For an efficient ground-state-calculation method, the imaginary-time evolution method on a quantum computer (quantum imaginary-time evolution method) has attracted a lot of attention. Conventional implementation on NISQ devices has been facing the problem of the number of gate operations. In this study, a nonlocal approximation and an imaginary-time step compression method are proposed and applied to the Max-Cut problem. This makes it possible to maintain a high calculation accuracy with a significantly smaller number of gate operations, thus we paved the way for implementing the quantum imaginary-time evolution method on NISQ devices.