To achieve a high transaction throughput rate, it may be necessary to consider the distribution of work between queues, queue managers, and application server instances.
要获得高的事务吞吐量率,可能需要考虑在队列、队列管理器和应用程序服务器实例之间分配工作。
With fewer blocked managed tasks, the server can maintain a higher service rate and is more likely to avoid queue growth.
由于阻塞的托管任务更少,服务器可以维持较高的服务速率,从而更可能避免队列增长。
Here, shaping can be used to queue any transactions that exceed that rate.
这里,可以使用定形来对超过此速率的任意事务进行排队。
If the rate of requests entering a particular queue exceeds the rate at which the queue can process requests, then the requests back up.
如果进入某个队列的请求速率超过了此队列处理请求的速率,请求就会聚集起来。
The fewer queue managers that input and output messages have to traverse the cheaper the cost of processing the messages and therefore the higher the message rate that can be obtained.
输入输出消息需要遍历的队列管理器越少,处理消息的成本就越低,由此可获取更快的消息速度。
Keep the message processing rate at a high volume so that the number of messages on queue are minimal irrespective of the type of the messages.
保持较高的消息处理速率,无论消息类型如何,都尽量减少队列上的消息的数量。
In the example below, the message putting rate is twice as fast as the getting rate, and you can see the queue depth growing rapidly.
在下面的示例中,消息的传入速率为提取速率的两倍,而您会发现度量深度迅速地增加。
Queue-level monitoring provides a graphical representation of various frequency attributes, such as open rate, close rate, get byte rate, put byte rate, and browse rate, for any given time interval.
队列级监视为给定的时间间隔提供各种频率属性的图形展示,例如打开率、关闭率、获取字节比率、放置字节比率以及浏览率。
If the service rate of the server is less than the arrival rate of incoming work, requests queue up.
如果服务器的服务处理速率低于传入工作的速率,请求则会在队列中堆积起来。
To keep the queue depth low, the server process would have to run at a higher rate.
为了保持队列深度值较低,服务器进程必须以更高的速率运行。
If the queue depth is high, assume that the application is not healthy or able to cope with the rate of messages.
如果队列深度比较高,则假定应用程序不健康或不能够处理消息的速率。
According to RED (Random Early Detection) algorithm, this method controls the congestion through the ARQ sending window, the length of segmentation queue and the link-layer retransmission rate.
该方法结合随机早探测(RED)算法,通过ARQ发送窗口和分割队列长度以及重传率进行拥塞控制。
The irregular algorithm of queue status rate.
队列状态概率的非常规算法。
The relationship of delay, queue length, signal cycle, vehicle arriving rate and traffic volume in signal intersection entrance lanes is key to urban road traffic micro?
信号交叉口进口道延误、排队长度和信号周期、配时、车流到达率及交通量的关系研究,是城市道路交通微观运行分析和评价的核心。
In the paper, we propose a priority-based method which bases on the idea that the queue output rate decides the time of the output packet.
本文针对这一问题,采用队列出队速度决定队列出包时间的思想,设计了基于优先级的解决方法。
A method based on the change rate of average queue length to enhance RED is proposed.
提出了一个基于平均队列长度改变速率RED的增强算法。
Considering the uncertainty of network model and time variability of network parameters, a fuzzy control active queue management algorithm based on input rate and queue variance is proposed.
针对网络模型的不确定性和参数的时变性,该文提出了一种基于输入速率和队列长度变化的模糊控制主动队列管理算法。
The algorithm calculated packet loss rate according to the average queue length and waiting time.
这种算法根据平均队列长度和等待时间计算数据包的丢弃概率。
The establishment of the algorithm of queue status step transition rate.
队列状态步转移概率算法。
Linear RED is simple and easy to calculate; however, when average queue size is near to the minimum and maximum threshold, the loss rate is unreasonable.
线性RED算法虽然简单且容易计算,但队列位于最小阈值和最大阈值附近时的丢包概率都不太合理。
According to RED algorithm, this method controls the congestion through the ARQ send window, the length of segmentation queue and the link-layer retransmission rate.
该方法结合RED算法,通过ARQ发送窗口和分割队列长度以及重传率进行拥塞控制。
The results indicates that the multiprocess parallel arithmetic of using queue data structures in embedded system can save image capture time and improve rate of information collection.
应用实验结果表明,基于队列结构的多进程并行算法,缩短了图像信息的获取时间,提高了嵌入式系统信息采集速度。
The algorithm tune the parameter based on both the tendency of the traffic load and the change rate of the average queue length.
在自适应RED算法的基础上,提出了一种以流量变化趋势为依据,以平均队列长度的变化幅度大小为调节参数的RED算法。
The algorithm tune the parameter based on both the tendency of the traffic load and the change rate of the average queue length.
在自适应RED算法的基础上,提出了一种以流量变化趋势为依据,以平均队列长度的变化幅度大小为调节参数的RED算法。
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