Identifying, correcting and averting our memory errors are part of a cognitive process called memory monitoring.
对记忆中的错误进行识别、纠正和转移,是被叫做记忆追踪的一种认知过程。
FOK judgment is the most typical and most important style of meta-memory monitoring, so what influence FOK judgment appealed many educational psychologists.
而FOK判断是元记忆监测中最具代表性、最重要的形式,因此FOK判断的影响因素引起了诸多教育心理学家的关注。
Now that you have a handle (no pun intended) on all the tools we've shown you, here are some ways you can use them individually or together to improve your memory monitoring.
现在您已经操作(不是双关语,handle 还有一个含义是句柄)了我们要介绍的所有工具,下面是您单独或一起使用这些工具,改进内存监控的一些方法。
In Part 2 of this series, I'll discuss these changes in detail as you dive into the memory monitoring tools of AIX to determine bottlenecks and analyze historical trends and data.
在本系列文章的第2部分中,我将会详细地介绍这些变化,使您能够深入地了解aix的各种内存监视工具,以确定瓶颈、以及分析历史趋势和数据。
Memory is allocated from the monitor heap when you perform database monitoring activities such as taking a snapshot, turning on a monitor switch, resetting a monitor, or activating an event monitor.
当执行数据库监视活动时,将从监视堆分配内存,这些活动包括拍摄快照、打开监视器开关、重置监视器或激活一个事件监视器。
There is still a lot to learn, as there will be performance tuning and monitoring differences in a virtualized memory environment.
因为在虚拟化内存环境中有性能调优和监视方面的差异,我们还有许多要学习的东西。
The resource monitoring capability allows you to determine the overall underlying infrastructure by monitoring basic system resources, such as memory and heap space or CPU utilization.
资源监测能力允许你通过监测基本系统资源全面测定内部基础结构,例如内存和堆空间或者CPU的使用情况。
While most of you might be more familiar with tuning memory subsystems, I hope this series illustrated the importance of CPU monitoring and tuning.
尽管大多数的读者可能对内存子系统的优化更加熟悉,但是我希望通过本系列文章说明CPU监视和优化的重要性。
For a workload partition (WPAR), you should also be monitoring the WPAR specific memory utilization to understand whether your WPAR needs to be reconfigured.
对于工作负载分区(WPAR),还应该监视特定WPAR的内存使用情况,从而了解是否需要重新配置WPAR。
I'll show you how to measure the overhead of monitoring, how to selectively enable monitoring at run time, and how to measure the performance and memory impact of load-time weaving.
我将介绍如何测量监视的开销,如何选择性地在运行时启用监视,如何测量装入时编织的性能和内存影响。
A poll of the memory metrics was shown to demonstrate monitoring of device metrics, and a poll of the transaction rate table was shown to demonstrate monitoring of application-specific metrics.
展示了对内存指标的轮询来演示设备指标监控,通过对事务率表格的轮询来演示对特定于应用程序的指标的监控。
Statistics include a percentage of total memory utilized; bytes of total, used, and free memory; and of lesser interest in typical monitoring, request, XG4, and held memory.
统计信息中包括总的内存利用百分比;全部、已使用的和空闲的内存字节数;以及一些不太重要的监控数据,包括请求、XG4和占用内存。
Most monitoring solutions report system metrics (CPU, memory, and so on) as part of their basic function, so we won't discuss collecting those.
大多数监视解决方案将报告系统度量(CPU、内存等)作为其基本功能的一部分,因此这里将不讨论对它们的收集。
Ganglia has a Web-based front end and provides real-time monitoring for CPU and memory usage; you can easily extend it to monitor just about anything.
Ganglia有一个基于Web的前端界面,可以提供有关CPU和内存使用情况的实时监视信息;可以方便地对其进行扩展,使其只监视有关某项内容的信息。
Monitoring memory allocations to uncover leaks and other potential paths leading to running out of memory.
监测内存的分配,从而找出漏洞以及导致耗尽内存的其它潜在路径。
If Lifecycle Manager has memory, or out of memory issues, these issues can be identified by monitoring the Lifecycle MANAGER_install_location \ \ LifecycleManager \ bin directory.
如果LifecycleManager有内存或内存不足问题,这些问题可以通过监控Lifecycle Manager _ install_location \ \LifecycleManager \bin目录来识别。
I introduce some of the monitoring tools that you can use to put you in position to tune your systems and outline some of the more important AIX Version 5.3 memory management enhancements.
我将介绍一些监视工具,您可以使用这些工具来优化您的系统,本文还对一些比较重要的AIXVersion 5.3内存管理增强功能进行概述。
Young children, who have an immature PFC, and stroke patients with extensive PFC damage make more errors as a result of memory-monitoring failures.
少年儿童前额皮层组织不成熟,与前额皮层组织受创伤的病人一样,在记忆追踪失误后会产生更多的错误。
If you're monitoring the polarization for a logic device or memory element, you can apply a small electric field to traverse this boundary and simultaneously read and write the on-and-off state.
如果这一极性的有无能够被逻辑装置或是记忆元件测得,我们就可以用一微弱电场来改变其极性,同时获知极性的有无状态。
Depending on how big your code is, you may have to start reducing your codebase and monitoring memory usage over 10 minute spans to find out at what point memory no longer accumulates.
根据你的代码有多大,你可能已经开始降低你的代码库和监控内存使用超过10分钟的跨度要找出什么时候记忆不再积累。
Proactive planning is available because our SNMP monitoring also tracks the trends of bandwidth utilization, CPU utilization, memory and disk capacity utilization.
积极规划,因为我们提供的SNMP监测还跟踪趋势的带宽利用率,CPU利用率,内存和磁盘利用率。
This paper has introduced the design methodology of main memory, database index in fire monitoring system, and compared the system running efficiency in these two situations.
本文介绍了消防监控系统中内存数据库索引的设计方法,并对比了两种方法下的系统运行效率。
It realizes the dynamic monitoring, condition information memory, re-play and warning etc. to the spot signal devices by use of the advanced spot bus, sensors, web techniques, data base.
它采用先进的现场总线、传感器、计算机网络技术,利用数据库等软件工程,对现场信号设备实施动态监测,状态信息储存、重放和报警等。
Methods and reliability of structural health monitoring utilizing the large strain and electric property of shape memory alloy's superelasticity were studied by low velocity impact test.
研究表明,以一定方式埋入结构的超弹性传感元件可较好地实现对结构冲击位置和程度等响应的监测。
Hydrological monitoring refers to the integration of hydrological sensor technology and the memory, the transmission, the processing technology etc.
水文监测是指水文传感器技术与采集、存储、传输、处理技术的集成。
When applied to process monitoring, the FSKPCA-based method is more efficient in computation and needs less computer memory than standard KPCA-based methods.
与标准KPCA方法相比,FSKPCA方法具有更高的计算效率且只需较小的计算机存储空间。
The hardware of the monitoring system mainly consists of the DSP controller, nonvolatile memory, LED, clock management, keyboard interface, SCI communication units and CAN communication units.
系统的硬件部分主要包括了DSP微处理器的基本外围电路、非易失性存储、LED显示、时钟管理、键盘接口,以及SCI通信和CAN通信等单元电路。
The portable remote multi-parameter monitoring system mainly consists of control module, physiological signal acquisition module, memory module, display module and GPRS communication module and so on.
便携式远程多参数监护系统主要有控制、生理参数采集、存储、显示和GPRS通信等模块组成。
The portable remote multi-parameter monitoring system mainly consists of control module, physiological signal acquisition module, memory module, display module and GPRS communication module and so on.
便携式远程多参数监护系统主要有控制、生理参数采集、存储、显示和GPRS通信等模块组成。
应用推荐