This paper explains the discrete generation structure of real-domain time based on Tick (T4), grounded in the interpretation of time proposed in QTIP cosmology. From the perspective of QTIP cosmology, observable real-domain time is not an independent physical quantity, but a unit real-domain expression frame determined by Tick (T4), which is defined as an operational interval governing the state transitions of absolute information in the imaginary domain represented by Hilbert space. The continuous time observed in the real domain is interpreted as the accumulation of such discrete expression frames. Accordingly, major concepts related to real-domain time can be understood as structural results arising from the generation and accumulation process of Tick (T4)-based expression frames. This study reinterprets the conventional assumption of continuous time as a discrete structure, and presents a framework in which real-domain time frames are generated from the Tick (T4) operational structure based on phase transitions and unitary evolution in Hilbert space, where absolute information exists. Through this interpretation, time is shown not to be an independent physical quantity, but a result formed by the accumulation of expression frames.
Seungyoung Choi (Thu,) studied this question.