SD-PA是一个对集成模式的多层防御系统的各个阶段的闭环SDI 系统的有效性仿真。它是可变且有效的。因此它允许分析者对结构概念中的各部分进行折衷考虑并对大量的参数进行灵敏性研究。SDS-PA程序用主动搜索的方法确定SDI各部分之间的相互影响,这些部分指特定的战略威胁包括没有用任何人为的方法将作战过程分为助推段、后助推段、中段以及末段的防御抑制。SDI的每一部分（传感器和武器）都独立建模,使用者将威胁部分集中到一个特定数目的目标群,称为威胁管道,每个管道可以包括使用者指定的一定数目的导弹,这些导弹的状态每隔一定的时间进行采样,采样间隔或由使用者确定或由理想的分辨能力决定。使用胁胁管道保留了基本的几何关系和时间基准的灵敏性,而且不必对每个目标的弹道进行仿真。在要求分辨率很高的范围内,可以将每个威胁管道的目标群集中到一个助推器来运载。 SD-PA is a simulation of the effectiveness of a closed-loop SDI system for all phases of an integrated mode multi-layer defense system. It is variable and effective. It therefore allows the analyst to compromise parts of the structure concept and conduct sensitivity studies on a large number of parameters. The SDS-PA program uses an active search approach to determine the interplay between SDI components, which refers to specific strategic threats that include no artificial approach to categorizing the combat process into boost, boost, mid, and end Section of the defense inhibition. Each part of the SDI (sensors and weapons) is modeled independently and the user focuses the threat on a specific number of target groups, called threat pipelines, each of which can contain a number of user-specified missiles that The state is sampled at regular intervals, with sampling intervals either determined by the user or determined by the desired resolution. The use of threat pipelines preserves the basic geometric relationships and the time base sensitivity without having to simulate the trajectory of each target. Within the context of high resolution requirements, you can ship a target booster for each threat pipeline to a booster.