Hydrostatic pump barrel with sloped kidney ports

What is claimed is: 1. A pump barrel for use in a hydrostatic pump assembly, comprising: a barrel body defining a plurality of piston bores configured for receiving a plurality of pistons that are moveable within the piston bores; and a porting face that defines a plurality of ports that are in fluid communication with the piston bores and providing fluid flow paths into and out from the barrel body; wherein edge surfaces of the ports are oriented at non-right angles relative to the porting face; and wherein each port has a leading edge surface and a trailing edge surface relative to a direction of rotation of the pump barrel, and the leading edge surface is oriented at an acute angle of less than 90° relative to the porting face, and the trailing edge surface is oriented at an obtuse angle greater than 90° relative to the porting face. 2. The pump barrel of claim 1 , wherein a number of the ports defined by the pump barrel corresponds to a number of the piston bores. 3. The pump barrel of claim 1 , further comprising a central bore that includes a spline configured for interacting with an input drive shaft. 4. The pump barrel of claim 1 , wherein the barrel body is cylindrical. 5. The pump barrel of claim 1 , wherein the plurality of ports are kidney ports. 6. The pump barrel of claim 1 , wherein the piston bores are cylindrical. 7. The pump barrel of claim 6 , wherein the plurality of piston bores are spaced equidistantly around a central bore. 8. A hydrostatic pump assembly, comprising: a piston rotating group including a pump barrel defining a plurality of bores, and a plurality of moveable pistons that are received in the plurality of bores of the pump barrel; an input shaft for driving rotation of the piston rotating group; and a displaceable swash plate, wherein as the piston rotating group rotates, the pistons extend and contract by interaction against the swash plate to drive fluid into and out from the hydrostatic pump assembly; and wherein the pump barrel has a plurality of ports in fluid communication with the bores and providing fluid flow paths into and out from the pump barrel, and edge surfaces of the ports are sloped relative to a normal line extending along an axis of movement of the pistons; and further wherein: each port has a leading edge surface and a trailing edge surface relative to a direction of rotation of the piston rotating group; the pump barrel has a porting face that defines the plurality of ports; the leading edge surface of each port is oriented at an acute angle of less than 90° relative to the porting face; and the trailing edge surface of each port is oriented at an obtuse angle greater than 90° relative to the porting face. 9. The hydrostatic pump assembly of claim 8 , wherein a number of the ports defined by the pump barrel corresponds to a number of the pistons. 10. The hydrostatic pump assembly of claim 8 , wherein the plurality of ports of the pump barrel are kidney ports. 11. The hydrostatic pump assembly of claim 8 , further comprising a fluid manifold including an input passage and an output passage respectively for communicating the fluid to and from the piston rotating group, wherein the piston rotating group rotates against a pump running face of the manifold. 12. A pump barrel for use in a hydrostatic pump assembly, comprising: a barrel body defining a plurality of piston bores configured for receiving a plurality of pistons that are moveable within the piston bores; and a porting face that defines a plurality of ports that are in fluid communication with the piston bores and providing fluid flow paths into and out from the barrel body; wherein edge surfaces of the ports are oriented in a first direction at non-right angles relative to the porting face, and oriented in a second direction comprising a tilt angle that is different from the first direction; and further wherein: the tilt angle tilts the ports in a plane that is perpendicular to both the porting face and a plane of the non-right angles of the first direction; each port has a leading edge surface and a trailing edge surface relative to a direction of rotation of the barrel body, and has an inner edge surface and an outer edge surface; the leading edge surface is oriented at a leading edge acute angle of less than 90° relative to the porting face, and the trailing edge surface is oriented at a trailing edge obtuse angle greater than 90° relative to the porting face; and the inner edge surface is oriented at an inner edge tilt acute angle of less than 90° relative to the porting face, and the outer edge surface is oriented at an outer edge tilt obtuse angle greater than 90° relative to the porting face. 13. The pump barrel of claim 12 , wherein the barrel body is cylindrical. 14. The pump barrel of claim 12 , wherein the plurality of ports are kidney ports. 15. The pump barrel of claim 12 , wherein the piston bores are cylindrical. 16. The pump barrel of claim 12 , wherein a number of the ports defined by the pump barrel corresponds to a number of the piston bores. 17. The pump barrel of claim 12 , further comprising a central bore that includes a spline configured for interacting with an input drive shaft. 18. The pump barrel of claim 17 , wherein the plurality of piston bores are spaced equidistantly around the central bore. 19. A hydrostatic pump assembly, comprising: a piston rotating group including a pump barrel according to claim 12 and the plurality of moveable pistons that are received in the plurality of bores of the pump barrel; an input shaft for driving rotation of the piston rotating group; and a displaceable swash plate, wherein as the piston rotating group rotates, the pistons extend and contract by interaction against the swash plate to drive fluid into and out from the hydrostatic pump assembly. 20. The hydrostatic pump assembly of claim 19 , further comprising a fluid manifold including an input passage and an output passage respectively for communicating the fluid to and from the piston rotating group, wherein the piston rotating group rotates against a pump running face of the manifold.