Real-time software MPEG-1 video decoder design for low-cost, low-power applications

Abstract

This paper presents a real-time MPEC-1 video decoder implemented in software on a DSP-enhanced, 160-mW, 100-MHz, 32-bit microprocessor. The processor's DSP-oriented instructions improves the performance of generic DSP operations such as the inverse discrete cosine transform, while fast software algorithms that perform parallel operation on packed-pixel data are developed for processes unique to video decoding such as motion compensation. Furthermore, to reduce the clock count as well as the instruction count, load/store scheduling and cache miss reduction are performed. In total, the processor can achieve 30 frames/sec MPEC-1 video decoding at a cost and power dissipation (160 mW) comparable to dedicated LSIs.