memory organization

美 [ˈmeməri ˌɔːrɡənəˈzeɪʃn]英 [ˈmeməri ˌɔːɡənaɪˈzeɪʃn]
  • 网络存储器组织;存储器结构
memory organizationmemory organization
  1. Memory organization of artificial intelligence system

    人工智能系统存储器组织

  2. This paper also offers the implementation method of software and hardware in detail , including the memory organization of TMS320C5402 and the design of interface ;

    详细地给出了这种解决方案的软硬件实现方法,包括TMS320C5402的存储器组织和接口设计;

  3. Memory Organization and Allocation in Concurrent C Implementation on a Distributed System

    ConcurrentC语言在分布式系统上实现中的存储组织与分配

  4. Some new researches of object-oriented linear memory organization module

    面向对象的线性内存组织(OOLMO)模式的研究

  5. A Study on the Memory Organization for a Sequential PROLOG Machine

    顺序PROLOG机存储组织研究

  6. There are three key aspects in implementing such a system : memory organization , data synchronization and communication .

    实现这样的系统关键涉及到三个方面的问题:内存的组织、数据的同步和节点间通信。内存的组织主要分成共享页面是有宿主节点还是没有宿主节点两种;

  7. Retrograde amnesia , frontal lobe , and remote memory organization

    逆行性遗忘、额叶与远期记忆的组织

  8. Memory organization relates to internal memory capacity and structure . Application of the random storage model to the case of a limited-space storehouse ;

    存贮器的组成和内存容量及构造有关。

  9. According to the principles of real time , reliability and high accuracy , a memory organization of storing programs and data in different areas is used in the system .

    遵从实时性、可靠性、高精度原则,该系统采用了程序和数据分开存储的组织结构。

  10. A new memory organization strategy is proposed to reduce the memory consumption of low-frequency code words . The method of creating address by code words is improved .

    在存储低频码字码表时,采用了新的存储策略,在码字生成地址的方式上进行了改进,减小了在解码时所需的存储器的资源。

  11. This Viterbi decoder has low latency , efficient memory organization , and low hardware complexity compared with other Viterbi decoders using traditional trace-back methods .

    与采用传统回溯法的译码器相比,该译码器具有较低的译码时延、有效的存储空间管理和较低的硬件复杂度。

  12. And the main differences between them are : [ 256,252 ] RS code can correct two symbol errors and it is usually used to protect the stored data in the memory organization ;

    它们的区别主要在于:[256252]RS码是一种能够纠正2个码符号错误的纠错码,常用于保护存放在存储设备中的记录数据;

  13. The method converting the wavelet with float lifted factor to the integer wavelet and the memory organization approach are valuable for designing specific acceleration hardwire for other wavelet transform .

    提升系数的整形化方法和存储器组织方法对于其它小波变换的专用硬件加速实现具有参考价值。

  14. Then further optimizations related to memory organization and cache efficiency , Streaming SIMD Instructions , and the parallel process using Hyper-threading technology have been efficiently implemented on Intel Pentium 4 based computer .

    其次在实现上,针对IntelPentium4处理器的特性,从存储器组织和高速缓存的利用,SSE2多媒体扩展指令的应用以及基于超线程技术的并行处理等三个方面进行优化实现。

  15. This article introduce the principle of Digital Signal Processor , specially refer to basic concept and design technique , include : instruction set , pipeline , memory organization , hardware interface , adder , multiplier , clock strategy , test technique .

    阐述了数字信号处理器的原理,重点介绍了设计数字信号处理器芯片的简单概念及设计方法,包括指令集、流水线、存储器组织、硬件接口、加法器、乘法器、时钟方案、测试接口等等。

  16. Combining MOP ( Memory Organization Package ) structure and ideas from semantic model , a general case organization method , i. e. an abstraction based hierarchical case organization method is described , especially , the data structures and algorithms for its implementation is also given .

    结合语义模型和存储组织包结构,文中提出了一种通用的事例组织方法,即事例组织时抽象层次方法。并针对该方法给出了软件实现的主要数据结构和实现算法。

  17. A MAIN MEMORY DATABASE ORGANIZATION AND RECOVERY TECHNIQUES IN REAL-TIME DATABASE SYSTEMS The research and application of artificial intelligence in technology of database organization

    实时数据库系统的内存数据库组织与故障恢复人工智能在数据库组织技术中的研究与应用

  18. This paper briefly describes the architectures and memory system organization of DSP system , and introduces some software optimizing technologies for VLIW DSP system through examples .

    文章简要介绍了常见DSP系统的体系结构和存储器组织方法,并通过实例说明了对VLIWDSP系统进行软件优化的几种技术。

  19. The Application of Laws of Memory to Scientific Organization of Computer Teaching in Technical Secondary Schools SCIENCE

    运用记忆规律科学地组织中专计算机教学

  20. There are three aspects that affect the cache utilization rate : the access mode of data , the data allocation mode in memory and the organization of cache .

    因此,提高Cache利用率的方法相应地也有三种,即改变数据访问方式、变动数据分配方式和改进Cache组织方式。这三种方法都可用来提高Cache利用率。

  21. Psychological research has focused on a number of basic principles that help memory : meaningfulness , organization , association , and visualization .

    心理学研究集中在有助于记忆力的几个基本原则,即富有意义、组织、联想和想像。

  22. Agile organization network have the nature of topology , and its network character meets the basic hypothesis of neural network technique . This paper studies associative memory model of agile organization network through neural network idea .

    敏捷性组织的网络构成具有拓扑性特征,网络工作特征符合神经网络技术的基本假设,本文试用神经网络思想研究敏捷性组织网络的联想记忆模型。

  23. By adopting special memory format and state information registers , an efficient memory organization method is presented , whose main characteristics include the simplification of the coding-decoding , pipelined data processing , and a significant reduction of read-write memory accesses .

    在引入特殊的数据存储格式和状态信息寄存器组的基础上,提出一种高效的存储器管理方法,简化了编解码过程,实现了数据处理的流水线操作,也大大减少了对存储器的读写次数。

  24. The base state amending model solves the space and time data memory problem , but the object-oriented data model solves the space and time data organization problem , and the two unions may effectively solve the space and time data memory and the organization .

    基态修正模型是解决时空数据的存储问题,而面向对象数据模型是解决时空数据的组织问题,二者结合可以有效地解决时空数据的存储和组织。

  25. By modeling the memory hierarchy as a weighted graph , our method is applicable to any software-managed memory hierarchy organization .

    通过将存储层次建模为一个带权图,我们的方法可以运用到任何多级软件管理存储层次组织上。

  26. Processor speed has been increasing at a much greater rate than memory speed leading to the so called processor-memory gap . In order to compensate for this gap in performance , modern computers rely heavily on a hierarchical memory organization with a small amount of fast memory called cache .

    处理器速度比内存速度增加得更快导致了所谓的处理器与内存墙问题,为了弥补这种差距,现代计算机主要依赖一个具有容量小而速度快的cache的存储层次组织。