现代信息系统的关键元件之一是数据资料库。其中存储的信息容量要不断增长,为了增大存储器的容量必须相应地增加载体上数据的记录密度。但在这种情况下也提高了对寻址装置精度的要求。通常在记录大容量数据的已知方法的范围内是用电子机械系统实现的。由于实际上实现这种寻址系统是一个严重问题,显然,寻找提高密度的记录大容量信息的非机械寻址方法是一个迫切问题。本文分析其中一种方法,它是从物角度出发解决信息的处理和存储问题。下面提出的自组织地址的“光化学”存储器系统的基础是两种基本的自然现象:生物电催化作用和生物振动过程。在自然界中,物质交换链的各个阶段广泛地实现生物振动反应。下面是实现这种反应的最简单例子:物质 A 转化 One of the key components of modern information systems is the data repository. The volume of information stored therein is constantly increasing. In order to increase the capacity of the memory, the recording density of the data on the carrier has to be increased accordingly. However, in this case, the accuracy of the addressing device is also raised. Often, electromechanical systems are used in the context of known methods of recording large volumes of data. Since the implementation of such an addressing system is actually a serious problem, it is clear that finding a non-mechanical addressing method of recording large-capacity information for increasing the density is an urgent issue. This article analyzes one of these methods, which deals with the problem of handling and storing information from the perspective of objects. The self-organizing address proposed below is based on two basic natural phenomena: bioelectrocatalysis and biological vibrational processes. In nature, the biological vibration response is widely practiced at all stages of the material exchange chain. The following is the simplest example of this reaction: Substance A conversion