Multi-cavity compression molding

What is claimed is: 1. A compression molding assembly comprising: a lower assembly defining a plurality of cavities; and an upper assembly disposed opposite the lower assembly, the upper assembly including an upper clamp plate, an upper cylinder plate secured to the upper clamp plate, wherein the upper cylinder plate defines a plurality of upper cylinder plate apertures disposed therethrough, a gas spring system including a plurality of gas springs secured to the upper clamp plate and disposed in the upper cylinder plate apertures, wherein individual gas springs of the plurality of gas springs include a cylinder body and a piston, an upper block secured to the upper cylinder plate, wherein the upper block includes upper block apertures disposed adjacent the upper cylinder plate apertures, and wherein the upper block defines stop surfaces disposed at the upper block apertures, wherein the upper block defines an individual upper block aperture having an upper wall portion defining a first width and a lower wall portion defining a second width less than the first width, and wherein the stop surface is disposed between the upper wall portion and the lower wall portion, and a plurality of inserts disposed in the upper block apertures and in engagement with the pistons of the gas springs, wherein an individual insert of the plurality of inserts includes a body portion moveable between a first position wherein the body portion is engaged with the stop surface, and a second position wherein the body portion is spaced from the stop surface, wherein the body portion is a first body portion, wherein the first body portion has a height less than a height of the upper wall portion of the individual upper block aperture, and wherein the first body portion is disposed in the upper wall portion of the individual upper block aperture. 2. The compression molding assembly of claim 1 , wherein the plurality of cavities is four or more discrete cavities. 3. The compression molding assembly of claim 1 , wherein two gas springs are disposed in an individual upper cylinder plate aperture. 4. The compression molding assembly of claim 1 , wherein individual gas springs of the plurality of gas springs are linked in fluid communication by one or more conduits. 5. The compression molding assembly of claim 4 , wherein the one or more conduits are disposed between the upper clamp plate and the upper cylinder plate. 6. The compression molding assembly of claim 1 , wherein individual gas springs of the plurality of gas springs include a charging medium adapted to be charged to a pressure in a range of approximately 50 bar to approximately 150 bar. 7. The compression molding assembly of claim 1 , wherein the individual insert further includes a second body portion adjacent the first body portion, wherein the second body portion has a width less than a width of the first body portion, and wherein the second body portion is disposed in the lower wall portion of the individual upper block aperture. 8. The compression molding assembly of claim 7 , wherein the individual insert further includes a third body portion adjacent the second body portion, wherein the third body portion has a width less than the width of the second body portion, and wherein the second body portion is disposed below a bottom wall of the upper block when the first body portion is in engagement with the stop surface. 9. The compression molding assembly of claim 1 , wherein a first individual insert is adapted to move a first distance from the first position to the second position, and wherein a second individual insert is adapted to move a second distance from the first position to a third position, the second distance being greater than the first distance. 10. The compression molding assembly of claim 9 , wherein a first gas spring is adapted to apply a first force on the first individual insert in the second position, and wherein a second gas spring is adapted to apply a second force on the second individual insert in the third position, the second force substantially corresponding to the first force. 11. An assembly for compression molding comprising: an insert housing defining a plurality of apertures having stop surfaces; a plurality of inserts disposed within the apertures and in engagement with the stop surfaces; and a plurality of gas springs in biased engagement with the inserts, individual gas springs of the plurality of gas springs being adapted to independently compress under load to permit independent movement of individual inserts within the apertures relative to the insert housing, wherein the insert housing defines an individual aperture having an upper wall portion defining a first width and a lower wall portion defining a second width less than the first width, and wherein a stop surface is disposed between the upper wall portion and the lower wall portion, wherein an individual insert defines a first body portion, wherein the first body portion has a height less than a height of the upper wall portion of the individual aperture, and wherein the first body portion is disposed in the upper wall portion of the individual aperture. 12. The assembly of claim 11 , wherein the individual insert further includes a second body portion adjacent the first body portion, wherein the second body portion has a width less than a width of the first body portion, and wherein the second body portion is disposed in the lower wall portion of the individual aperture. 13. The assembly of claim 11 , wherein a first individual insert is adapted to move a first distance relative to the insert housing to a first position, and a second individual insert is adapted to move a second distance relative to the insert housing to a second position, the second distance greater than the first distance, and wherein a first gas spring is adapted to apply a first force on the first individual insert in the first position, and wherein a second gas spring is adapted to apply a second force on the second individual insert in the second position, the second force substantially corresponding to the first force.