Denoising Monte Carlo renderings using neural networks with asymmetric loss

Assignees

• Disney Enterprises, Inc. · US
• PIXAR · US

Inventors

• Thijs Vogels · Lausanne, CH
• Fabrice Rousselle · Ostermundigen, CH
• Jan Novak · Meilen, CH
• Brian McWilliams · Zürich, CH
• Mark Meyer · Davis, US
• Alex Harvill · Berkeley, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG06T2207/20182
• WIPO fieldComputer technology
• WIPO sectorElectrical engineering

Abstract

A modular architecture is provided for denoising Monte Carlo renderings using neural networks. The temporal approach extracts and combines feature representations from neighboring frames rather than building a temporal context using recurrent connections. A multiscale architecture includes separate single-frame or temporal denoising modules for individual scales, and one or more scale compositor neural networks configured to adaptively blend individual scales. An error-predicting module is configured to produce adaptive sampling maps for a renderer to achieve more uniform residual noise distribution. An asymmetric loss function may be used for training the neural networks, which can provide control over the variance-bias trade-off during denoising.