Dynamic voltage scaling is an effective low-power technique.
动态电压调节是一种有效的低功耗技术。
Slack Utilization has been proven efficient in dynamic voltage scaling (DVS).
空闲时间利用是动态电压升降的有效途径。
Dynamic voltage scaling (DVS) is an effective technology to reduce processor's power consumption.
动态电压缩放技术(DVS)是一种有效的减低处理器能耗的节能技术。
In this paper, we implement a compiler-directed realtime dynamic voltage scaling algorithm for low power.
提出了一种编译指导的实时动态电压调节低功耗算法。
Dynamic voltage scaling (DVS) is an effective methodology for low power design in real-time embedded systems.
动态电压调节是一种有效的运用于实时嵌入式系统中的低功耗技术。
Dynamic voltage scaling is introduced to video decoding in the embedded system in order to reduce the power consumption.
讨论在嵌入式系统中使用动态电压调节技术降低视频解码功耗。
In this paper, a scheduling algorithm is proposed for the multiprocessors based on dynamic voltage scaling algorithm and PF algorithm.
在研究单处理器动态电压缩放和多处理器的PF调度算法的基础上,提出了一种多处理器节能调度算法。
ECS USES a processor's dynamic voltage scaling (DVS) capability to map computational tasks to minimise completion time and energy use.
ECS使用处理器的动态电压调度(DVS)功能镜像计算任务以最大限度减少完成时间和能源使用。
An algorithm that combines the dynamic voltage scaling (DVS) and dynamic power management (DPM) is proposed for asynchronous periodic real-time tasks with specif.
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。
Based on dynamic priority scheduling, dynamic voltage scaling algorithms for system level energy reduction based on the power model with processor and memory are proposed.
针对动态优先级节能调度研究存储器操作的系统级能耗优化问题。
The power consumption in real-time embedded systems can be improved with an optimal dynamic voltage scaling(DVS) algorithm for micro-processors with double scalable voltages.
为了解决嵌入式实时系统如何节省电能的问题,针对具有两种运行状态的微处理器提出了最优的动态电压调节(DV S)算法。
The power consumption in real-time embedded systems can be improved with an optimal dynamic voltage scaling(DVS) algorithm for micro-processors with double scalable voltages.
为了解决嵌入式实时系统如何节省电能的问题,针对具有两种运行状态的微处理器提出了最优的动态电压调节(DV S)算法。
应用推荐