可持续计算是一个迅速扩展的研究领域,涉及计算机科学与工程、电气工程以及其他工程学科。可持续计算的目标:信息学与系统(SUSCOM)将公布大量有关计算资源能源感知和热感知管理的研究成果。同样重要的是一系列相关的研究问题,例如计算的应用可能会对生态和社会产生影响。SUSCOM向读者发布了当前重要的电力、能源、温度和环境相关研究领域的原始和及时的研究论文和调查文章。SUSCOM有一个编辑委员会,由来自世界各地的著名研究人员组成,并选择有竞争力的评估同行评议论文。使计算可持续-软件系统的观点:?电源感知软件?电源管理的代码分析和转换?电源感知中间件?多媒体系统?计划和分配可持续性计算-利用计算使世界成为可持续发展的地方:?使用传感器进行环境监测?生态友好建筑的智能控制?绿色数据中心和企业计算为可持续发展重新发明算法和应用程序:?能量、功率和温度的理论方面?电源感知应用?资源管理以优化性能和电源?对便携式和移动计算的电源影响?用于高性能计算的降低功率、能量和热量的算法可持续系统的建模和评估:?电源感知计算机的可靠性?运行时系统有助于节能?功率和性能集体优化模型?并行和分布式系统的电源和性能监控工具可持续硬件平台和设备-硬件和架构角度:?电源感知网络?实时系统?节能架构?高效的能量收集电路设计?内存、磁盘、存储和其他外围设备中的电源管理?可配置和可再生能源?低功耗电子设备?嵌入式系统、ASIC和FPGSS?漏电和功耗
Sustainable computing is a rapidly expanding research area spanning the fields of computer science and engineering, electrical engineering as well as other engineering disciplines. The aim of Sustainable Computing: Informatics and Systems (SUSCOM) is to publish the myriad research findings related to energy-aware and thermal-aware management of computing resource. Equally important is a spectrum of related research issues such as applications of computing that can have ecological and societal impacts. SUSCOM publishes original and timely research papers and survey articles in current areas of power, energy, temperature, and environment related research areas of current importance to readers. SUSCOM has an editorial board comprising prominent researchers from around the world and selects competitively evaluated peer-reviewed papers.Making computing sustainable - Software systems perspective: ? Power-aware software ? Code profiling and transformation for power management? Power-aware middleware ? Multimedia systems? Scheduling and allocationComputing for sustainability - Use of computing to make the world a sustainable place:? Use of sensors for environmental monitoring? Smart control for eco-friendly buildings? Green Data Centers and Enterprise ComputingRe-inventing algorithms and applications for sustainability:? Theoretical aspect of energy, power, and temperature? Power-aware applications? Resource management to optimize performance and power? Power implications for portable and mobile computing? Algorithms for reduced power, energy and heat for high-performance computingModeling and evaluation of sustainable systems:? Reliability of Power-aware computers? Runtime systems that assist in power saving? Models for collective optimization of power and performance? Monitoring tools for power and performance of parallel and distributed systemsSustainable hardware platforms and devices - Hardware and architecture perspective:? Power aware networking? Real-time systems? Power-efficient architectures? Efficient circuit design for energy harvesting? Power management in memory, disk, storage and other peripheral devices? Configurable and renewable energy? Low power electronics? Embedded systems, ASICs and FPGSs? Power leakage and dissipation
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