Methods and apparatus to facilitate plastic film processing

What is claimed is: 1. A film processing module, comprising: a carriage assembly configured to move along a supporting rail; a linear actuator engaged with the carriage assembly; an upper multi-functional assembly engaged with the linear actuator to perform a function on a film adjacent to the supporting rail; a battery, wherein one or more of the carriage assembly, the linear actuator, and the upper multi-functional assembly are electrically powered by the battery; and a module sensor in communication with a processor, the processor configured to determine an offset of the film processing module relative to a demarcation of the film based on information from the module sensor. 2. The film processing module of claim 1 , wherein the module sensor is an optical sensor. 3. The film processing module of claim 1 , wherein the upper multi-functional assembly is adapted to clamp, cut, and seal the film. 4. The film processing module of claim 1 , wherein one or more of the carriage assembly, the linear actuator, and the upper multi-functional assembly are electrically powered by a bus disposed concentrically to the supporting rail. 5. The film processing module of claim 1 , further comprising a battery, wherein one or more of the carriage assembly, the linear actuator, and the upper multi-functional assembly are electrically powered by the battery. 6. A film processing module, comprising: a carriage assembly moveable along a supporting rail; a linear actuator engaged with the carriage assembly; a base engaged with the linear actuator; an upper multi-functional assembly driveably engaged with the linear actuator to move relative to the base, the upper multi-functional assembly including: a clamping plate to selectively clamp a portion of a film against the base; and a cutting mechanism to cut and seal the portion of the film, wherein the clamping plate defines an air opening and further comprises an air pump in fluid communication with the air opening, the air pump to draw a vacuum to retain the film against the clamping plate, and an airflow line engaged with the clamping plate, the air pump being in fluid communication with the air opening via the airflow line. 7. The film processing module of claim 6 , wherein the cutting mechanism heats when an electric current is applied to the cutting mechanism. 8. The film processing module of claim 6 , wherein the clamping plate is between the cutting mechanism and the base when the upper multi-functional assembly is in a ready position relative to the base. 9. The film processing module of claim 6 , wherein the clamping plate is between the cutting mechanism and the base when the upper multi-functional assembly is in a clamping position relative to the base. 10. The film processing module of claim 6 , wherein the cutting mechanism extends at least partially between the clamping plate and the base when the upper multi-functional assembly is in a cutting position relative to the base. 11. The film processing module of claim 6 , wherein the base defines an inlay shaped to receive the cutting mechanism when the upper multi-functional assembly is in a cutting position relative to the base. 12. The film processing module of claim 11 , wherein the inlay is lined with an elastomer. 13. The film processing module of claim 6 , wherein the clamping plate defines a cutting opening through which the cutting mechanism passes as the upper multi-functional assembly moves relative to the base. 14. The film processing module of claim 6 , further comprising a cartridge heater, wherein the cutting mechanism is a knife configured to be heated by the cartridge heater. 15. The film processing module of claim 14 , wherein the upper multi-functional assembly comprises upper and lower biasing members to urge the clamping plate toward the base. 16. The film processing module of claim 15 , wherein the lower biasing member is compressed: when the upper multi-functional assembly is in a clamping position relative to the base; and when the upper multi-functional assembly is in a cutting position relative to the base. 17. The film processing module of claim 6 , wherein the upper multi-functional assembly includes: a support arm engaged with the linear actuator; an upper biasing member engaged with the support arm; and a lower biasing member engaged with the upper biasing member and the clamping plate; wherein the upper and lower biasing members bias the clamping plate toward the base. 18. The film processing module of claim 17 , wherein the upper and lower biasing members are uncompressed when the upper multi-functional assembly is in a ready position relative to the base. 19. The film processing module of claim 17 , wherein the upper biasing member is uncompressed when the upper multi-functional assembly is in a clamping position relative to the base. 20. The film processing module of claim 17 , wherein the upper biasing member is compressed when the upper multi-functional assembly is in a cutting position relative to the base. 21. The film processing module of claim 6 , wherein the cutting mechanism is a cutting wire. 22. A method for producing sealed film products, comprising: moving, with a processor, an upper multi-functional assembly of a film processing module to a ready position relative to a base of the film processing module; moving, with the processor, the film processing module to an aligned location on an oblong supporting rail such that a portion of a film running parallel to the oblong supporting rail is between the upper multi-functional assembly and the base; moving, with the processor, the upper multi-functional assembly toward the base to a clamping position to clamp the film; energizing, with the processor, a cutting mechanism of the upper multi-functional assembly to heat the cutting mechanism; moving, with the processor, the upper multi-functional assembly toward the base to a cutting position to cut the film; moving, with the processor, the upper multi-functional assembly away from the base to an open position; moving, with the processor, the film processing module to a transfer location on the oblong supporting rail such that a conveyor is between the upper multi-functional assembly and the base; controlling, with the processor, an air controller to draw a vacuum to retain cut film against the upper multi-functional assembly; and releasing, with the processor, the vacuum to deposit the cut film on the conveyor. 23. A system, comprising: an oblong supporting rail; a power source and a controller in electrical communication with the supporting rail; and a film processing module moveably engaged with the supporting rail, the film processing module including: a base; an upper multi-functional assembly including a clamping plate and a cutting mechanism in electrical communication with the power source and the controller to cut and seal film; and a linear actuator fixed to the base and driveably engaged to the upper multi-functional assembly to move the upper multi-functional assembly relative to the base, wherein the clamping plate defines an air opening and the film processing module includes an air controller in fluid communication with the air opening, the air controller to draw a vacuum to retain the film against the clamping plate. 24. The system of claim 23 , wherein the cutting mechanism is a cutting wire.