Surgical system instrument manipulator

We claim: 1. An instrument manipulator, comprising: a frame of the instrument manipulator, the frame comprising an outer shell and an inner frame, the inner frame being attached to the outer shell to move proximally and distally while the outer shell remains stationary, the inner frame comprising a distal face, the distal face moving proximally and distally as the inner frame moves proximally and distally relative to the stationary outer shell; and a plurality of actuator drive modules coupled to the inner frame and housed within the outer shell, each of the plurality of actuator drive modules including an actuator output, each of the actuator outputs being configured to independently actuate a corresponding actuator input of a surgical instrument without force input from another actuator output of the plurality of actuator drive modules, each of the actuator outputs distally protruding from the distal face, and each of the actuator outputs being configured to engage the corresponding actuator input of the surgical instrument, wherein the instrument manipulator further comprises a plurality of posts extending in a distal direction from a distal end of the outer shell, wherein the plurality of posts is configured to couple a sterile adapter to the instrument manipulator. 2. A surgical system, comprising: a setup link configured to position a remote center of motion for the surgical system; a proximal link operably coupled to the setup link; a distal link operably coupled to the proximal link, the distal link comprising a distal end; a rotatable element operably coupled to the distal end of the distal link; and a plurality of instrument manipulators operably coupled to the rotatable element, the plurality of instrument manipulators being rotated as a group by rotation of the rotatable element, each one of the plurality of instrument manipulators being configured to be coupled to a different one of a plurality of surgical instruments, each of the plurality of instrument manipulators comprising a frame of the instrument manipulator and a plurality of actuator drive modules, the frame comprising an outer shell and an inner frame, the inner frame being attached to the outer shell to move proximally and distally while the outer shell remains stationary, the inner frame comprising a distal face, the distal face moving proximally and distally as the inner frame moves proximally and distally relative to the stationary outer shell, the plurality of actuator drive modules being coupled to the inner frame and housed within the outer shell, each of the plurality of actuator drive modules including an actuator output, each of the actuator outputs being configured to engage a corresponding actuator input of a plurality of actuator inputs of a surgical instrument of the plurality of surgical instruments to independently actuate the corresponding actuator input of the plurality of actuator inputs of the surgical instrument of the plurality of surgical instruments without force input from another of the actuator outputs of the plurality of drive modules, and each of the actuator outputs distally protruding from the distal face. 3. The system of claim 2 , wherein the plurality of actuator drive modules includes a roll actuator drive module having a roll output for actuating a roll motion of the surgical instrument of the plurality of surgical instruments, a grip actuator drive module having a grip output for actuating a grip motion of the surgical instrument of the plurality of surgical instruments, a wrist actuator drive module having a wrist output for actuating a wrist motion of the surgical instrument of the plurality of surgical instruments, and a parallel motion mechanism actuator drive module having a parallel motion mechanism output for actuating a translation motion of an end component of the surgical instrument of the plurality of surgical instruments. 4. The system of claim 2 , wherein each one of the actuator outputs is one of a two-axis gimbal, a disc, or a lever. 5. The system of claim 2 , further comprising a telescoping insertion mechanism having a base link and a carriage link, the base link being operably coupled to a distal link of the surgical system, and the carriage link being operably coupled to the frame of one of the plurality of instrument manipulators. 6. The system of claim 2 , further comprising a plurality of telescoping insertion mechanisms disposed on the rotatable element, each telescoping insertion mechanism coupled to a corresponding frame of one of the plurality of instrument manipulators, wherein each frame can translate along a respective telescoping insertion mechanism independent of the other frames. 7. The system of claim 2 , wherein a first manipulator of the plurality of instrument manipulators comprises a distal face, and wherein the distal face of the first manipulator is configured to receive a proximal face of any one of the plurality of surgical instruments.