Abstract
A holographic data storage system has the advantages of a high data rate, rapid access and a multiplexing method. The two-dimensional page-oriented nature of holographic data storage also utilizes the information capacity of an optical wavefront to allow data to be recorded and retrieved in parallel, a page at a time, rather than serially as in conventional storage. This affords the potential for extremely high data rates subject only to the limitations imposed by the input/output (I/O) at devices (SLM, detector arrays) and electronic channels. A further distinguishing feature is the speed by which data can be accessed. In this paper, we propose the integration of overall error reduction algorithm for a holographic data storage system. Therefore, it is possible for a disk tilt error, position error and IPI noise error to be corrected by our error reduction algorithms. Furthermore, we obtain a good performance for writing and retrieving in the holographic data storage system.