Dynamic Quick Sort Algorithmic Approach For Opitimizing Power And Spatial Mapping In SOC

2021 International Conference on System, Computation, Automation and Networking (ICSCAN) Pub Date : 2021-07-30 DOI:10.1109/ICSCAN53069.2021.9526441

K. Sangeetha, K. Anuratha, R. Devi, S. S. Shamini

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Abstract

The growth of the microelectronics industry has increased the demand for portable devices with three key factors such as speed, area utilized and low power consumption. For devices with high performance applications, power reduction is a major concern. The Coarse Grained Reconfigurable Architectures (CGRAs) are used in embedded systems and Internet of Things with simultaneous high programmability and high power efficiency. The CGRA’s compiler has to efficiently map the looping operations to its limited resources. One of the major problems faced is efficient mapping of applications to CGRA. Existing methods deal with the static mapping algorithms. In our proposed method we use Dynamic quick sort mapping algorithm which allows power optimization along with dynamic mapping technique. All the modules needed for the system are developed and integrated on a single chip thereby it reduce the area utilized. Thus it is called as System On Chip (SOC). Due to more flexibility in the systems, runtimes become lengthier and delay is increased. In our system the delay is reduced to 7 to 8 nanoseconds, thus effective use of CGRA is obtained along with the low power consumption and area reduction.

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SOC中功率与空间映射优化的动态快速排序算法

微电子工业的发展增加了对便携式设备的需求，其中三个关键因素是速度、利用面积和低功耗。对于具有高性能应用的设备，功耗降低是一个主要问题。粗粒度可重构架构(CGRAs)在嵌入式系统和物联网中具有高可编程性和高能效。CGRA的编译器必须有效地将循环操作映射到有限的资源。面临的主要问题之一是将应用程序有效地映射到CGRA。现有的方法处理静态映射算法。在我们提出的方法中，我们使用动态快速排序映射算法，该算法允许功率优化以及动态映射技术。系统所需的所有模块都集成在一个芯片上，从而减少了占用的面积。因此它被称为片上系统(SOC)。由于系统更加灵活，运行时间变得更长，延迟也增加了。在我们的系统中，延迟减少到7到8纳秒，从而有效地利用了CGRA，同时降低了功耗和面积。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 International Conference on System, Computation, Automation and Networking (ICSCAN)

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