Browsing by Author "Bagbaba, Ayse"

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    Improving collective I/O performance with machine learning supported auto-tuning
    (2020) Bagbaba, Ayse
    Collective Input and output (I/O) is an essential approach in high performance computing (HPC) applications. The achievement of effective collective I/O is a nontrivial job due to the complex interdependencies between the layers of I/O stack. These layers provide the best possible I/O performance through a number of tunable parameters. Sadly, the correct combination of parameters depends on diverse applications and HPC platforms. When a configuration space gets larger, it becomes difficult for humans to monitor the interactions between the configuration options. Engineers has no time or experience for exploring good configuration parameters for each problem because of long benchmarking phase. In most cases, the default settings are implemented, often leading to poor I/O efficiency. I/O profiling tools can not tell the optimal default setups without too much effort to analyzing the tracing results. In this case, an auto-tuning solution for optimizing collective I/O requests and providing system administrators or engineers the statistic information is strongly required. In this paper, a study of the machine learning supported collective I/O auto-tuning including the architecture and software stack is performed. Random forest regression model is used to develop a performance predictor model that can capture parallel I/O behavior as a function of application and file system characteristics. The modeling approach can provide insights into the metrics that impact I/O performance significantly.
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    ItemOpen Access
    Improving the MPI-IO performance of applications with genetic algorithm based auto-tuning
    (2021) Bagbaba, Ayse; Wang, Xuan
    Parallel I/O is an essential part of scientific applications running on high-performance computing systems. Under- standing an application’s parallel I/O behavior and identifying sources of performance bottlenecks require a multi-layer view of the I/O. Typical parallel I/O stack layers offer many tunable parameters that can achieve the best possible I/O performance. However, scientific users do often not have the time nor the experience for investigating the proper combination of these parameters for each application use-case. Auto-tuning can help users by automatically tuning I/O parameters at various layers transparently. In auto-tuning, using naive strategy, running an application by trying all possible combinations of tunable parameters for all layers of the I/O stack to find the best settings is an exhaustive search through the huge parameter space. This strategy is infeasible because of the long execution times of trial runs. In this paper, we propose a genetic algorithm-based parallel I/O auto-tuning approach that can hide the complexity of the I/O stack from users and auto-tune a set of parameter values for an application on a given system to improve the I/O performance. In particular, our approach tests a set of parameters and then, modifies the combination of these parameters for further testing based on the I/O performance. We have validated our model using two I/O benchmarks, namely IOR and MPI-Tile-IO. We achieved an increase in I/O bandwidth of up to 7.74×over the default parameters for IOR and 5.59× over the default parameters for MPI-Tile-IO.