Drogue to seat separation assembly having pyrotechnic fastener

What is claimed is: 1. A drogue bridle separation assembly, comprising: a housing defining a riser channel and a fastener opening; and a pyrotechnic fastener configured to extend through the fastener opening and the riser channel, the pyrotechnic fastener including a charge configured to undergo an exothermic reaction in response to an electrical signal, wherein the pyrotechnic fastener includes a fastener body, wherein the fastener body defines a chamber configured to receive gas produced by the exothermic reaction, wherein the pyrotechnic fastener is configured to sever in a first region of the fastener body and in a second region of the fastener body in response to the exothermic reaction; a bushing configured to be received in the riser channel, wherein the bushing defines a fastener channel configured to receive the pyrotechnic fastener, wherein the first region corresponds to a first end of the bushing, wherein the second region corresponds to a second end of the bushing, and wherein a first length of a central portion of the fastener body is approximately equal to a second length of the bushing, the first length of the central portion of the fastener body measured between the first region and the second region, the second length of the bushing measured between a first end of the bushing and a second end of the bushing. 2. The drogue bridle separation assembly of claim 1 , wherein the first region includes a first groove formed in at least one of an exterior surface of the fastener body or an interior surface of the fastener body, and wherein the second region includes a second groove formed in at least one of the exterior surface or the interior surface. 3. The drogue bridle separation assembly of claim 1 , wherein the first region of the fastener body is formed of a first material, and wherein the central portion of the fastener body is formed of a second material different from the first material, and wherein the second region is formed of a third material different from the second material. 4. The drogue bridle separation assembly of claim 1 , wherein the first region of the fastener body comprises a first density, and wherein the central portion of the fastener body comprises a second density, wherein the first density is less than the second density, wherein the second region comprises a third density, and wherein the third density is less than the second density. 5. An ejection seat, comprising: a seatback; a drogue canopy stowed, at least partially, in an interior of the seatback; a bridle riser coupled to the drogue canopy and the seatback; a housing coupled to the seatback and defining a riser channel and a fastener opening a pyrotechnic fastener configured to extend through the fastener opening and the riser channel, the pyrotechnic fastener including a charge configured to undergo an exothermic reaction in response to an electrical signal, wherein the pyrotechnic fastener includes a fastener body, wherein the fastener body defines a chamber configured to receive gas produced by the exothermic reaction, wherein the pyrotechnic fastener is configured to sever in a first region of the fastener body and in a second region of the fastener body in response to the exothermic reaction; and a bushing located in a loop formed by an end of the bridle riser, wherein the bushing is configured to be received in the riser channel, wherein the bushing defines a fastener channel configured to receive the pyrotechnic fastener, wherein the first region corresponds to a first end of the bushing, wherein the second region corresponds to a second end of the bushing, and wherein a first length of a central portion of the fastener body is approximately equal to a second length of the bushing, the first length of the central portion of the fastener body measured between the first region and the second region, the second length of the bushing measured between a first end of the bushing and a second end of the bushing. 6. The ejection seat of claim 5 , further comprising a sequencer configured to send the electrical signal to the pyrotechnic fastener. 7. The ejection seat of claim 5 , wherein the first region includes a first groove formed in at least one of an exterior surface of the fastener body or an interior surface of the fastener body, and wherein the second region includes a second groove formed in at least one of the exterior surface or the interior surface. 8. A method for installing a drogue parachute in an ejection seat, comprising: locating a bushing coupled to an end of a drogue bridle riser in a riser channel defined by a housing, the housing coupled to a seatback of the ejection seat; locating a pyrotechnic fastener through the bushing and the housing; electrically connecting the pyrotechnic fastener to a sequencer of the ejection seat; and configuring a fastener body of the pyrotechnic fastener to sever in a first region and in a second region, wherein a first length of the fastener body between the first region and the second region is approximately equal to a second length of the bushing, the second length of the bushing measured between a first end of the bushing and a second end of the bushing. 9. The method of claim 8 , further comprising: configuring the sequencer to send a first signal to deploy the drogue parachute; and configuring the sequencer to send a second signal to the pyrotechnic fastener a predetermined number of seconds after sending the first signal. 10. The method of claim 8 , wherein configuring the fastener body to sever in the first region and in the second region comprises: forming a first groove in at least one of an exterior surface of the fastener body or an interior surface of the fastener body in the first region; and forming a second groove in at least one of the exterior surface of the fastener body or the interior surface of the fastener body in the second region.