本文研究了二维阵列型可重构计算的设计空间搜索方法。
The dissertation emphasizes on the method for two dimension array based RCA design space exploration.
可重构计算系统通常包含大量的可编程硬件资源和路由资源。
The RC system often consists of lots of programmable logic and routing resources.
建立可重构计算的高层次结构模型是可重构计算设计空间搜索的一项研究内容。
It is an important research issue to establish a high level architecture model for design space exploration of rc (ReconfigurableComputing).
可重构计算利用可重构器件,将软件实现的算法映射到硬件电路上以提高计算性能。
Reconfigurable computing is to utilize the reconfigurable devices and map software implemented algorithm onto hardware to accelerate computing performance.
可重构计算作为一种新型的计算技术已成为国际上计算体系结构的热门研究方向之一。
As a new computing technique, reconfigurable computing is becoming one of the most popular directions of research on computing architecture internationally.
因此面向可重构计算的操作系统技术—可重构硬件操作系统技术成为一个新的研究热点。
Therefore, reconfigurable hardware operating system for reconfigurable computing has been a novel hot topic in last few yeas.
本论文基于可重构计算系统提出了针对多媒体图像处理的可重构阵列协处理器模型RAC。
Based on the reconfigurable computing system, the thesis proposes RAC, a reconfigurable array coprocessor model, targeted at multimedia image applications.
通过建立互连资源估计的随机模型,提出了可重构计算芯片中各种互连资源数目的估计方法。
By establishing stochastic model for connecting resource estimation, an approach to estimate the number of connecting resource for rc is presented.
基于可重构计算的特点,分析了可重构计算的相邻连接、路由连接和近邻连接三种类型互连资源。
According to characteristic of rc, three connecting resource, neighbor to neighbor connection, routing connection and near neighbor connection are analyzed.
可重构计算系统的核心是可重构硬件单元,可以通过配置成不同的硬件逻辑来实现多种功能和应用。
Reconfigurable hardware unit is the kernel element of the reconfigurable computing system, which could be configured into diverse hardware logic to achieve multiple functions and applications.
然后介绍了几种常见的可重构计算平台,以及可重构计算在信号处理、网络安全等领域的应用模型。
Then common reconfigurable computing platforms are introduced and also the application models of reconfigurable computing in areas such as signal processing and network security.
在可重构计算领域,布局硬件任务所产生的碎片是影响系统资源利用率和任务拒绝率的关键因素之一。
The fragmentation of resource placement is a critical factor to affect CU (Chip Utilization) and TRR (Task Rejection Ratio) in the field of reconfigurable computing.
首先,文中提出MPRS的结构模型和执行模型,在此基础上建立了一个完整的混合式可重构计算系统。
At first, an architecture model and an executing model of MPRS are developed to build a complete computing system as the basic research platform.
为了充分发挥可重构计算的高性能和可编程能力,需要将可重构资源和硬件任务纳入到操作系统管理范畴。
It is necessary to manage the reconfigurable resources and hardware tasks for operating system, which can bring higher performance and programmable ability.
可重构计算系统是一种软硬件混合系统,通常包括作为主要控制器的微处理器,和作为硬件加速器的可重构硬件模块。
Reconfigurable system is a software-hardware mixed system. It generally contains microprocessor as the primary controller of the system and several reconfigurable hardware blocks as accelerators.
在简单介绍可重构计算系统体系结构的基础上,通过一个嵌入式实时控制系统实例,给出了可重构计算系统的一种实现方法。
Firstly introduces system architectures of reconfigurable system, then presents an example of embedded real-time control application through which a methods for designing reconfigu…
本文介绍了模块级可重构计算机HIT -FTC2的冗余管理技术,包括:故障检测,故障屏蔽,故障隔离,系统重构与故障恢复等技术。
The redundancy management technique of modular-level reconfiguration computer system HIT-FTC2 is introduced: fault detection, fault masking, fault isolation, reconfiguration and fault recovery.
Eclipse和Emacs的可扩展性和插件让用户简化费时的任务(譬如重构或重新排版),这些任务计算机做起来要比人好的多。
The extensibility and plugins of both Eclipse and Emacs let users streamline time-consuming tasks (such as refactoring or reformatting) that computers can do better than humans.
基于流水光总线的可重构线性阵列系统(LARPBS)是一种建立在光总线上的并行计算模型,许多研究工作者已经在该模型上设计出了一些高效的并行算法。
Linear array with reconfigurable pipelined bus system (LARPBS) is a parallel computational model based on optical bus. Many researchers have developed efficient parallel algorithm on this model.
矩阵运算是最重要的数值计算,基于流水光总线的可重构线性阵列系统(LARPBS)是一种建立在光总线上的并行高效计算模型。
Matrices computation is the most important in numerical computations. Linear array with reconfigurable pipelined bus system (LARPBS) is a parallel efficient computational model based on optical bus.
基于流水光总线的可重构线性阵列系统(LARPBS)是一种建立在光总线上的并行计算模型。
Linear array with reconfigurable pipelined bus system (LARPBS) is a parallel computational model based on the optical bus.
本文着重研究了动态可重构系统设计方法及其循环计算的动态位宽管理方法。
This article stressed dynamic reconfigurable system's design method and its dynamic bit-width management method for loop computation.
基于流水光总线的可重构线性阵列系统(LARPBS)是一种建立在光总线上的并行计算模型,许多研究工作者已经在该模型上设计出了一些高效的并行算法。
Linear array with reconfigurable pipelined bus system (LARPBS) is a parallel computational model based on optical bus, on which many researchers have developed efficient parallel algorithm.
硬件进化是基于进化计算和可重构硬件的新兴研究领域。
Evolvable hardware is a novel research field that involves evolutionary computation and reconfigurable hardware.
对该可重构的光分插复用器进行了实验研究,并对该器件的串扰特性进行了详细的分析与计算。
The characteristics of the ROADM are studied experimentally, and especially the crosstalk is analyzed and calculated in detail.
用计算几何的方法重构大型涡轮叶片曲面,可提高叶片的物理学性能;
Improvement of the physics performance of blade is obtained by reconstructing the large size surface of turbine blade based on calculation geometry.
在简化网络模型基础上可灵活、高效地用最小割集法搜索故障、进行网络重构和潮流计算。
With the simplified network model, the fault can be flexibly and efficiently searched by minimal cutset method, and the network reconstruction of and power flow calculation can be conducted.
由于可重构机器人的自由度和工作空间可以灵活定制,工作空间的自动计算是设计和校核中的一个重要问题。
Automatically determining the workspace of reconfigurable robots is important in customizing the DE - gree-of-freedom and the workspace of the robots.
由于可重构机器人的自由度和工作空间可以灵活定制,工作空间的自动计算是设计和校核中的一个重要问题。
Automatically determining the workspace of reconfigurable robots is important in customizing the DE - gree-of-freedom and the workspace of the robots.
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