This research is divided into two parts. In the part, superconducting gravimeter (SG ) from the Hsinchu SG station and the earthquake data from the Central Weather Bureau of Taiwan are used to compute permanent gravity changes caused by quakes, covering the time span from April 2006 to March 2010. Three methods are used compute the gravity changes: (I) ocean tide fitting by Fourier function, (II) extrapolation fitting, and (III) difference of simple averages of SG values before and after an quake. Method I produces the highest correlations between the original and model SG value, and result in gravity changes consistent with those from Method III. In a case study for the Jiasian earthquake in March 2010, SG48 and 49 show gravity changes of 4.288 and 0.633 μgal, while the model value of Sun (1998) is 4.32 ngal and the GPS-derived height change is 0.575 cm (equivalent to -1 μgal ), highlighting the disagreement among these sensor results. In the second part, the responses of SG48 and SG49 to the same quakes are investigated with respect to azimuth to the earthquake source, distance and seismic energy. The result shows that (1) SG-derived gravity changes from SG48 and 49 are different in most events, and (2) the causes of gravity changes can be of tectonic origin or instrument origin.