Distributed computer system enhances productivity for SRB joint optimization

J.L. Rogers Jr., K.C. Young, J.-F.M. Barthelemy
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引用次数: 8

Abstract

Initial calculations of a design of the solid rocket booster joint that failed during the shuttle tragedy showed that the design had a weight penalty associated with it. Optimization techniques were to be applied to determine if there was any way to reduce the weight while keeping the joint opening closed and limiting the stresses. To allow engineers to examine as many alternatives as possible, a system was developed consisting of existing software that coupled structural analysis with optimization which would execute on a network of computer workstations. To increase turnaround this system took advantage of the parallelism offered by the finite difference technique of computing gradients to allow several workstations to contribute to the solution of the problem simultaneously. The resulting system reduced the amount of time to complete one optimization cycle from two hours to one-half hour with a potential of reducing it to fifteen minutes. The current distributed system, which contains numerous extensions, requires one hour turnaround per optimization cycle. This would take four hours for the sequential system.

分布式计算机系统提高了SRB联合优化的生产率
对在航天飞机悲剧中失败的固体火箭助推器接头设计的初步计算表明,该设计存在与之相关的重量损失。优化技术将被应用于确定是否有任何方法来减轻重量,同时保持连接开口关闭和限制应力。为了让工程师尽可能多地检查备选方案,开发了一个由现有软件组成的系统,该系统将结构分析与优化结合起来,在计算机工作站网络上执行。为了提高周转率,该系统利用梯度计算的有限差分技术提供的并行性,允许多个工作站同时参与问题的求解。由此产生的系统将完成一个优化周期的时间从两个小时减少到一个半小时,并有可能减少到15分钟。当前的分布式系统包含许多扩展,每个优化周期需要一个小时的周转时间。顺序系统需要4个小时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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