Adaptive multicore scheduling for the LTE uplink

2010 NASA/ESA Conference on Adaptive Hardware and Systems Pub Date : 2010-06-15 DOI:10.1109/AHS.2010.5546233

M. Pelcat, J. Nezan, Slaheddine Aridhi

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引用次数: 13

Abstract

The Long Term Evolution (LTE) is the next generation cellular system of 3GPP, where every subframe (1 millisecond duration), a base station receives information from up to one hundred users. Multicore heterogeneous embedded systems with Digital Signal Processors (DSP) and coprocessors are power efficient solutions which decode the LTE uplink signals and encode the downlink LTE signals in base stations. The LTE Physical Uplink Shared Channel (PUSCH) uses a dynamic algorithm, as its multicore scheduling must be adapted every subframe to the number of transmitting users and to the data rate of the services they require. To solve this particular issue of the dynamic deployment while maintaining low latency, one approach is to find efficient on-the-fly solutions using techniques such as graph generation and scheduling. This approach is opposed to a fully static scheduling of predefined cases, approach currently used in the UMTS deployments. We show that the fully static approach is not suitable for the LTE PUSCH and that present DSP cores are powerful enough to recompute an efficient adaptive schedule for the application most complex cases in real-time.

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LTE上行链路自适应多核调度

长期演进(LTE)是3GPP的下一代蜂窝系统，其中每个子帧(1毫秒持续时间)，一个基站接收多达100个用户的信息。具有数字信号处理器(DSP)和协处理器的多核异构嵌入式系统是解码LTE上行信号和编码基站下行LTE信号的节能解决方案。LTE物理上行共享信道(Physical Uplink Shared Channel, PUSCH)采用动态算法，它的多核调度必须使每个子帧适应传输用户的数量和他们所需要的业务的数据速率。要在保持低延迟的同时解决动态部署的这个特殊问题，一种方法是使用图生成和调度等技术找到高效的动态解决方案。这种方法与目前在UMTS部署中使用的预定义案例的完全静态调度方法相反。我们表明，完全静态的方法不适合LTE PUSCH，并且目前的DSP核心足够强大，可以实时重新计算最复杂情况下应用的有效自适应调度。

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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2010 NASA/ESA Conference on Adaptive Hardware and Systems

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