这些战略有助于尽可能提高容量利用率和降低TCO(总拥有成本)。
These strategies help maximize the capacity utilization and TCO (Total Cost Of Ownership).
呼叫接纳控制是保证各级业务服务质量和提高系统容量利用率的关键技术。
Radio Admission Control is the key technology to ensure the quality of multi-class service and improve system capacity efficiency.
结果表明,该变压器具有增压、抑制负序电流、增大输出容量和提高容量利用率等优点。
It is showed that this transformer has the advantages of boosting, rejecting the negative sequence current, increasing the output capacity and raising the capacity utilization ratio.
除了增加数据库容量外,对大型RID的支持还简化了表空间的管理(通过合并),并可以提高存储和内存的利用率。
In addition to increasing database capacity, large RID support can also simplify table space management (through consolidation) and improve storage and memory utilization.
因为ame的使用带来的内存容量的有效增加使得吞吐量有所增加,同时还导致了LPAR的利用率的增加。
The effective increase in memory capacity, due to AME, leads to higher throughput and increased utilization of the LPAR.
利用率相对于最大容量的百分比。
很多用户习惯于监控cpu利用率,但DataPower中的这个指标在确定设备容量方面不如systemUsage那么可靠。
Many customers are accustomed to monitoring CPU utilization, but this metric in DataPower is not as reliable as System Usage in determining device capacity.
CPU利用率占最大容量的百分比
The percentage of CPU utilization against the maximum capacity
当一台Power服务器的利用率接近它的最大容量时,UPMC工程师开始寻找可以迁移到替代硬件的LPAR,从而释放CPU和内存资源。
Whenever a Power server is utilized to its maximum capacity, UPMC engineers begin looking at LPARs that can be migrated to alternate hardware with the intent of freeing up CPU and memory resources.
随着IT表现出财务严谨性的热忱,它已经采纳了许多财务指标,试图淡化面向技术的色彩,如在线时间、容量或利用率等。
In its zeal to appear financially rigorous, it has adopted a variety of financial metrics in an attempt to get away from the tech-oriented standbys like uptime, capacity, and utilization.
近年来,由于该系统具备较高传输容量和频谱利用率,而受到了广泛关注。
Because of its high capacity and large spectral efficiency, V-BLAST system became popular in recent years.
由于嵌入式数据库存储容量的限制,如何充分利用这些有限的存储空间,提高嵌入式数据库的空间利用率一直是倍受关注的研究课题。
Due to the limit of storage capacity, how to make full use of storage and improve storage utilization of embedded database is a major concern of many researchers.
现代数字通信中往往采用数字复接技术扩大信息的传输容量并提高信道利用率。
The digital multiple connection technique is applied to expand the capacity of the information transmission and raise the efficiency of the channel.
本文从提高道路资源利用率的角度出发,研究了路网布局结构对路网容量的影响。
This paper studies the influence of road layout structure on road network capacity from the Angle to enhance the road resource utilization rate.
在有限的无线频谱资源条件下,只有极大地提高频谱利用率才能使系统容量更高。
With limited radio frequency resources, it can only be satisfied by tremendously enhancing the frequency utilization efficiency.
MIMO技术是无线移动通信领域智能天线技术的重大突破,能够成倍提高系统的容量和频谱利用率。
MIMO technology is the significant breakouts in smart antenna technology of wireless communication field, it can significantly improve system capacity and using rate of frequency.
在语音的存储中,存储器容量也意味着成本,而语音的压缩编码能够显著的提高存储器的利用率。
Memory capacity also means cost in the storage of speech and the speech compression coding can enhance storage efficiency.
多输入多输出(MIMO)系统是未来移动通信的关键技术之一,其特点是在不增加带宽的情况下提高通信系统的容量和频谱利用率。
Multiple Input Multiple Output (MIMO) system with higher gains in channel capacity is one of the key technologies for future wireless communications.
它具有结构简单,频谱利用率高的优点,因此成为高速大容量光纤通信系统中的研究热点。
It has high frequency efficiency and its implement is simple. Therefore, it has become the topic in high-speed mass optical fiber communication system.
MPEG - 4压缩技术提高了硬盘容量的利用率,用户可以为每个摄像头设置记录分辨率。
MPEG-4 compression technology provides efficient use of hard-drive capacity, and users can set the recording resolution for each camera.
LTE系统采用多输入多输出(MIMO)和正交频分复用(OFDM)作为两大主要技术以应对系统大容量与高频谱利用率等需求。
LTE system adopts MIMO and OFDM as its two most important fundamental techniques, so as to respond to the requirements of large capacity and high spectral efficiency.
CD MA通信系统由于具有容量大、软容量、软切换、频率利用率高、抗多径衰落能力强等优点而在第三代移动通信系统(3 G)中得到广泛应用。
The advantages of CDMA communication system in 3g are large capacity, soft capacity, soft handover, higher spectral efficiency and the ability to resist the effects of multi-path fading, and so on.
企业环境下的服务器平均利用率仅为5%至40%,至少有60%的可用容量没有使用。
The average server utilization in an enterprise environment ranges from 5 to 40 percent, leaving at least 60 percent of the available capacity unused.
企业环境下的服务器平均利用率仅为5%至40%,至少有60%的可用容量没有使用。
The average server utilization in an enterprise environment ranges from 5 to 40 percent, leaving at least 60 percent of the available capacity unused.
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