graphics (Proceedings of SIGGRAPH 2014) 33 (4), 143:1–8.
  104. Wald, I., T. Kollig, C. Benthin, A. Keller, and P. Slusallek. 2002. Interactive global illumination using fast ray tracing. In Rendering Techniques 2002: 13th Eurographics Workshop on Rendering, 15–24.
  105. Ward, G. 1992. Real pixels. In J. Arvo (ed.), Graphics Gems IV, 80–83. San Diego: Academic Press.
  106. Ward, G. J., F. M. Rubinstein, and R. D. Clear. 1988. A ray tracing solution for diffuse interreflection. Computer Graphics (SIGGRAPH ’88 Proceedings), Volume 22, 85–92.
  107. Yoon, S.-E., C. Lauterbach, and D. Manocha. 2006. R-LODs: Fast LOD-based ray tracing of massive models. The Visual Computer 22 (9), 772–84.
  108. Zeltner, T., S. Speierer, I. Georgiev, and W. Jakob. 2021. Monte Carlo estimators for differential light transport. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 78:1–16.
  109. Zhang, C., B. Miller, K. Yan, I. Gkioulekas, and S. Zhao. 2020. Path-space differentiable rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 39 (4), 143:1–19.
  110. Zhang, C., L. Wu, C. Zheng, I. Gkioulekas, R. Ramamoorthi, and S. Zhao. 2019. A differential theory of radiative transfer. ACM Transactions on Graphics (Proceedings of SIGGRAPH Asia) 38 (6), 227:1–16.
  111. Zhang, C., Z. Dong, M. Doggett, and S. Zhao. 2021a. Antithetic sampling for Monte Carlo differentiable rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 77:1–12.
  112. Zhang, C., Z. Yu, and S. Zhao. 2021b. Path-space differentiable rendering of participating media. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 76:1–15.
  113. Zhao, S., L. Wu, F. Durand, and R. Ramamoorthi. 2016. Downsampling scattering parameters for rendering anisotropic media. ACM Transactions on Graphics 35 (6), 166:1–11.
  114. Zhu, J., Y. Bai, Z. Xu, S. Bako, E. Velázquez-Armendáriz, L. Wang, P. Sen, M. Hašan, and L.-Q. Yan. 2021. Neural complex luminaires: Representation and rendering. ACM Transactions on Graphics (Proceedings of SIGGRAPH) 40 (4), 57:1–12.