[摘要] Using the Hiself-absorption data from the Five-hundred-meter Aperture Spherical radio Telescope, we perform a study of the cold atomic gas in the Cygnus X North region. The most remarkable Hicloud is characterized by a filamentary structure, associated in space and in velocity with the principal molecular filament in the Cygnus X North region. We investigate the transition from atomic filament to molecular filament. We find that the Hiiregions Cygnus OB2 and G081.920+00.138 play a critical role in compressing and shaping the atomic Cygnus X North filament, where the molecular filament subsequently forms. The cold Hiin the DR21 filament has a much larger column density ( N (Hi ) ∼1×10²⁰ cm⁻²) than the theoretical value of the residual atomic gas (∼1×10¹⁹ cm⁻²), suggesting that the Hi -to-H₂ transition is still in progress. The timescale of the Hi -to-H₂ transition is estimated to be 3×10⁵ yr, which approximates the ages of massive protostars in the Cygnus X North region. This implies that the formation of molecular clouds and massive stars may occur almost simultaneously in the DR21 filament, in accord with a picture of rapid and dynamic cloud evolution.