9780792394518 - The Interaction of Compilation Technology and Computer Architecture (18 Ergebnisse)

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Zustand: New. Demonstrates the importance of integrating contemporary compilation technology with a supporting computer architecture to enhance system performance. This book explores three different aspects of this interaction. It examines the interaction of compiler and the architecture at the instruction level on uniprocessors with multiple function units. Editor(s): Lilja, David J.; Bird, Peter L. Num Pages: 285 pages, biography. BIC Classification: UYF. Category: (P) Professional & Vocational; (UP) Postgraduate, Research & Scholarly. Dimension: 235 x 155 x 17. Weight in Grams: 1330. . 1994. Hardback. . . . .

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Zustand: New. Demonstrates the importance of integrating contemporary compilation technology with a supporting computer architecture to enhance system performance. This book explores three different aspects of this interaction. It examines the interaction of compiler and the architecture at the instruction level on uniprocessors with multiple function units. Editor(s): Lilja, David J.; Bird, Peter L. Num Pages: 285 pages, biography. BIC Classification: UYF. Category: (P) Professional & Vocational; (UP) Postgraduate, Research & Scholarly. Dimension: 235 x 155 x 17. Weight in Grams: 1330. . 1994. Hardback. . . . . Books ship from the US and Ireland.

Buch. Zustand: Neu. Druck auf Anfrage Neuware - Printed after ordering - In brief summary, the following results were presented in this work: - A linear time approach was developed to find register requirements for any specified CS schedule or filled MRT. - An algorithm was developed for finding register requirements for any kernel that has a dependence graph that is acyclic and has no data reuse on machines with depth independent instruction templates. - We presented an efficient method of estimating register requirements as a function of pipeline depth. - We developed a technique for efficiently finding bounds on register require ments as a function of pipeline depth. - Presented experimental data to verify these new techniques. - discussed some interesting design points for register file size on a number of different architectures. REFERENCES [1] Robert P. Colwell, Robert P. Nix, John J O'Donnell, David B Papworth, and Paul K. Rodman. A VLIW Architecture for a Trace Scheduling Com piler. In Architectural Support for Programming Languages and Operating Systems, pages 180-192, 1982. [2] C. Eisenbeis, W. Jalby, and A. Lichnewsky. Compile-Time Optimization of Memory and Register Usage on the Cray-2. In Proceedings of the Second Workshop on Languages and Compilers, Urbana l/inois, August 1989. [3] C. Eisenbeis, William Jalby, and Alain Lichnewsky. Squeezing More CPU Performance Out of a Cray-2 by Vector Block Scheduling. In Proceedings of Supercomputing '88, pages 237-246, 1988. [4] Michael J. Flynn. Very High-Speed Computing Systems. Proceedings of the IEEE, 54:1901-1909, December 1966.

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Gebunden. Zustand: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. In brief summary, the following results were presented in this work: - A linear time approach was developed to find register requirements for any specified CS schedule or filled MRT. - An algorithm was developed for finding register requirements for any ker.

Zustand: New. Print on Demand pp. 304 52:B&W 6.14 x 9.21in or 234 x 156mm (Royal 8vo) Case Laminate on White w/Gloss Lam.

Buch. Zustand: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -In brief summary, the following results were presented in this work: - A linear time approach was developed to find register requirements for any specified CS schedule or filled MRT. - An algorithm was developed for finding register requirements for any kernel that has a dependence graph that is acyclic and has no data reuse on machines with depth independent instruction templates. - We presented an efficient method of estimating register requirements as a function of pipeline depth. - We developed a technique for efficiently finding bounds on register require ments as a function of pipeline depth. - Presented experimental data to verify these new techniques. - discussed some interesting design points for register file size on a number of different architectures. REFERENCES [1] Robert P. Colwell, Robert P. Nix, John J O'Donnell, David B Papworth, and Paul K. Rodman. A VLIW Architecture for a Trace Scheduling Com piler. In Architectural Support for Programming Languages and Operating Systems, pages 180-192, 1982. [2] C. Eisenbeis, W. Jalby, and A. Lichnewsky. Compile-Time Optimization of Memory and Register Usage on the Cray-2. In Proceedings of the Second Workshop on Languages and Compilers, Urbana l/inois, August 1989. [3] C. Eisenbeis, William Jalby, and Alain Lichnewsky. Squeezing More CPU Performance Out of a Cray-2 by Vector Block Scheduling. In Proceedings of Supercomputing '88, pages 237-246, 1988. [4] Michael J. Flynn. Very High-Speed Computing Systems. Proceedings of the IEEE, 54:1901-1909, December 1966. 300 pp. Englisch.

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Buch. Zustand: Neu. The Interaction of Compilation Technology and Computer Architecture | Peter L. Bird (u. a.) | Buch | Einband - fest (Hardcover) | Englisch | 1994 | Springer US | EAN 9780792394518 | Verantwortliche Person für die EU: Springer Heidelberg, Tiergartenstr. 17, 69121 Heidelberg, buchhandel-buch[at]springer[dot]com | Anbieter: preigu Print on Demand.

Buch. Zustand: Neu. This item is printed on demand - Print on Demand Titel. Neuware -In brief summary, the following results were presented in this work: ¿ A linear time approach was developed to find register requirements for any specified CS schedule or filled MRT. ¿ An algorithm was developed for finding register requirements for any kernel that has a dependence graph that is acyclic and has no data reuse on machines with depth independent instruction templates. ¿ We presented an efficient method of estimating register requirements as a function of pipeline depth. ¿ We developed a technique for efficiently finding bounds on register require ments as a function of pipeline depth. ¿ Presented experimental data to verify these new techniques. ¿ discussed some interesting design points for register file size on a number of different architectures. REFERENCES [1] Robert P. Colwell, Robert P. Nix, John J O'Donnell, David B Papworth, and Paul K. Rodman. A VLIW Architecture for a Trace Scheduling Com piler. In Architectural Support for Programming Languages and Operating Systems, pages 180-192, 1982. [2] C. Eisenbeis, W. Jalby, and A. Lichnewsky. Compile-Time Optimization of Memory and Register Usage on the Cray-2. In Proceedings of the Second Workshop on Languages and Compilers, Urbana l/inois, August 1989. [3] C. Eisenbeis, William Jalby, and Alain Lichnewsky. Squeezing More CPU Performance Out of a Cray-2 by Vector Block Scheduling. In Proceedings of Supercomputing '88, pages 237-246, 1988. [4] Michael J. Flynn. Very High-Speed Computing Systems. Proceedings of the IEEE, 54:1901-1909, December 1966.Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg 300 pp. Englisch.