Bus bandwidth
- 网络总线带宽
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The transplantation of such software to cellphone platform would be limited by factors as operation speed of cellphone , memory space and bus bandwidth .
若要将此类软件移植到手机平台上,将要受到手机运算速度、存储空间量和总线带宽等因素的限制。
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The Digital Signal Processing which is regarded as CPU on board has some advantages , such as fast instruction execution , high bus bandwidth , and high speed real-time data processing .
数据采集卡部分使用使用DSP来作采集卡CPU具有指令执行速度快、总线带宽高、可以完成数据的高速实时处理等优点。
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For the OCB , through analyzing the bus bandwidth requirement , proposes the multi-buses architecture .
在总线设计上,分析总线任务的带宽需求。制订出多总线架构方案。
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To the bottleneck problems of bus bandwidth and transmission speed in traditional data acquiring systems , this paper presents and implements a 200M data acquiring system based on PCI bus .
本文针对传统的数据采集系统中存在的总线带宽、传输速度等瓶颈问题,提出了并实现了一个基于PCI总线的200M数据采集系统。
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Firstly , after the theory discursion , the expressions of bus bandwidth occupancy of LCDC are given , and the practical software and hardware test platform is present .
首先,通过理论推导,得到了LCDC总线带宽占用率的计算公式,并给出了实际的软硬件测试平台。
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The traditional parallel bus bandwidth can no longer meet the needs of the current system , and is replaced by the third generation of high-speed serial bus which takes PCIE as the core .
传统的并行总线带宽已不能满足当前系统的需求,取而代之的是以PCIE为核心的第三代高速串行总线。
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With the rapid development and widely utilization of the FCS , users get more and more expectation on a better performance in industrial control bus bandwidth , transmitting distance , redundancy ability , reliability , and performance to cost ratio .
随着FCS的发展和广泛应用,用户对现代工业控制总线的带宽、传输距离、冗余能力、可靠性和性价比的要求越来越强烈。
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In this paper , an optical network interface card with PCI bus peak bandwidth transmission rate has been designed and implemented .
本文设计和实现了具有PCI总线峰值带宽传输能力的光互连网络接口卡。
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Especially for the system bus whose bandwidth requirement is most critical , adopts double-bus architecture . Each sub-bus of system bus has different bitwise . Proposes a static time division multiplexed with dynamic fixed priority arbitration scheme .
对带宽需求最大的系统总线采用位宽不同的双总线架构,并提出静态时分复用与动态固定优先级相结合的系统总线仲裁机制。
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The reason for NoC has been designed is that with the steady growth of integration of System-on-Chip ( SoC ), the shortcomings of the traditional bus architecture have been exposed gradually . Such as bus bandwidth , global synchronization and so on .
随着片上系统(Systemonchip,SoC)集成度的逐步提高,传统的总线结构的弊端逐渐暴露出来,比如总线带宽、全局同步等,而片上网络可以有效的解决这些问题。
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With the rapid development of computer , PCI bus is considered to be incapable of affording the demanding of I / O bus bandwidth .
随着计算机的发展,I/O带宽的需求日益增加,现有PCI总线已经无法满足其需求。
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PCI Bus has been applied in many fields due to its advantages . For Bus Expansion , switched bus can distribute bandwidth dynamically compared to shared bus , it enhances system 's performance .
PCI总线以其优越性得到了越来越多的应用,在总线扩展方面,相对于传统的共享式总线开关式总线可以动态分配带宽,很大程度上提高了系统的性能。