Ten reasons to use divisible load theory

Thomas G. Robertazzi

doi:10.1109/MC.2003.1198238

Ten reasons to use divisible load theory

Thomas G. Robertazzi

Electrical Engineering

Research output: Contribution to specialist publication › Article

244 Scopus citations

Abstract

During the past decade, divisible load theory has become a powerful tool for modeling data-intensive computational problems. DLT emerged from a desire to create intelligent sensor networks, but most recent applications involve parallel and distributed computing. Like other linear mathematical models such as Markovian queuing theory and electric resistive circuit theory, DLT otters easy computation, a schematic lan-guage, and equivalent network element modeling. While it can incorporate stochastic features, the basic model does not make statistical assumptions, which can be the Achilles heel of a performance evaluation model.

Original language	English
Pages	63-68+4
Volume	36
No	5
Specialist publication	Computer
DOIs	https://doi.org/10.1109/MC.2003.1198238
State	Published - May 2003

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10.1109/MC.2003.1198238

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abstract = "During the past decade, divisible load theory has become a powerful tool for modeling data-intensive computational problems. DLT emerged from a desire to create intelligent sensor networks, but most recent applications involve parallel and distributed computing. Like other linear mathematical models such as Markovian queuing theory and electric resistive circuit theory, DLT otters easy computation, a schematic lan-guage, and equivalent network element modeling. While it can incorporate stochastic features, the basic model does not make statistical assumptions, which can be the Achilles heel of a performance evaluation model.",

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Ten reasons to use divisible load theory

Abstract

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