Compressor with offset diffuser for integral bleed

What is claimed is: 1. A compressor system comprising: a compressor with a housing defining a compressor chamber; an impeller disposed to rotate in the compressor chamber; a diffuser extending around the impeller and configured to collect fluid leaving the impeller; an exit through which a main flow of the fluid is discharged from the diffuser, the exit providing an opening that extends circumferentially around the compressor; a bleed annulus extending around the compressor and having a consistent cross-sectional area around the compressor; and a bleed port that opens the diffuser to the bleed annulus and that is configured to divert a bleed flow of the fluid from the main flow before discharge through the exit, the bleed port having a circumference around the compressor and a flow size that varies around the circumference; wherein variation in the flow size of the bleed port is configured to maintain a uniform flow distribution around the exit. 2. The compressor system of claim 1 wherein the impeller rotates about an axis, and wherein the exit is annular in shape encircling the axis, and has a consistent open size around the axis. 3. The compressor system of claim 1 wherein the bleed flow is routed out of the compressor without passing through a volute. 4. The compressor system of claim 1 wherein the impeller rotates about an axis and comprising: an outer wall defining a radially outer-most perimeter of the bleed port; and an inner wall defining a radially inner-most perimeter of the bleed port wherein the inner wall includes a segment that is cylindrical in shape; wherein the outer wall is disposed around the axis as its center and the inner wall is configured with a hub translation that is offset so that the axis is not at the inner wall's center. 5. The compressor system of claim 1 wherein the impeller rotates about an axis and comprising: an outer wall defining a radially outer-most perimeter of the bleed port; and an inner wall defining a radially inner-most perimeter of the bleed port wherein the inner wall includes a segment that is configured with a tip translation so that at different locations the segment angles toward the axis, angles away from the axis, and is parallel with the axis. 6. The compressor system of claim 1 wherein the impeller rotates about an axis defining an axial direction, the bleed port is configured to channel the bleed flow in the axial direction into the bleed annulus, and comprising a bleed scoop configured to channel the bleed flow out of the bleed annulus in a radial direction away from the axis. 7. The compressor system of claim 1 comprising a bleed scoop located outward from the bleed annulus in a radial direction and configured to receive the bleed flow from the bleed annulus, wherein the bleed port is most open at a first point that is upstream from the bleed scoop less than 180 degrees and is least open at a second point that is downstream from the bleed scoop less than 180 degrees. 8. The compressor system of claim 1 comprising a combustor, wherein the compressor is configured to supply the main flow to the combustor. 9. The compressor system of claim 1 comprising a number of vanes disposed in the diffuser to direct the fluid, wherein the bleed port is located outward from the vanes in a radial direction so that the fluid passes by the vanes before reaching the bleed port. 10. A compressor system comprising: a compressor with a housing defining a compressor chamber; an impeller having an outer periphery and disposed to rotate in the compressor chamber, the impeller configured to move a fluid away from its outer periphery; a diffuser extending around the impeller and configured to collect the fluid leaving the outer periphery of the impeller; an exit through which a main flow of the fluid is discharged from the diffuser, the exit providing an opening that extends circumferentially around the compressor; a bleed annulus extending around the compressor in an annular shape and having a consistent cross-sectional area for circumferential flow of the fluid around the compressor; and a bleed port that opens the diffuser to the bleed annulus and that is configured to divert a bleed flow of the fluid from the main flow before discharge of the main flow through the exit, the bleed port having a circumference around the compressor and a flow size that varies around the circumference; wherein variation in the flow size of the bleed port is configured to maintain a uniform flow distribution around the exit. 11. The compressor system of claim 10 wherein the impeller rotates about an axis, and wherein the exit has a consistent open size around the axis. 12. The compressor system of claim 10 wherein the compressor is configured to channel the from the diffuser and out of the compressor without passing through a volute. 13. The compressor system of claim 10 wherein the impeller rotates about an axis and comprising: an outer wall of the housing defining a radially outer-most perimeter of the bleed port; and an inner wall defining a radially inner-most perimeter of the bleed port wherein the inner wall includes a segment that is cylindrical in shape; wherein the outer wall is disposed around the axis and is centered on the axis and the inner wall is configured with a hub translation effect so that it is offset and not centered on the axis. 14. The compressor system of claim 10 wherein the impeller rotates about an axis and comprising: an outer wall of the housing defining a radially outer-most perimeter of the bleed port; and an inner wall defining a radially inner-most perimeter of the bleed port wherein the inner wall includes a segment that is configured with a tip translation effect so that at different locations the segment angles toward the axis, angles away from the axis, and is parallel with the axis. 15. The compressor system of claim 10 wherein the impeller rotates about an axis defining an axial direction, the bleed port is configured to channel the bleed flow in the axial direction into the bleed annulus, and comprising a bleed scoop configured to channel the bleed flow out of the bleed annulus in a radial direction away from the axis. 16. The compressor system of claim 10 comprising a bleed scoop located outward from the bleed annulus in a radial direction and configured to receive the bleed flow from the bleed annulus, wherein the bleed port is most open at a first point that is upstream from the bleed scoop less than 180 degrees and is least open at a second point that is downstream from the bleed scoop less than 180 degrees. 17. The compressor system of claim 10 comprising a combustor, wherein the compressor is configured to supply the main flow to the combustor. 18. The compressor system of claim 10 comprising a number of vanes disposed in the diffuser to direct the fluid, wherein the bleed port is located outward from the vanes in a radial direction so that the fluid passes by the vanes before reaching the bleed port. 19. A compressor system with a compressor for supplying combustion air to the combustor of an auxiliary power unit of an aircraft comprising: a housing defining a compressor chamber; an impeller disposed to rotate in the compressor chamber, the impeller having a discharge area defined by its outer periphery; a diffuser extending around the outer periphery to collect gas leaving the discharge area of the impeller; an annular exit through which the gas is discharged from the diffuser to the combustor; a bleed annulus extending around t