Utpal Bora scite author profile

Utpal Bora

3Publications

6Citation Statements Received

84Citation Statements Given

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Indian Institute of Technology Hyderabad

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Llov

Bora

Das

Kukreja

et al. 2020

ACM Trans. Archit. Code Optim.

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In the era of Exascale computing, writing efficient parallel programs is indispensable, and, at the same time, writing sound parallel programs is very difficult. Specifying parallelism with frameworks such as OpenMP is relatively easy, but data races in these programs are an important source of bugs. In this article, we propose LLOV, a fast, lightweight, language agnostic, and static data race checker for OpenMP programs based on the LLVM compiler framework. We compare LLOV with other state-of-the-art data race checkers on a variety of well-established benchmarks. We show that the precision, accuracy, and the F1 score of LLOV is comparable to other checkers while being orders of magnitude faster. To the best of our knowledge, LLOV is the only tool among the state-of-the-art data race checkers that can verify a C/C++ or FORTRAN program to be data race free.

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An analysis of executable size reduction by LLVM passes

Jain

Bora

Kumar

et al. 2019

CSIT

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OpenMP aware MHP Analysis for Improved Static Data-Race Detection

Bora

Vaishay

Joshi

et al. 2021

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Data races, a major source of bugs in concurrent programs, can result in loss of manpower and time as well as data loss due to system failures. OpenMP, the de facto shared memory parallelism framework used in the HPC community, also suffers from data races. To detect race conditions in OpenMP programs and improve turnaround time and/or developer productivity, we present a data flow analysis based, fast, static data race checker in the LLVM compiler framework. Our tool can detect races in the presence or absence of explicit barriers, with implicit or explicit synchronization. In addition, our tool effectively works for the OpenMP target offloading constructs and also supports the frequently used OpenMP constructs.We formalize and provide a data flow analysis framework to perform Phase Interval Analysis (PIA) of OpenMP programs. Phase intervals are then used to compute the MHP (and its complement NHP) sets for the programs, which, in turn, are used to detect data races statically.We evaluate our work using multiple OpenMP race detection benchmarks and real world applications. Our experiments show that the checker is comparable to the state-of-the-art in various performance metrics with around 90% accuracy, almost perfect recall, and significantly lower runtime and memory footprint.

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Utpal Bora

Llov

An analysis of executable size reduction by LLVM passes

OpenMP aware MHP Analysis for Improved Static Data-Race Detection

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