Foundational and Practical Aspects of Resource Analysis Second International Workshop, FOPARA 2011, Madrid, Spain, May 19, 2011, Revised Selected Papers / [electronic resource] :
edited by Ricardo Peņa, Marko van Eekelen, Olha Shkaravska.
- 1st ed. 2012.
- VII, 143 p. 30 illus. online resource.
- Programming and Software Engineering, 7177 2945-9168 ; .
- Programming and Software Engineering, 7177 .
Implicit Complexity -- A Higher-Order Characterization of Probabilistic Polynomial Time -- Typing a Core Binary-Field Arithmetic in a Light Analysis and Verification of Cost Expressions -- Interpolation-Based Height Analysis for Improving a Recurrence Interval-Based Resource Usage Verification: Formalization and Prototype -- Certifying and Reasoning on Cost Annotations of Functional Worst Case Execution Time Analysis -- On Abstractions for Timing Analysis in the K Certifying Execution -- Counter Automata for Parameterised Timing Analysis of Box-Based Systems. Implicit Complexity -- A Higher-Order Characterization of Probabilistic Polynomial Time -- Typing a Core Binary-Field Arithmetic in a Light Analysis and Verification of Cost Expressions -- Interpolation-Based Height Analysis for Improving a Recurrence Interval-Based Resource Usage Verification: Formalization and Prototype -- Certifying and Reasoning on Cost Annotations of Functional Worst Case Execution Time Analysis -- On Abstractions for Timing Analysis in the K Certifying Execution -- Counter Automata for Parameterised Timing Analysis of Box-Based Systems. Implicit Complexity -- A Higher-Order Characterization of Probabilistic Polynomial Time -- Typing a Core Binary-Field Arithmetic in a Light Analysis and Verification of Cost Expressions -- Interpolation-Based Height Analysis for Improving a Recurrence Interval-Based Resource Usage Verification: Formalization and Prototype -- Certifying and Reasoning on Cost Annotations of Functional Worst Case Execution Time Analysis -- On Abstractions for Timing Analysis in the K Certifying Execution -- Counter Automata for Parameterised Timing Analysis of Box-Based Systems. Implicit Complexity -- A Higher-Order Characterization of Probabilistic Polynomial Time -- Typing a Core Binary-Field Arithmetic in a Light Analysis and Verification of Cost Expressions -- Interpolation-Based Height Analysis for Improving a Recurrence Interval-Based Resource Usage Verification: Formalization and Prototype -- Certifying and Reasoning on Cost Annotations of Functional Worst Case Execution Time Analysis -- On Abstractions for Timing Analysis in the K Certifying Execution -- Counter Automata for Parameterised Timing Analysis of Box-Based Systems. Implicit Complexity -- A Higher-Order Characterization of Probabilistic Polynomial Time -- Typing a Core Binary-Field Arithmetic in a Light Analysis and Verification of Cost Expressions -- Interpolation-Based Height Analysis for Improving a Recurrence Interval-Based Resource Usage Verification: Formalization and Prototype -- Certifying and Reasoning on Cost Annotations of Functional Worst Case Execution Time Analysis -- On Abstractions for Timing Analysis in the K Certifying Execution -- Counter Automata for Parameterised Timing Analysis of Box-Based Systems.
This book constitutes the refereed post-proceedings of the Second International Workshop on Foundational and Practical Aspects of Resource Analysis, FOPARA 2011, held in Madrid, Spain, in May 2011. The 8 revised full papers were carefully reviewed and selected from the papers presented at the workshop and papers submitted following an open call for contributions after the workshop. The papers are organized in the following topical sections: implicit complexity, analysis and verfication of cost expressions, and worst case execution time analysis.
9783642324956
10.1007/978-3-642-32495-6 doi
Electronic digital computers--Evaluation. Algorithms. Computer science. Software engineering. Compilers (Computer programs). System Performance and Evaluation. Algorithms. Computer Science Logic and Foundations of Programming. Software Engineering. Compilers and Interpreters. Theory of Computation.