DSPアレイによるポログレッシブラジオシティの実現
スポンサーリンク
概要
- 論文の詳細を見る
Pogressive radiosity has been implemented in parallel on a 32 node MIND type of digital signal processor(DSP)array. Linear speed-up is achieved for radiosity as well as for the final image rendering which is implemented by ray tracing. As computer graphics(CG)methods are getting more sophisticated, the requirement to processing power is increasing. Applying radiosity results in highly photorealistic images, however, high computational demands is the price. This makes it attractive to implement radiosity in parallel. Parallel implementations of radiosity has been reported such as loosely coupled workstations or network of transputers. As radiosity contaons, like ray tracing, a relative large amount of floating point operations, it is suitable for implementation on floating point DSPs.
- 社団法人電子情報通信学会の論文
- 1995-03-27
著者
-
黒田 一朗
Nec
-
レビソン ヤコブ
Information Technology Research Laboratories, NEC Corporation
-
黒田 一朗
Information Technology Research Laboratories, NEC Corporation
-
レビソン ヤコブ
Information Technology Research Laboratories Nec Corporation
-
黒田 一朗
Information Technology Research Laboratories Nec Corporation
関連論文
- Priority Queue Based Task Manager for Single Chip Parallel DSP
- A-4-8 低電力DSPを用いたMPEG-4 AVコーデックの開発
- 正負対称丸め積和演算器
- 携帯マルチメディア端末向け低電力並列DSP
- 汎用DSPを用いたH.320テレビ会議システムの試作
- 低電力 DSP を用いた H.263 ビデオコーデックの開発
- SIMD演算器へのノルム計算命令組み込み手法の検討
- DSPアレイによるポログレッシブラジオシティの実現