在面向航天应用的FPGA设计中,必须采用容错设计技术来弥补器件本身抗辐射能力的不足。
Hence, FPGA fault tolerant design technology must be developed to make up for the insufficiency in radiation resistance of its components.
在设计控制系统中,采用了硬件冗余和软件容错技术,使得整个系统的可靠性大大增强。
In designing the control system, the hardware redundance and the software tolerance technology are adopted. It greatly enhances the reliability of the control system.
基于CAN总线技术完成网络适配器(NCAP)硬件模块、容错协议和优先晋升算法的设计。
On the basis on CAN bus technology, the designs of NCAP hardware module, error-tolerant protocol and priority upgrade algorithm are developed.
详细阐述了该系统设计与开发的目标、系统结构、业务流程、关键技术和容错处理。
The object of design and development of this system, system's structure, system's procedure, key technologies, mechanism in mistake are emphasized.
另外,在该系统的设计中充分进行了可靠性设计,引入了容错技术、故障诊断技术并进行了故障自动恢复的设计。
In the design, reliability design is considered fully, and fault-tolerant technique, malfunction diagnoses technique and system auto-resume design is brought in.
论文从装置硬件设计角度出发,采用容错与避错技术对高可靠性的微机保护装置设计进行了研究。
The thesis takes the research on design for the reliable microprocessor-based protection equipment using the technology of fault-tolerance and fault-avoidance.
在可靠性设计中采用容错技术、避错技术与诊断技术相结合、硬件措施与软件措施相结合的方法。
In the design of reliability, the method, that fault tolerance techniques are combined with fault avoidance and diagnosis ones, and hardware measures are combined with software ones, is adopted.
在AT IS的设计中,提供了关于技术标准选取、地面识别设备和标签的容错等几项设计方案。
The ATIS design provides several design options about the section for technology standard, the ground identification equipment and the tag fault-tolerant and so on.
在关键的场合,要求使用容错软件技术(包括非相似设计技术和恢复块技术)实现高可靠计算机系统。
Fault Tolerant software techniques such as Nversion programming (NVP) and Recovery Block (RB) are introduced into the ultrahigh reliable critical computer system.
本文主要研究了利用中间件TUXEDO技术以及该技术在联机事务处理应用软件中的容错设计方法。
This paper introduces how to apply middleware of TUXEDO, and illustrates fault tolerant design in online transaction processing software using it.
在软件部分,采用模块化设计,使用软件冗余技术和容错技术增强软件的可读性。
As to software, the method of modular design, the use of software redundancy and fault-tolerant technology enhance the readability of program.
在软件部分,采用模块化设计,使用软件冗余技术和容错技术增强软件的可读性。
As to software, the method of modular design, the use of software redundancy and fault-tolerant technology enhance the readability of program.
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