Additively manufactured mechanical multistage ignition sequencer

What is claimed: 1. An ignition sequencer assembly, comprising: a body comprising a guide slot and an energetic well; and an armature, wherein the armature is captively contained by the body and exhibits relative articulating motion with respect thereto and comprises a single, monolithic, paddle structure which acts to open and close two or more ignition apertures; the armature having a top plate, the top plate comprising: a top aperture; a lock for slidably engaging with the guide slot; and a spring catch; a bottom plate, the bottom plate comprising: a lobed portion; and a bottom aperture; and a lever, wherein the lever connects the top plate to the bottom plate. 2. The ignition sequencer assembly according to claim 1 , wherein the body and the armature are additively-manufactured. 3. The ignition sequencer assembly according to claim 2 , wherein the ignition sequencer assembly architecture allows for the existence of two or more distinct stages of the ignition sequence through the articulating motion of the additively-manufactured armature. 4. The ignition sequencer assembly according to claim 1 , wherein the body is additively-manufactured from a polyamide material. 5. The ignition sequencer assembly according to claim 1 , wherein the armature is additively-manufactured from a polyamide material. 6. The ignition sequencer assembly according to claim 1 , wherein the ignition sequencer assembly architecture allows for installation of an internal energetic compound while all components are assembled and interconnected. 7. The ignition sequencer assembly according to claim 1 , wherein the ignition sequencer assembly architecture allows for installation into a next higher-level assembly using a single, uniaxial, force. 8. The ignition sequencer assembly according to claim 7 , wherein integral flexure locking features retain the ignition sequencer assembly in the next higher level assembly. 9. The ignition sequencer assembly according to claim 1 , wherein the ignition sequencer assembly comprising features designed to limit accessible positions of relative motion between the body and the armature during operation. 10. The ignition sequencer assembly according to claim 1 , wherein when the ignition sequencer is in an energetic load position the energetic well is unobstructed by the top and bottom apertures. 11. The ignition sequencer assembly according to claim 1 , wherein when the ignition sequencer is in an ignite position the bottom aperture is aligned with the energetic well and the lock is in the guide slot. 12. The ignition sequencer assembly according to claim 1 , wherein when the ignition sequencer is in a fire position the top aperture is aligned with the energetic well and the lobed portion is some distance away from an inner wall of the body such that the bottom aperture is no longer aligned with the energetic well. 13. A method of using an ignition sequencer assembly, comprising: providing a body comprising a guide slot and an energetic well and an armature, wherein the armature is captively contained by the body; articulating the armature with respect to the body, the armature comprising a single, monolithic, paddle structure the armature having a top plate, the top plate comprising: a top aperture; a lock for slidably engaging with the guide slot; and a spring catch; a bottom plate, the bottom plate comprising: a lobed portion; and a bottom aperture; and a lever, wherein the lever connects the top plate to the bottom plate; and opening and closing two or more ignition apertures with the articulating motion of the armature with respect to the body.