Liquid pump with cavitation mitigation

What is claimed is: 1. A valve assembly for a liquid pump comprising: a valve body having each of a fluid inlet and a fluid outlet formed therein, and including a valve stack forming an inlet valve seat and an outlet valve seat each positioned fluidly between the fluid inlet and the fluid outlet; an inlet check valve, separate from the valve body, positioned at least partially within the valve stack and movable relative to the valve stack between a closed position blocking the inlet valve seat, and an open position; an outlet check valve positioned at least partially within the valve stack and movable between a closed position blocking the outlet valve seat, and an open position; a plunger movable within the valve body between a retracted position and an advanced position; the inlet check valve, the outlet check valve, and the plunger defining a common axis that extends through the valve stack, and the inlet check valve being located axially between the outlet check valve and the plunger; the valve body further having formed therein a pumping chamber receiving the plunger, an inlet chamber within the valve stack, and an outlet chamber within the valve stack, and each of the pumping chamber, the inlet chamber, and the outlet chamber being centered on the common axis; and a plurality of flow channels formed in the valve body for transitioning a pumped liquid between the fluid inlet and the fluid outlet, and being arranged in a first parallel group, defined by the valve stack, fluidly connecting the inlet chamber to the pumping chamber and having a first circumferential distribution about the common axis, and a second parallel group, defined by the valve stack, fluidly connecting the inlet chamber to the outlet chamber and having a second circumferential distribution about the common axis. 2. The valve assembly of claim 1 wherein a total number of the flow channels in the first parallel group is equal to a total number of the flow channels in the second parallel group, and wherein the first circumferential distribution is different from the second circumferential distribution such that the first parallel group and the second parallel group have an alternating arrangement about the common axis. 3. The valve assembly of claim 2 wherein a flow area formed by the first parallel group is less than a flow area formed by the inlet valve seat. 4. The valve assembly of claim 3 wherein the plunger defines a swept volume, and the inlet chamber, the outlet chamber, the pumping chamber, and the plurality of flow channels define a combined volume greater than the swept volume. 5. The valve assembly of claim 4 wherein the combined volume is from 2 times to 3 times the swept volume. 6. The valve assembly of claim 5 wherein the combined volume is 2.1 times the swept volume. 7. The valve assembly of claim 2 wherein the total number of flow channels of each of the first parallel group and the second parallel group is eight, and wherein each of the first parallel group and the second parallel group is uniformly distributed according to the corresponding first circumferential distribution or second circumferential distribution at a uniform radial distance from the common axis. 8. The valve assembly of claim 1 wherein the valve body further includes an outer housing piece, and an insert piece defining a central bore, and the insert piece forming an inlet annulus with the outer housing piece and having a plurality of inlet orifices formed therein and extending between the inlet annulus and the central bore, and wherein the valve stack is within the central bore such that the fluid inlet is in fluid communication with the plurality of inlet orifices. 9. The valve assembly of claim 8 wherein the valve stack includes an inlet piece having a plurality of incoming fluid passages extending radially inward from the fluid inlet, an outlet piece, and a pumping piece, and wherein the inlet chamber is defined in part by the inlet piece and in part by the pumping piece, the outlet chamber is defined in part by the inlet piece and in part by the outlet piece, and the pumping chamber is defined in part by the pumping piece and in part by the insert piece. 10. A valve stack for a liquid pump comprising: an inlet piece having formed therein each of an inlet valve seat, a fluid inlet, and a plurality of incoming fluid passages extending between the fluid inlet and the inlet valve seat; an outlet piece positioned upon a first side of the inlet piece, the outlet piece having formed therein an outlet valve seat, and a fluid outlet; a pumping piece positioned upon a second side of the inlet piece, such that the inlet piece is sandwiched between the pumping piece and the outlet piece; an inlet check valve positioned at least partially within the inlet piece and movable between a closed position blocking the inlet valve seat, and an open position; an outlet check valve positioned at least partially within the outlet piece, and movable between a closed position blocking the outlet valve seat, and an open position; the inlet piece, the outlet piece, and the pumping piece defining a common axis, and each of the inlet check valve and the outlet check valve being movable along the common axis between the corresponding closed position and open position; the valve stack further forming an inlet chamber between the inlet piece and the pumping piece, an outlet chamber between the inlet piece and the outlet piece, a pumping chamber, and a plurality of flow channels; and the plurality of flow channels being arranged in a first parallel group extending through the pumping piece between the inlet chamber and the pumping chamber and having a first circumferential distribution about the common axis, and a second parallel group extending through the inlet piece between the inlet chamber and the outlet chamber and having a second circumferential distribution about the common axis. 11. The valve stack of claim 10 wherein a flow area formed by the first parallel group is less than a flow area formed by the inlet valve seat. 12. The valve stack of claim 10 wherein a total number of the flow channels in the first parallel group is equal to a total number of the flow channels in the second parallel group. 13. The valve stack of claim 12 wherein each of the plurality of flow channels is positioned at a uniform radial distance from the common axis, and wherein the flow channels in the first parallel group are in an alternating arrangement about the common axis with the flow channels in the second parallel group. 14. The valve stack of claim 10 wherein the inlet valve seat includes a flat seat, and the outlet valve seat includes a conical seat, and each of the inlet valve seat and the outlet valve seat is centered upon the common axis. 15. A liquid pump comprising: a pump housing having each of a pump inlet and a pump outlet formed therein; an inlet metering valve structured to vary a flow area of the pump inlet; a valve assembly within the pump housing and including a valve body having a fluid inlet and a fluid outlet formed therein and a valve stack forming an inlet valve seat and an outlet valve seat; an inlet check valve positioned at least partially within the valve stack and movable between a closed position blocking the inlet valve seat, and an open position; an outlet check valve positioned at least partially within the valve stack and movable between a closed position blocking the outlet valve seat, and an open position; a plunger movable within the valve body between a retracted position and an advanced position; the inlet check valve, the outlet check va