A single-chip MPEG-2 video, audio, and system encoder LSI has been developed. It performs concurrent real-time processing of MPEG-2 422P@ML video encoding, 2-channel Dolby Digital or MPEG-1 audio encoding, and system encoding that generates a multiplexed transport stream (TS) or a program stream (PS). Advanced hybrid architecture, which combines a high performance VLIW media-processor D30V and hardwired video processing circuits, has been adopted to satisfy the demands of both high flexibility and enormous computational capability. A unified control scheme has been newly proposed that hierarchically manages adaptive task priority control over asynchronous video, audio, and system encoding processes in order to achieve real-time concurrent processing using a single D30V. Dual dedicated motion estimation cores consisting of a coarse ME core (CME) for wide range searches and a fine ME core (FME) for precise searches have been integrated to produce high picture quality while using a small amount of hardware. Adopting these features, a single-chip encoder has been fabricated using 0.25-micron 4-layer metal CMOS technology, and integrated into a 14.2 mm 14.2 mm die with 11 million transistors.

This paper describes an embedded software scheme for a single-chip MPEG-2 encoder that executes concurrent video, audio, and system encoding in real-time. The software features a scalable module structure, which is hierarchically composed and has expandable plug-in modules. For increased applicability, several task-modules are prepared for the respective video, audio, and system processing. In addition, an effective task management scheme that features polling and interrupt-based task switching has been proposed in order to achieve real-time operation. The software having these features and including all task-modules is implemented on a single media-processor D30V on a single chip MPEG-2 video, audio, and system encoder. This encoder realizes real-time MPEG-2 video encoding, Dolby Digital or MPEG-1 audio encoding, and system encoding that generates TS or PS over 50 Mbps for various applications. Assuming a DVD or DTV encoder system, the software is reconstructed with less than 56.6-kbytes of instruction and 145.6 MIPS performance. The single media-processor with 64-kbytes of instruction RAM and 162 MIPS performance, running at a clock rate of 162 MHz, can successfully accomplish a real-time operation with the proposed embedded software.