Surgical proceduralization via modular energy system

What is claimed is: 1. A modular energy system for use in a surgical environment comprising: an energy module configured to generate at least one energy modality for driving an electrosurgical and/or ultrasonic surgical instrument connected thereto; a header module communicably coupled to the energy module, the header module comprising a display screen capable of rendering a graphical user interface (GUI); wherein the GUI is configured to display a plurality of steps that correspond with actions performed by a user while operating the modular energy system; wherein the plurality of steps displayed by the GUI comprises steps of an output verification process; wherein the GUI displays a first step of the output verification process in response to the user inserting an output verification key into at least one port of the energy module, the first step being displayed prior to an energy being transferred to the energy module through the output verification key. 2. The modular energy system of claim 1 wherein the plurality of steps displayed by the GUI are steps of a predetermined procedural checklist; the steps of the predetermined procedural checklist corresponding with steps of a surgical procedure. 3. The modular energy system of claim 2 wherein the GUI is further configured to sequentially display each step of the predetermined procedural checklist as the user performs the surgical procedure, the GUI displaying each step until the user provides an input to the modular energy system indicting the step is complete. 4. The modular energy system of claim 3 further comprising a storage device configured to record event data related to operation of the energy module during the surgical procedure; wherein the event data is organized in an event log based on the step of the predetermined procedural checklist that was displayed by the GUI while the event was recorded. 5. The modular energy system of claim 4 wherein the GUI is further configured to display an instrument usage pattern based on the event data. 6. The modular energy system of claim 5 wherein the instrument usage pattern compares an event recorded during a specific step of a first surgical procedure performed by a first user with an event recorded during the same specific step of a plurality of surgical procedures performed by the first user. 7. The modular energy system of claim 5 wherein the instrument usage pattern compares an event recorded during a specific step of a first surgical procedure performed by a first user with events recorded during the same specific step of a plurality of surgical procedures performed by a plurality of users. 8. The modular energy system of claim 5 wherein the instrument usage pattern comprises an average transection time, a number of transactions, an average instrument power level, and a number of instrument exchanges. 9. The modular energy system of claim 4 wherein the GUI is further configured to display the event log. 10. The modular energy system of claim 9 where the event log displayed by the GUI comprises: an event log main screen, the event log main screen comprising data related to the operation of the energy module during a plurality of surgical procedures, the data related to the operation of the energy module during the plurality of surgical procedures comprising: a date of each procedure; a time of each procedure; a duration of each procedure; a description of each procedure; and a details button corresponding to each procedure; and an event log details modal screen corresponding to each procedure comprised in the event log main screen; wherein the event log details modal screen for each procedure is accessed by selecting the details button corresponding to the procedure, the event log details modal screen for each procedure comprising: an energy modality used during the procedure; a mode of the energy modality; a power level of the energy modality; and an activation time of the energy modality. 11. The modular energy system of claim 10 wherein the event log details modal screen further comprises: an error description of the energy modality used during the procedure; and an error state information pop-up window; wherein the error state information pop-up window is accessed by selecting the error description. 12. The modular energy system of claim 9 wherein the system is configured to export the event log to an external source. 13. The modular energy system of claim 3 wherein the display screen further comprises a touch screen; and wherein the touch screen is configured to detect the input indicating that each step is complete. 14. The modular energy system of claim 3 further comprising a microphone; wherein the input indicating that each step is complete is a voice command that is captured by the microphone. 15. The modular energy system of claim 3 wherein the GUI is configured to skip a step of the predetermined checklist when the user provides an input to the modular energy system to skip the step. 16. The modular energy system of claim 1 wherein the plurality of steps displayed by the GUI are steps of a procedural checklist that correspond with steps of a surgical procedure; wherein each step of the procedural checklist is input by the user upon a completion of each step of the surgical procedure. 17. The modular energy system of claim 16 wherein the display screen further comprises a touch screen; and wherein the touch screen in configured to detect the steps of the procedural checklist input by the user. 18. The modular energy system of claim 16 further comprising a microphone; wherein the microphone is configured to detect the steps of the procedural checklist input by the user. 19. The modular energy system of claim 1 wherein at least one of the steps of the output verification process displayed by the GUI comprises: a power level and mode setting to be tested for the at least one energy modality, and instructions that prompt the user to adjust a resistance setting of an electrosurgical unit analyzer; wherein the energy module is further configured to activate the at least one energy modality at the power level and mode setting to be tested based on an input from the user. 20. The modular energy system of claim 19 wherein the GUI does not display a next power level and mode setting to be tested until the user provides an input to the system indicating that the resistance setting of the electrosurgical unit analyzer has been adjusted. 21. The modular energy system of claim 1 wherein at least one of the steps of the output verification process displayed by the GUI comprises instructions that prompt the user to insert leads of an electrosurgical unit analyzer into at least one port of the energy module. 22. The modular energy system of claim 1 wherein the output verification key comprises: a first side comprising: a neutral electrode plug that connects to a neutral electrode port of the energy module; and an advanced energy plug that connects to an advanced energy port of the energy module; and a second side comprising: a neutral key port that accepts a lead of an electrical surgical unit analyzer to create a connection with the neutral electrode port; a monopolar key port that accepts a lead of an electrical surgical unit analyzer to create a connection with a monopolar energy modality of the advanced energy port; a bipolar key port that accepts a lead of an electrical surgical unit analyzer to create a