Designing linear storage hierarchies so as to maximize reliability subject to cost and performance constraints
Publication
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Trivedi, KS
Published in: Proceedings - International Symposium on Computer Architecture
May 6, 1980
A geometric programming model is proposed to determine the optimal design of the CPU and its matching storage hierarchy. The objective function is the maximization of system reliability subject to performance and budgetary limitations. Examples illustrating the use of the model are presented.
Duke Scholars
Published In
Proceedings - International Symposium on Computer Architecture
DOI
ISSN
1063-6897
Publication Date
May 6, 1980
Start / End Page
211 / 217
Citation
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Trivedi, K. S. (1980). Designing linear storage hierarchies so as to maximize reliability subject to cost and performance constraints. In Proceedings - International Symposium on Computer Architecture (pp. 211–217). https://doi.org/10.1145/800053.801928
Trivedi, K. S. “Designing linear storage hierarchies so as to maximize reliability subject to cost and performance constraints.” In Proceedings - International Symposium on Computer Architecture, 211–17, 1980. https://doi.org/10.1145/800053.801928.
Trivedi KS. Designing linear storage hierarchies so as to maximize reliability subject to cost and performance constraints. In: Proceedings - International Symposium on Computer Architecture. 1980. p. 211–7.
Trivedi, K. S. “Designing linear storage hierarchies so as to maximize reliability subject to cost and performance constraints.” Proceedings - International Symposium on Computer Architecture, 1980, pp. 211–17. Scopus, doi:10.1145/800053.801928.
Trivedi KS. Designing linear storage hierarchies so as to maximize reliability subject to cost and performance constraints. Proceedings - International Symposium on Computer Architecture. 1980. p. 211–217.
Published In
Proceedings - International Symposium on Computer Architecture
DOI
ISSN
1063-6897
Publication Date
May 6, 1980
Start / End Page
211 / 217