讨论了CAD应用系统的两种数据存取方式及SQL技术,实现了多窗口消防CAD系统数据的高速存取。
This paper discusses two modes of data access and SQL technique. It also introduces the implementation of the high-speed data access in multi-windows fire-fighting CAD system.
一旦混合的NAS/SAN服务器授予存取权限,客户机就直接连到SAN磁盘阵列,进行高速文件数据传输。
Once the hybrid NAS/SAN server grants access permission,clients connect directly to the SAN disk array for high-speed file data transfer.
如果客户机有一个传统的SAN连接,它们将获得高速直接存取磁盘的优势。
If clients have a traditional SAN connection, they will retain the advantages of high-speed direct-disk access.
将来父线程对num_proc1的存取会导致从该高速缓存线路的数据读入。
Future access to num_proc1 by the parent thread results in the reading in of the data from the cache line.
全息光存储以其高密度、大容量、高速并行数据存取而成为光存储领域的一个重要研究方向。
Holographic data storage is a key research direction in the optical data storage field due to its high storage density, high capacity and high speed of parallel data accessing.
尽管每次内存存取的时间是很大的,高速缓存使执行的时间还是可以接受的。
Even though time needed for one memory access is quintupled, caching permits performance to remain reasonable.
采用高速A/D转换器以及帧存储器提高系统的存取速度。
Speed is increased by using high speed A/D convertor and frame memorizer.
本发明提供一种CPU与FPGA间高速间接存取装置和方法。
The invention provides a high speed indirect access device and a method between CPU and FPGA.
在高速网络中,商用存储器的存取速率一直是路由器调度性能提高的制约因素。
The commercially available memory rate can hardly keep up with the requirement of building high speed routers since the transmission capacity of the network is greatly improved.
存储器采用六管CMOS存储单元、锁存器型敏感放大器和高速译码电路,以期达到最快的存取时间。
A fast access time is achieved by using six-transistor CMOS memory cell, latched sense amplifier, and high-speed decoder circuit.
该系统实现了可编程输入输出(PIO)和超级直接存储器存取(UDMA)两种模式,实际运行效果良好,达到USB2 .0的高速率传输要求。
The system realizes two modes of PIO and UDMA. The running practice shows good effect and the high speed transmission of USB2.0 is achieved.
输出数据通过串行或并行端口从输出寄存器中存取,这可实现与现代微控制器和数字信号处理器的轻松、高速接口。
The output data is accessed from the output register through a serial or parallel port. This offers easy, high speed interfacing to modern microcontrollers and digital signal processors.
为了解决数据量庞大、高速数据存取的问题,本文采用了FPGA芯片和同步动态存储器(SDRAM)来实现矩阵转置运算。
For the problem of huge data storage, use SDRAM to store the data, and use FPGA to control SDRAM to complete the transpose.
由此,提供了一种新的存取装置来实现高速与高效的存取。
Thus, the invention provides a new access device for realizing high speed and high efficiency access.
提供一种能够简化到达存储器的布线、能够防止因面积增加和长距离布线引起的性能下降、并能够实现存储器存取的高速化的集成装置。
An integrated device able to simplify interconnects up to memories, able to prevent a reduction of performance due to an increase of area and longer interconnects, and able to speed up memory access.
提供一种能够简化到达存储器的布线、能够防止因面积增加和长距离布线引起的性能下降、并能够实现存储器存取的高速化的集成装置。
An integrated device able to simplify interconnects up to memories, able to prevent a reduction of performance due to an increase of area and longer interconnects, and able to speed up memory access.
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