In this paper, we introduce a processor called Media Core Processor (MCP), which targets a system solution for consumer multimedia products. MCP is a heterogeneous multi-processor system designed to guarantee full frame MPEG decoding, and to reduce power consumption. In our processor architecture, each processing unit is optimized to support various characteristics of media processing. All processing units work in parallel in a macro-pipeline manner, thereby achieving high utilization of the processing units. A performance evaluation shows that audio/video full-frame decoding can be realized on 54 MHz operating frequency without any support from external hardware or a CPU. In addition, the high programmability of the MCP provides flexibility and reduces the time-to-market.

The design procedure of a multithreaded processor dedicated to the image generation is described, which can be achieved by means of a high-level synthesis tool PARTHENON. The processor employs a multithreaded architecture which is a novel promising approach to the parallel image generation. This paper puts special stress on the high-level synthesis scheme which can simplify the behavioral description for the structure and control of a complex hardware, and therefore enables the design of a complicated mechanism for a multithreaded processor. Implementation results of the synthesis are also shown to demonstrate the performance of the designed processor. This processor greatly improves the throughput of the image generation so far attained by the conventional approach.