Compliant shroud for gas turbine engine clearance control

What is claimed is: 1. A shroud assembly for a gas turbine, the gas turbine defining an axial centerline, a radial direction extending orthogonally outward from the axial centerline, and circumferential direction extending circumferentially around the axial centerline, the shroud assembly comprising: a casing defining first and second slots; and a shroud, comprising: a radially outer wall engaged with the casing, the radially outer wall including first and second axially outer ends that are received in the first and second slots, respectively, such that the axially outer ends are fixed relative to the casing; and a radially inner wall integrally coupled to the radially outer wall by a central boss, wherein the radially inner wall and the radially outer wall each partially define a pair of axially opposed cavities, and wherein the radially inner wall moves radially outward toward the casing when one or more gas turbine blades contact the radially inner wall; and wherein the radially inner wall and the radially outer wall are symmetric about a plane extending in the radial direction and the circumferential direction, wherein the first and second axially outer ends are coupled to the central boss, and wherein the central boss has a triangular cross-sectional shape. 2. The shroud assembly of claim 1 , wherein the casing is a compressor casing or a turbine casing. 3. The shroud assembly of claim 1 , wherein the casing comprises a pair of axially opposed bosses, and wherein each of the axially opposed bosses are positioned in one of the pair of axially opposed cavities. 4. The shroud assembly of claim 1 , wherein the radially outer wall is axially planar and circumferentially curved. 5. The shroud assembly of claim 1 , wherein the radially outer wall is axially arcuate-shaped. 6. The shroud assembly of claim 1 , wherein the radially outer wall comprises a pair of rectangular flanges. 7. The shroud assembly of claim 1 , wherein the radially inner wall moves radially inward away from the casing when the one or more gas turbine blades move out of contact with the radially inner wall. 8. The shroud assembly of claim 1 , wherein the axially outer ends are at least partially aligned along the radial direction of the gas turbine. 9. A gas turbine defining an axial centerline, a radial direction extending orthogonally outward from the axial centerline, and circumferential direction extending circumferentially around the axial centerline, the gas turbine comprising: a compressor, comprising a compressor casing and a plurality of compressor blades, the compressor casing defining first and second compressor casing slots; a combustion section; a turbine, comprising a turbine casing and a plurality of turbine blades, the turbine casing defining first and second turbine casing slots; a shaft rotatably coupling the compressor and the turbine; and a shroud for the compressor or the turbine, the shroud comprising: a radially outer wall engaged with the compressor casing or the turbine casing, the radially outer wall including first and second axially outer ends that are received in the corresponding first and second compressor casing or turbine casing slots, respectively, such that the axially outer ends are fixed relative to the corresponding compressor or turbine casing; and a radially inner wall integrally coupled to the radially outer wall by a central boss, wherein the radially inner wall and the radially outer wall each partially define a pair of axially opposed cavities, and wherein the radially inner wall moves radially outward toward the compressor casing or the turbine casing when one or more of the plurality of compressor blades or the plurality of turbine blades contact the radially inner wall; and wherein the radially inner wall and the radially outer wall are symmetric about a plane extending in the radial direction and the circumferential direction, wherein the first and second axially outer ends are coupled to the central boss, and wherein the central boss has a triangular cross-sectional shape. 10. The gas turbine of claim 9 , wherein the compressor casing or turbine casing comprises a pair of axially opposed bosses, and wherein each of the axially opposed bosses are positioned in one of the pair of axially opposed cavities. 11. The gas turbine of claim 9 , wherein the radially outer wall is planar. 12. The gas turbine of claim 9 , wherein the radially outer wall is axially arcuate-shaped. 13. The gas turbine of claim 9 , wherein the radially inner wall moves radially inward away from the compressor casing or the turbine casing when one or more gas turbine blades move out of contact with the radially inner wall. 14. The gas turbine of claim 9 , wherein the shroud comprises a plurality of axially-aligned and circumferentially spaced apart shrouds. 15. The gas turbine of claim 14 , further comprising: a seal positioned between each of the plurality of axially-aligned and circumferentially spaced apart shrouds. 16. The gas turbine of claim 14 , wherein each of the radially inner walls of the plurality of axially-aligned and circumferentially spaced apart shrouds independently move radially outward when one or more of the plurality of compressor blades or the plurality of turbine blades contact the radially inner wall. 17. A shroud assembly for a gas turbine, the gas turbine defining a radial direction extending orthogonally outward from a longitudinal centerline of the gas turbine, the shroud assembly further defining a circumferential direction extending circumferentially around the longitudinal centerline, the shroud assembly comprising: a casing; and a shroud, comprising: a radially outer wall, comprising: a first flange engaged with the casing, the first flange comprising a first plurality of fingers; a second flange engaged with the casing, the second flange comprising a second plurality of fingers, at least one finger of the second plurality of fingers having the same position along the circumferential direction as a portion of the first flange; and a radially inner wall coupled to the first plurality of fingers and the second plurality of fingers and positioned radially inward from the first flange and the second flange, an axial position of the first flange being the same as an axial position where the second plurality of fingers connects to the radially inner wall, wherein the radially outer wall and the radially inner wall collectively define a pair of axially opposed cavities, and wherein the first plurality of fingers and the second plurality of fingers pivot radially outward to move the radially inner wall radially outward toward the casing when one or more gas turbine blades contact the radially inner wall. 18. The shroud assembly of claim 17 , wherein the first plurality of fingers defines a plurality of slots, and wherein each of the second plurality of fingers is positioned in one of the plurality of slots.