Inter-Frame Parallelization in an Open Optimized VVC Encoder

The Versatile Video Coding (VVC) standard promises high compression efficiency for diverse content types. Based on VVenC, an open and optimized VVC software video encoder, this work presents an inter-frame parallelization (IFP) method designed to exploit the processing power of modern platforms featuring a high number of computing cores. Encoding an ultrahigh definition video on a 32-core machine with the VVenC's faster preset, the proposed method shows more than 20% increase in encoder speed while only a 1% decrease in compression efficiency compared to the default multi-threading mode. In comparison to single-threaded mode, it corresponds to a speedup factor of 18, up from 15x achievable with the previous parallelization scheme. Furthermore, the synergy of the developed inter-frame parallelization technique with other parallelization methods is explored, including tiles and VVC wavefront parallel processing (WPP). The combination of these approaches enables a notable speedup factor of 21, albeit with a trade-off in coding efficiency. With a focus on VVC, this research contributes to the ongoing discourse on video coding optimization, providing valuable insights into possible pitfalls and the potential gains achievable through efficient parallelization techniques on high-core platforms.