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Table 2. A clock calculus for the reactive synchronous language

in A Functional Extension To Lustre
by Paul Caspi, Marc Pouzet

Table C-3. Reactive transport modeling parameters.

in Assessment of Appropriate Fuel Hydrocarbon Risk-Management Strategies for George Air Force Base, Victorville, California Using a Risk-Based Approach
by Authors Walt Mcnab, Walt W. Mcnab, Michael C. Kavanaugh, Paul C. Johnson, Stephen J. Cullen, Lorne G. Everett, William E. Kastenberg, Fuel Hydrocarbon, Fuel Hydrocarbon, Risk-management Strategies, Risk-management Strategies, Brendan P. Dooher, Brendan P. Dooher, David W. Rice, David W. Rice

Table 10. Incremental Reactivities for Carbon Bond model species and the base ROG mixture in the individual Maximum Reactivity scenarios. Units are

in unknown title
by unknown authors

Table 14. Summary of model scenarios used in the reactivity measurement modeling evaluation.

in Development And Application Of
by Improved Methods For, William P. L. Carter, Irina Malkina

Table 23: Results for Reactive Example 4

in Locating All Heterogeneous And Reactive Azeotropes In Multicomponent Mixtures
by Stephen T. Harding, Christodoulos A. Floudas 2000
"... In PAGE 27: ... The Wilson equation is used to model the liquid phase activity coe cients, and the Antoine equation and Wilson equation parameters provided by Okasinski and Doherty10 are used. MeOH + Isobutene () MTBE The results for this four-component example are shown in Table23 . For a value of the equilibrium constant of Keq = 27:0, the approach for enclosing all reactive azeotropes nds two azeotropes.... ..."
Cited by 4

Table 3: Synchronization Statements Optimized in the Simple Synchronization Model

in Comprehensive Synchronization Elimination for Java
by Jonathan Aldrich, Emin Gun Sirer, Craig Chambers, Susan J. Eggers 2003
"... In PAGE 19: ...1 Dynamic Evaluation of the Synchronization Analyses In this section we evaluate the impact of our analyses on the dynamic behavior of the benchmarks. Table3 shows the... In PAGE 23: ... In a second experiment, we modified the Java class libraries and a subset of our applications to add synchronization to all public methods. Table3 shows the static number of synchronization points optimized by our analyses in this experiment. For most programs, thread-local analysis (shown in the fourth column) was able to eliminate virtually all of the synchronization in these programs, effectively eliminating the extraneous overhead that would be imposed by the more natural synchronization model.... ..."
Cited by 11

Table 3: Synchronization Statements Optimized in the Simple Synchronization Model

in Comprehensive Synchronization Elimination for Java
by Jonathan Aldrich, Emin Gün Sirer, Craig Chambers, Susan J. Eggers 2003
"... In PAGE 22: ...1 Dynamic Evaluation of the Synchronization Analyses In this section we evaluate the impact of our analyses on the dynamic behavior of the benchmarks. Table3 shows the dynamic percentage of synchronization operations eliminated at runtime by our analyses. The first column represents the percentage of runtime synchronization operations removed by all of our analyses combined.... In PAGE 26: ... In a second experiment, we modified the Java class libraries and a subset of our applications to add synchronization to all public methods. Table3 shows the static number of synchronization points optimized by our analyses in this experiment. For most programs, thread-local analysis (shown in the fourth column) was able to eliminate virtually all of the synchronization in these programs, effectively eliminating the extraneous overhead that would be imposed by the more natural synchronization model.... ..."
Cited by 11

Table 3: Synchronization Statements Optimized in the Simple Synchronization Model

in Comprehensive Synchronization Elimination for Java
by Jonathan Aldrich, Emin Gün Sirer, Craig Chambers, Susan J. Eggers 2003
"... In PAGE 19: ...1 Dynamic Evaluation of the Synchronization Analyses In this section we evaluate the impact of our analyses on the dynamic behavior of the benchmarks. Table3 shows the dynamic percentage of synchronization operations eliminated at runtime by our analyses. The first column represents the Technical Report UW-CSE-00-10-01... In PAGE 23: ... In a second experiment, we modified the Java class libraries and a subset of our applications to add synchronization to all public methods. Table3 shows the static number of synchronization points optimized by our analyses in this experiment. For most programs, thread-local analysis (shown in the fourth column) was able to eliminate virtually all of the synchronization in these programs, effectively eliminating the extraneous overhead that would be imposed by the more natural synchronization model.... ..."
Cited by 11

Table 10 SVM Classification of Less-Reactive Compounds and More-Reactive Compounds

in CHAPTER 6 Applications of Support Vector Machines in Chemistry
by Ovidiu Ivanciuc
"... In PAGE 70: ... From the total of 211 compounds with excess toxicity, 115 are less- reactive and 96 are more-reactive compounds. In Table10 , we show the best cross-validation results for each kernel type. The radial kernel has the best predictions, followed by the linear SVM model.... ..."

Table B-1. Summary of relative reactivity metrics for the PAR model species.

in Investigation Of Voc Reactivity Effects
by Using Existing Regional, William P. L. Carter, Gail Tonnesen, Greg Yarwood, Co- Investigators
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