The cylindrical pressure hull is often applied in the boiler, pressure vessel, piping system under internal pressure loading or the submarine pressure hull under external pressure loading. These structures are often in the condition of the high-pressure or high-temperature environment, so the fatigue problem occurred in it. For this reason, this work presents an objective estimating approach of the fatigue life for cylindrical pressure hull with holes. The finite element method is initially used to locate the area of high stress on the pressure hull with circular holes, and the strain spectrum of this area under cyclic hydrostatic pressure loading is obtained. The Coffin-Manson nonlinear experience equation under the strain-life method is then used with the Miner damage accumulation rule using the front strain spectrum. Thus the fatigue life estimation schedule is constructed. In this schedule, the Rainflow counting and Newton-Raphson methods are applied to simplify the cyclic pressure loading history and derive the Coffin-Manson nonlinear experience equation. The schedule proposed herein in addition to study the fatigue life for industrial pressure vessel, military submarine or submersible vehicle, it also provides the pressure hull structure designer with an effective tool for use in the design stage.