The present invention discloses a biomechanically compatible implant, wherein arbitrary selectable discrete locations of the implant are defined to exhibit biomechanical characteristics in accordance with biomechanical characteristics at arbitrary selectable discrete locations of a bodily tissue where the respective arbitrary selectable discrete locations of the implant are configured to be attached. The implant may be configured to repair prolapse in an embodiment. In another embodiment, the implant may be configured to repair urinary incontinence. The present invention further discloses a device for generating a biomechanical characteristics pattern of the bodily tissue and the implant. The present invention further discloses a system for designing and fabricating the biomechanically compatible implant.
