Raman scattering, X-ray diffraction, and differential scanning calorimetry in the temperature range 300–800 K are used to show that, upon isothermal annealing of glass GeSe 2 powders below the glass-softening temperature ( T g = 635 ± 2 K), fragments of high-temperature polymorphic modifications having no long-range order (HTPM polymorphoids) decompose and transform into low-temperature polymorphoids (LTPM) with an exothermic effect. A high concentration of LTPM polymorphoids in the glass and their stabilization upon annealing below T g favor ordering and the appearance of coherent domains of low-temperature α-GeSe 2 (3D form). Upon annealing above T g , the reverse LTPM → HTPM polymorphoid transformation accompanied by an endothermic effect takes place, which results in the predominance of HTPM β-GeSe 2 polymorphoids (2D form) in glassy GeSe 2 and their crystallization.