并通过合理的器件选择、动态功耗管理和低功耗编码等设计方法,使系统功耗降低50%。
The system power dissipation was reduced 50 percent by means of proper device selection, dynamic power management, and low-power coding.
为了解决复杂嵌入式系统的低功耗设计,提出了一种新的动态电源管理策略。
In order to solve the problem of low power design of complicated embedded system, a novel dynamic power management policy is presented.
其中动态功耗管理便是一种重要的减少系统范围的能量的方式。
The DPM (dynamic power management) is an important solution of reducing energy consumption in the system level.
针对此问题,提出动态电压调节(DVS)和动态功耗管理(dpm)相结合的双效节能延迟调度算法。
An algorithm that combines the dynamic voltage scaling (DVS) and dynamic power management (DPM) is proposed for asynchronous periodic real-time tasks with specif.
动态功耗管理是一种系统级低功耗设计技术,降低功耗的思路是根据系统当前负载动态调整时钟频率或者关闭时钟。
Dynamic power Management (DPM) is a technique to reduce power consumption of systems by shutting down clocks or changing their frequency according to system loads.
以系统功耗小和响应快为指标,给出了一种适合深空探测器的电源动态管理方法,实现系统的低功耗要求。
The system response and power saving are used as index to select a suitable policy in order to achieve the design of low power for the deep space prober.
文章着重分析了基于系统级的低功耗技术,提出了动态时钟管理技术,介绍了其背景、原理以及在系统低功耗中发挥的重要作用。
A number of low-power design techniques at system level are surveyed, and a dynamic clock management(DCM) methodology is presented, which remarkably reduces the dynamic power dissipation of SoC"s."
如何提高预测的准确度是当前基于预测动态功耗管理(dpm)研究的主要问题。
How to improve predictive accuracy is the main problem needed to be solved in DPM policy based prediction.
如何提高预测的准确度是当前基于预测动态功耗管理(dpm)研究的主要问题。
How to improve predictive accuracy is the main problem needed to be solved in DPM policy based prediction.
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