Compact squeeze film damper bearing

What is claimed is: 1. A bearing assembly for a rotary machine, the bearing assembly comprising: a bearing housing including a housing body, the housing body being a solid of revolution with a hollow interior, the housing body including a first end, and a second end opposite the first end; a squeeze film cylinder located within the bearing housing, the squeeze film cylinder including a squeeze film cylindrical portion extending from proximal the first end towards the second end, the squeeze film cylindrical portion having a cylindrical shape; a damper spring including a first portion having a cylindrical shape concentric with the squeeze film cylinder and proximal the first end, a second portion having a cylindrical shape concentric with the squeeze film cylinder and proximal the second end, and a spring portion having a plurality of damper spring fingers arranged in circumferential pattern concentric with the squeeze film cylinder and extending axially between the first portion and the second portion, the spring portion being located completely within the bearing housing; and a journal bearing located within the bearing housing. 2. The bearing assembly of claim 1 , wherein: the bearing housing also includes an oil supply annulus formed in the housing body at the hollow interior, and one or more oil supply passages extending outward from the oil supply annulus and through the housing body; and the squeeze film cylindrical portion extends at least to the oil supply annulus, and the bearing housing and the squeeze film cylindrical portion form a squeeze film annulus there between extending from the oil supply annulus toward the first end. 3. The bearing assembly of claim 2 , further comprising a first squeeze film seal located between the bearing housing and the squeeze film cylindrical portion and proximal the first end, and wherein the squeeze film annulus extends to the first squeeze film seal. 4. The bearing assembly of claim 2 , wherein the squeeze film cylindrical portion extends beyond the oil supply annulus to the second portion, and the bearing housing and the squeeze film cylindrical portion form a second squeeze film annulus there between extending from the oil supply annulus toward the second end. 5. The bearing assembly of claim 4 , further comprising: a first squeeze film seal located between the bearing housing and the squeeze film cylindrical portion and proximal the first end; and a second squeeze film seal located between the bearing housing and the squeeze film cylindrical portion and proximal the second end; wherein the squeeze film annulus extends to the first squeeze film seal and the second squeeze film annulus extends to the second squeeze film seal. 6. The bearing assembly of claim 1 , wherein each damper spring finger of the plurality of damper spring fingers has a cylindrical shape extending axially between the first portion and the second portion. 7. The bearing assembly of claim 1 , wherein the journal bearing is a tilt pad journal bearing. 8. The bearing assembly of claim 1 , wherein: the first portion is located inward from the squeeze film cylindrical portion; the second portion is located inward from the bearing housing; the squeeze film cylinder also includes a squeeze film flange portion extending inward from the squeeze film cylindrical portion proximal the first end; and the damper spring also includes a first flange extending inward from the first portion, the first flange being contiguous to and fastened to the squeeze film flange portion, and a second flange extending outward from the second portion, the second portion being contiguous to and fastened to the bearing housing. 9. The bearing assembly of claim 8 , further comprising: a first end plate extending inward from the squeeze film flange portion and being fastened to the first flange, the first end plate including an annular plate shape; and a second end plate extending inward from the second portion and being fastened to the journal bearing; wherein the journal bearing is located between the first end plate and the second end plate; and wherein the journal bearing is also fastened to the first flange. 10. A centrifugal gas compressor including the bearing assembly of claim 1 , the centrifugal gas compressor further comprising a shaft and centrifugal impellers coupled to the shaft, wherein the bearing assembly is located about the shaft. 11. A bearing assembly for a rotary machine, the bearing assembly comprising: a bearing housing including a housing body, the housing body being a solid of revolution revolved about an axis forming a hollow interior, the housing body including a first end, a second end opposite the first end, and a body surface, the body surface being the radially inner surface of the housing body, an oil supply annulus, the oil supply annulus being an annular slot formed in the housing body extending radially inward from the body surface, and one or more oil supply passages extending outward from the oil supply annulus and through the housing body; a squeeze film cylinder located within the bearing housing, the squeeze film cylinder including a squeeze film cylindrical portion extending axially from proximal the first end to at least the oil supply annulus, the squeeze film cylindrical portion including a hollow cylinder shape and including a cylindrical portion surface, the cylindrical portion surface being the radially outer surface of the squeeze film cylindrical portion, wherein at least a portion of the cylindrical portion surface is spaced apart from the body surface forming a squeeze film annulus there between, the squeeze film annulus being an annular slot extending from the oil supply annulus towards the first end, and a squeeze film flange portion extending radially inward from the squeeze film cylindrical portion proximal the first end; a damper spring including a first portion located within and contiguous to the squeeze film cylindrical portion, a first flange extending radially inward from the first portion and contiguous to the squeeze film flange portion, a second portion proximal the second end and located at least partially within the bearing housing, a second flange extending radially outward from the second portion and contiguous to the second end, and a spring portion extending axially between the first portion and the second portion, the spring portion being axially located within an axial envelope defined by a combined width of the oil supply annulus and the squeeze film cylindrical portion; and a journal bearing located radially inward from the damper spring, the journal bearing including a journal housing. 12. The bearing assembly of claim 11 , wherein the squeeze film cylindrical portion is axially spaced apart from the second portion forming a squeeze film passage there between, the squeeze film passage being in flow communication with the oil supply annulus. 13. The bearing assembly of claim 11 , further comprising a squeeze film seal located between the bearing housing and the squeeze film cylindrical portion and proximal the first end, and wherein the squeeze film annulus extends to the squeeze film seal. 14. The bearing assembly of claim 11 , wherein the spring portion includes a plurality of damper spring fingers arranged in a circumferential pattern, each damper spring finger including a cylindrical or prism shape extending axially between the first portion and the second portion. 15. A centrifugal gas compressor including the bearing assembly of claim 11 , the centrifugal gas compressor further compr