For non-iterative optimal rate control, HTJ2K encoders with the highest throughputs and lowest hardware encoding footprints need a strategy for constraining the number of so-called HT-Sets that are generated ahead of the classic Post-Compression Rate-Distortion optimization (PCRD-opt) process. This paper demonstrates the benefits that HTJ2K brings to video content production and delivery, including cloud-based processing workflows and low latency video content streaming over IP networks, considering CPU, GPU and FPGA-based platforms. HTJ2K introduces an alternative block coding algorithm that allows extremely high processing throughputs, while preserving all other aspects of the JPEG 2000 framework and offering truly reversible transcoding with the original block coded representation. HTJ2K addresses a long-standing limitation of the original JPEG 2000 family of standards: relatively low throughput on CPU and GPU platforms. JPEG 2000 has one of the richest feature sets of any coding standard, including scalability, region-of-interest accessibility and non-iterative optimal rate control. JPEG 2000 Part-1 has long been used as a key component in the production, archival and distribution of video content, as the distribution format for Digital Cinema, and an Interoperable Master Format from which streaming video services are commonly derived. ITU-T Rec T.814 | IS 15444-15, known as High Throughput JPEG 2000, or simply HTJ2K, is Part-15 in the JPEG 2000 series of standards, published in 2019 by the ITU and ISO/IEC. 5Takushoku University, Department of Electronics and Computer Systems, Tokyo, Japan.4Sandflow Consulting LLC, San Mateo, CA, United States. ![]() 3Wavelet Consulting LLC, Burbank, CA, United States.2Kakadu Software Pty Ltd., Sydney, NSW, Australia.1Interactive Visual Media Processing Laboratory (IVMP), University of New South Wales (UNSW), School of Electrical Engineering and Telecommunications, Sydney, NSW, Australia.David Taubman 1,2*, Aous Naman 1, Michael Smith 3, Pierre-Anthony Lemieux 4, Hassaan Saadat 1,2, Osamu Watanabe 5 and Reji Mathew 1
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