The South Asian High (SAH) is the most important upper tropospheric summer system over Asia. This study aims to analyze the variability of the SAH and its relationship with the mid-latitude waves. The SAH in this study is represented by the geopotential height at 200 hPa (Z200). Its extent is defined by the 12520-gpm contour at 200 hPa, which covers the region of (20-35°N, 40-110°E) based on the 44 years of climatological mean. Within this region, the maximum Z200 tends to occur over the Iranian Plateau (45-65°E) and the Tibetan Plateau (80-100°E). The SAH variability is further investigated by EOF analysis of the Z200 over the SAH region. The spatial pattern of the first mode displays a monopole structure with its center to the north of the Iranian Plateau. The spatial pattern of the second mode exhibits a dipole structure in east-west direction. The dipole structure comprises the primary variation center over the northeast of the Tibetan Plateau, accompanied by a secondary variation center with a reverse sign to the north of the Iranian Plateau. The variation centers of SAH variability are all located near its northern boundary where the Asian westerly jet exists. The tripole spatial structure in east-west direction of the third mode reflects geographical enhancement of the eddies trapped within the jet stream waveguide. The temporal variability of the leading modes shows two distinct timescales: quasi-biweekly (10-20 days) and quasi-monthly (20-40 days). The quasi-biweekly perturbations over the SAH appear as the perturbations intruding from higher latitudes to the north of the Iranian Plateau and the northeast of the Tibetan Plateau. The quasi-monthly perturbations are strongly influenced by blocking or trough patterns between 30-60°E, situated to the northwest of the Iranian Plateau. The wave train passing through the north of the SAH, characterized by several eddies trapped within the jet stream waveguide, can be observed on both the 10-20-day and the 20-40-day timescales. Finally, the Z200 anomalies during the summer in 1989 is presented to demonstrate that the findings in this study can be useful in climate services for interpreting real-time anomalous features in Asia The examples of 1989 confirms that the variability of the SAH on the quasi-biweekly timescale is associated with eddies embedded in the jet stream waveguide, with some influenced by the southward penetration of mid-latitude waves originating from 50°N or further north in the longitude range of 60-90°E and 90-120°E.