@techreport{oai:ipsj.ixsq.nii.ac.jp:00039179,
 author = {河合, 利幸 and 若井, 裕久 and 正田, 博司 and 西村, 仁志 and 近藤, 仁志 and 高山, 浩一郎 and 出口, 弘 and 白川, 功 and 大村皓一 and Toshiyuki, Kawai and Hirohisa, Wakai and Hiroshi, Shoda and Hitoshi, Nishimura and Hitoshi, Kondo and Koichiro, Takayama and Hiroshi, Deguchi and Isao, Shirakawa and Koichi, Omura},
 issue = {44(1985-CG-019)},
 month = {Oct},
 note = {A great number of approaches have been proposed to 3D image generation  among which a prallel processing implementation is believed to be most promising. Motivated by this  we have developed a 3D image generation scheme on parallel multicomputer system LINKS-1. Based on a variety of experimental results on it  a more powerful system is under development to improve efficiency of 3D image generation. In this paper this new system is described  stressing the hardware configuration. It is distinctive in that a unit computer is composed of a data processing unit performing 32 bit floating point operations at the speed of 5 MFLOPS  an index unit performing addressing operations  a channel processor for communication control  etc. Performance evaluations are also estimated., A great number of approaches have been proposed to 3D image generation, among which a prallel processing implementation is believed to be most promising. Motivated by this, we have developed a 3D image generation scheme on parallel multicomputer system LINKS-1. Based on a variety of experimental results on it, a more powerful system is under development to improve efficiency of 3D image generation. In this paper this new system is described, stressing the hardware configuration. It is distinctive in that a unit computer is composed of a data processing unit performing 32 bit floating point operations at the speed of 5 MFLOPS, an index unit performing addressing operations, a channel processor for communication control, etc. Performance evaluations are also estimated.},
 title = {画像生成用マルチコンピュータシステムとプロセッサについて},
 year = {1985}
}