43 research outputs found

    On relay placemement for deterministic line network

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    We consider a unicast communication problem where, a source transmits information to a destination through a wireless network with the help of k relays positioned on a line. We adopt the linear deterministic model to capture the wireless signal interactions and study the optimal placement of the relays so that the capacity from the source to the destination in the deterministic network is maximized. Analytical results are provided for a number of special cases, and the insights gained are used to provide a heuristic framework for designing large relay networks.

    Vispark: GPU-accelerated distributed visual computing using spark

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    With the growing need of big-data processing in diverse application domains, MapReduce (e.g., Hadoop) has become one of the standard computing paradigms for large-scale computing on a cluster system. Despite its popularity, the current MapReduce framework suffers from inflexibility and inefficiency inherent to its programming model and system architecture. In order to address these problems, we propose Vispark, a novel extension of Spark for GPU-accelerated MapReduce processing on array-based scientific computing and image processing tasks. Vispark provides an easy-to-use, Python-like high-level language syntax and a novel data abstraction for MapReduce programming on a GPU cluster system. Vispark introduces a programming abstraction for accessing neighbor data in the mapper function, which greatly simplifies many image processing tasks using MapReduce by reducing memory footprints and bypassing the reduce stage. Vispark provides socket-based halo communication that synchronizes between data partitions transparently from the users, which is necessary for many scientific computing problems in distributed systems. Vispark also provides domain-specific functions and language supports specifically designed for high-performance computing and image processing applications. We demonstrate the performance of our prototype system on several visual computing tasks, such as image processing, volume rendering, K-means clustering, and heat transfer simulation.clos

    Investigating Guided Extensive Reading And Vocabulary Knowledge Performance Among Remedial Esl Learners In A Public University In Malaysia

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    Penyelidikan menyokong pembacaan ekstensif, yang tertumpu pada pembelajaran kebetulan (incidental learning), sebagai wadah utama bagi perkembangan pengetahuan kosa kata bahasa kedua/asing. Research supports extensive reading, which draws on incidental learning, as a primary tool for second/foreign language vocabulary knowledge development

    Sequence Alignment Through the Looking Glass

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    AbstractRapid advances in sequencing technologies are producing genomic data on an unprecedented scale. The first, and often one of the most time consuming, step of genomic data analysis is sequence alignment, where sequenced reads must be aligned to a reference genome. Several years of research on alignment algorithms has led to the development of several state-of-the-art sequence aligners that can map tens of thousands of reads per second.In this work, we answer the question “How do sequence aligners utilize modern processors?” We examine four state-of-the-art aligners running on an Intel processor and identify that all aligners leave the processor substantially underutilized. We perform an in-depth microarchitectural analysis to explore the interaction between aligner software and processor hardware. We identify bottlenecks that lead to processor underutilization and discuss the implications of our analysis on next-generation sequence aligner design.</jats:p
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