With the speedy growth of cell web and synthetic intelligence, wearable digital units have an excellent market prospect. Specifically, the data storage and processing of real-time collected knowledge is an indispensable a part of wearable digital units. Biomaterial-based memristive programs are appropriate for storage and processing of obtained data within the wearable electronics duo to the accompanying deserves, i.e. sustainability, lightweight, degradability, low energy consumption, flexibility and biocompatibility. Up to now, many biomaterial-based versatile and wearable memristive units have been ready by spin coating or different applied sciences on a versatile substrate at room temperature. Nevertheless, mechanical deformation attributable to mechanical mismatch between machine and comfortable tissue results in the instability of machine efficiency. From the present analysis and sensible software, the machine will face nice challenges when adapting to completely different working environments. In reality, some fascinating works have been carried out to deal with above points whereas they weren’t intensively highlighted and overviewed. Herein, the progress on wearable biomemristive machine is reviewed, and the outlook and views are supplied in consideration of the present challenges throughout the growth of wearable biomemristive programs.