This work reports the effect of how an antiferromagnetic (AFM) order modifies the strength of Dzyaloshinskii-Moriya interaction (DMI) in a heavy metal (Pt)/ferromagnet (FM, Co)/ antiferromagnet (AFM, IrMn) trilayer, studied by spin orbit torque (SOT) switching and loop-shift method. Increasing the AFM order reflected on exchange bias (H_(ex)) through increasing the thickness of IrMn appears to significantly reduce the DMI strength of the trilayer, which leads to the reduction of the external field for yielding a complete SOT switching. The reduced DMI may be attributed to the H_(ex)-hosted uni-directional anisotropy suppressing the neighboring spin canting in the FM layer. This stabilization for the magnetic moments via the H_(ex)-hosted uni-directional anisotropy also improved the stability of SOT switching on the random read/write characterization, in which the strong AFM order would promote the memristivity and the weak AFM order would give rise to the stochasticity of the trilayer. This work demonstrates the significance of precise control over the AFM order would simultaneously modify the DMI for the SOT switching toward the small field application and then provide a switch to turn the SOT device into a stochastic/memristive cell.