Shunichi Torii
Hitachi
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Publication
Featured researches published by Shunichi Torii.
international conference on data engineering | 1988
Shunichi Torii; Keiji Kojima; Yasusi Kanada; Akiharu Sakata; Seiichi Yoshizumi; Masami Takahashi
The problems of utilizing an extended vector processor called IDP (Integrated Database Processor) for nonnumerical processing are discussed. IDP has highly pipelined merge and search vector facilities in addition to conventional vector facilities. This extended vector processor can be utilized not only for primitive relational operations but also for the following applications: (1) complex relational query using multiple indexes; (2) multiway merge/sort utility, and (3) generation and test processing. Vectorization methods and performance improvements are described and analyzed.<<ETX>>
international conference on data engineering | 1987
Shunichi Torii; Keiji Kojima; Seiichi Yoshizumi; Akiharu Sakata; Yoshifumi Takamoto; Shun Kawabe; Masami Takahashi; Tsuguo Ishizuka
A new relational database system architecture based on a vector processing method is presented. The similarity between table and vector structures was studied. This similarity implies that vector processors have high potential for the improvement of Relational Data Base Management System (RDBMS) performance. In commercial RDBMSs, however, data records are internally organized in complex pointer structures, to which vector processing is not directly applicable. We propose a new vectorization method by which data in the pointer structures are dynamically rearranged into vector form, and collectively processed using a pipelined vector processor. A new pipelined vector processor called an Integrated Database Processor (IDP) which is particularly suitable for our vectorization strategy was developed. IDP is designed as an optional hardware for a general purpose computer. The vectorization method and IDP are applied to Hitachis new, recently-announced, commercial RDBMS (called RDB1/IDP). In this paper, the vectorization method and the architecture of IDP are described. The performance improvement is also described and analyzed.
Information Sciences | 1989
Shunichi Torii; Keiji Kojima; Seiichi Yoshizumi; Akiharu Sakata; Yoshifumi Takamoto; Shun Kawabe; Masami Takahashi
A new relational database system architecture based on a vector processing method is presented. The similarity between table and vector structures was studied. This similarity implies that vector processors have high potential for the improvement of Relational Data Base Management System (RDBMS) performance. In commercial RDBMSs, however, data records are internally organized in complex pointer structures, to which vector processing is not directly applicable. We propose a new vectorization method by which data in the pointer structures are dynamically rearranged into vector form, and collectively processed using a pipelined vector processor. A new pipelined vector processor called an Integrated Database Processor (IDP) which is particularly suitable for our vectorization strategy was developed. IDP is designed as an optional hardware for a general purpose computer. The vectorization method and IDP are applied to Hitachis new, recently-announced, commercial RDBMS (called RDB1/IDP). In this paper, the vectorization method and the architecture of IDP are described. The performance improvement is also described and analyzed.
Archive | 2001
Masashi Tsuchida; Yukio Nakano; Nobuo Kawamura; Kazuyoshi Negishi; Shunichi Torii
Archive | 2001
Masashi Tsuchida; Kazuo Masai; Shunichi Torii
Archive | 1982
Shigeo Nagashima; Shunichi Torii; Koichiro Omoda; Yasuhiro Inagami
Archive | 1983
Shunichi Torii
Archive | 1998
Masashi Tsuchida; Kazuo Masai; Shunichi Torii
Archive | 2000
Masashi Tsuchida; Yukio Nakano; Nobuo Kawamura; Kazuyoshi Negishi; Shunichi Torii
Archive | 1999
Masashi Tsuchida; Yukio Nakano; Nobuo Kawamura; Kazuyoshi Negishi; Shunichi Torii
