M Aniruddh scite author profile

M Aniruddh

2Publications

1Citation Statement Received

28Citation Statements Given

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Sahyadri Hospital

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Comparative Study of Heterogeneous Multicore Scheduling Algorithms on Media Codecs

Jamadagni¹,

Aniruddh²,

M³

et al. 2021

JUSST

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All modern-day computers and smartphones come with multi-core CPUs. The multicore architecture is generally heterogeneous in nature to maximize computational throughput. These multicore systems exploit thread-level parallelism to deliver higher performance, but they are limited by the requirement of good scheduling algorithms that maximize CPU utility and minimize wasted and idle cycles. With the rise in streaming services and multimedia capabilities of smartphones, it is necessary to have efficient heterogeneous cores which are capable of performing multimedia processing at a fast pace. It is also needed that they utilize efficient scheduling algorithms to achieve this task. This paper compares some heterogeneous multi-core scheduling algorithms available and determines which is the most optimal scheduling algorithm given various codecs.

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Teaching learning based optimization of squeeze casting process for quality castings

Patel

Ajith

Jonathan

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract:The hybrid squeeze casting method combines the immense features of forging and casting processes. Ultimate tensile strength (UTS), surface roughness (SR), and yield strength (YS) are the important casting quality characteristics influenced mainly by input variables. Determining the set of optimal input variables (pressurized duration, squeeze pressure, pouring and die temperature) for conflicting requirement in casting quality (maximize: YS and UTS and minimize: SR) is considered to behave complex and non-linear. Multiple objective functions with conflicting requirements are modified suitably to single fitness function with different set of weight fractions for maximization to solve the optimization problem. Four scenarios are selected with different sets of weight fractions by assigning equal weights for all outputs, followed by assigning maximum weight fraction for each individual output function, after keeping the rest at fixed low equal weights. Teaching learning based optimization (TLBO) is selected to optimize the squeeze casting input-output parameters. TLBO results are found to be comparable with evolutionary algorithms (i.e. GA, PSO and MOPSO-CD). TLBO has outperformed the evolutionary algorithms with regard to computation time.

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M Aniruddh

Comparative Study of Heterogeneous Multicore Scheduling Algorithms on Media Codecs

Teaching learning based optimization of squeeze casting process for quality castings

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