The major purpose of this thesis is to improve the efficiency of fiber transmission using different chromatic dispersion fibers and signal encoding in the 10 Gbit/s DWDM system which has sixteen channels and channel spacing is 0.4nm. This thesis has detailed description about two chromatic dispersion compensation systems, the systemⅠ explain about chromatic dispersion fiber architecture and the systemⅡ explain about signal encoding architecture. In the systemⅠ, the four kinds of compensable optical fiber architectures SMF+DCF, NZDSF+DCF, SMF+RDF, and NZDSF+RDF were used in 10 Gbit/s DWDM system which has sixteen channels and channel spacing is 0.4nm respectively. In the system Ⅱ, based on the simulation results of system Ⅰ to compare the system performance using NRZ, RZ, and Manchester encoding respectively. Therefore, the simulation results can help the designer for developing submarine optical fiber or long distance optical fiber communication system in the future.