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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Concurrent Interprocedural Dataflow Analysis

Zou, Di January 2015 (has links)
Detecting bugs plays a significant role in software development. Bugs may lead to unexpected behaviors. An attacker can gain control over a system by exploiting its bugs. Usually, an attack can be triggered by user's input. Unchecked user input can cause serious problems in a program. In order to prevent this situation, user's input must be checked carefully before it can be used. To provide the information of where user's input can affect a program, the taint dataflow analysis is being considered. In this thesis, we introduce a concurrent solution to perform static taint dataflow analysis. The goal is to find the statements of the program dependent on user input and inform the developers to validate those. We provides a method for the static concurrent taint dataflow analysis based on sequential static taint dataflow analysis. Static dataflow analysis is time consuming. This research addresses the challenge of efficiently analyzing the dataflow. Our experimental shows that our concurrent taint dataflow analysis improves the speed of analyzing complex programs.
2

An interprocedural framework for data redistributions in distributed memory machines

Krishnamurthy, Sudha January 1996 (has links)
No description available.
3

Construction of GCCFG for Inter-procedural Optimizations in Software Managed Manycore (SMM)

January 2014 (has links)
abstract: Software Managed Manycore (SMM) architectures - in which each core has only a scratch pad memory (instead of caches), - are a promising solution for scaling memory hierarchy to hundreds of cores. However, in these architectures, the code and data of the tasks mapped to the cores must be explicitly managed in the software by the compiler. State-of-the-art compiler techniques for SMM architectures require inter-procedural information and analysis. A call graph of the program does not have enough information, and Global CFG, i.e., combining all the control flow graphs of the program has too much information, and becomes too big. As a result, most new techniques have informally defined and used GCCFG (Global Call Control Flow Graph) - a whole program representation which captures the control-flow as well as function call information in a succinct way - to perform inter-procedural analysis. However, how to construct it has not been shown yet. We find that for several simple call and control flow graphs, constructing GCCFG is relatively straightforward, but there are several cases in common applications where unique graph transformation is needed in order to formally and correctly construct the GCCFG. This paper fills this gap, and develops graph transformations to allow the construction of GCCFG in (almost) all cases. Our experiments show that by using succinct representation (GCCFG) rather than elaborate representation (GlobalCFG), the compilation time of state-of-the-art code management technique [4] can be improved by an average of 5X, and that of stack management [20] can be improved by an average of 4X. / Dissertation/Thesis / Masters Thesis Computer Science 2014
4

Combining Conditional Constant Propagation And Interprocedural Alias Analysis

Nandakumar, K S 05 1900 (has links) (PDF)
No description available.
5

Simple optimizing JIT compilation of higher-order dynamic programming languages

Saleil, Baptiste 05 1900 (has links)
No description available.
6

Pokročilá statická analýza atomičnosti v paralelních programech v prostředí Facebook Infer / Advanced Static Analysis of Atomicity in Concurrent Programs through Facebook Infer

Harmim, Dominik January 2021 (has links)
Nástroj Atomer je statický analyzátor založený na myšlence, že pokud jsou některé sekvence funkcí vícevláknového programu prováděny v některých bězích pod zámky, je pravděpodobně zamýšleno, že mají být vždy provedeny atomicky. Analyzátor Atomer se tudíž snaží takové sekvence hledat a poté zjišťovat, pro které z nich může být v některých jiných bězích programu porušena atomicita. Autor této diplomové práce ve své bakalářské práci navrhl a implementoval první verzi nástroje Atomer jako zásuvný modul aplikačního rámce Facebook Infer. V této diplomové práci je navržena nová a výrazně vylepšená verze analyzátoru Atomer. Cílem vylepšení je zvýšení jak škálovatelnosti, tak přesnosti. Kromě toho byla přidána podpora pro několik původně nepodporovaných programovacích vlastností (včetně např. možnosti analyzovat programy napsané v jazycích C++ a Java nebo podpory pro reentrantní zámky nebo stráže zámků, tzv. "lock guards"). Prostřednictvím řady experimentů (včetně experimentů s reálnými programy a reálnými chybami) se ukázalo, že nová verze nástroje Atomer je skutečně mnohem obecnější, přesnější a lépe škáluje.

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