Method of generating a gradient flow having a constant compositional noise characteristic

What is claimed is: 1. A method of generating a flow having a composition gradient, the method comprising: generating a plurality of pump strokes with a first pump, each of the pump strokes of the first pump having an initiation time and providing a volume contribution of a first liquid to a flow according to a displacement volume of the pump stroke, the displacement volume and respective volume contributions of the first pump changing in time based on a contribution of the first liquid to the flow according to a predetermined composition gradient; and generating a plurality of pump strokes with at least one additional pump, each of the pump strokes of each of the additional pumps providing a volume contribution of an additional liquid to the flow according to a displacement volume of the pump stroke of the additional pump, wherein each of the first pump and the additional pumps initiates pump strokes at a pump stroke frequency, the displacement volume and respective volume contributions of each of the additional pumps changing in time based on a contribution of a respective one of the additional liquids to the flow according to the predetermined composition gradient, the pump strokes of the first pump and the pump strokes of the additional pumps being controlled so that a sum of the volume contribution of the first liquid occurring during a time between consecutive initiations of the first pump strokes plus the volumes of the additional liquids contributed by the additional pumps during the time between the consecutive initiations of the pump strokes of the first pump is constant throughout a duration of the predetermined composition gradient. 2. The method of claim 1 wherein the pump stroke frequencies of the first pump and the additional pumps are constant throughout a duration of the predetermined composition gradient. 3. The method of claim 1 wherein the pump stroke frequency of at least one of the first pump and the additional pumps changes in time during the predetermined composition gradient. 4. The method of claim 1 wherein pump strokes of the first pump and the additional pumps have a same pump stroke frequency and the initiations of the pump strokes of the first pump and the additional pumps are interspersed in time. 5. The method of claim 1 wherein the first and second liquids are solvents to be mixed as components of a mobile phase for liquid chromatography. 6. A pump system, comprising: a first pump operable to generate a plurality of pump strokes, each of the pump strokes of the first pump having an initiation time and providing a volume contribution of a first liquid to a flow according to a displacement volume of the pump stroke; at least one additional pump operable to generate a plurality of pump strokes, each of the pump strokes of each of the additional pumps providing a volume contribution of an additional liquid to the flow according to a displacement volume of the pump stroke of the additional pump; and a processor in communication with the first pump and the additional pumps, the processor configured to control the pump strokes of the first pump so that the displacement volume and respective volume contributions of the first pump change in time based on a contribution of the first liquid to the flow according to a predetermined composition gradient and configured to control the pump strokes of the additional pumps so that the displacement volume and respective volume contributions of each of the additional pumps change in time based on a contribution of a respective one of the additional liquids to the flow according to the predetermined composition gradient, the processor further configured to control the pump strokes of the first pump and the pump strokes of the additional pumps so that a sum of the volume contribution of the first liquid during a time between consecutive initiations of the first pump strokes plus the volumes of the additional liquids contributed by the additional pumps during the time between the consecutive initiations of the pump strokes of the first pump is constant throughout a duration of the predetermined composition gradient. 7. The pump system of claim 6 wherein the first pump and the at least one additional pump are solvent pumps used to provide solvents to be mixed as components of a mobile phase for liquid chromatography. 8. The pump system of claim 7 further comprising a mixer having a plurality of inlets each in fluidic communication with one of the first pump and the additional pumps, and having an outlet to provide the mobile phase. 9. A computer program product for generating a flow having a composition gradient, comprising: a non-transitory computer readable storage medium having computer readable program code embodied therewith, the computer readable program code comprising: computer readable program code configured to generate a plurality of pump strokes with a first pump, each of the pump strokes of the first pump having an initiation time and providing a volume contribution of a first liquid to a flow according to a displacement volume of the pump stroke, the displacement volume and respective volume contributions of the first pump changing in time based on a contribution of the first liquid to the flow according to a predetermined composition gradient; computer readable program code configured to generate a plurality of pump strokes with at least one additional pump, each of the pump strokes of each of the additional pumps providing a volume contribution of an additional liquid to the flow according to a displacement volume of the pump stroke of the additional pump, the displacement volume and respective volume contributions of each of the additional pumps changing in time based on a contribution of a respective one of the additional liquids to the flow according to the predetermined composition gradient; and computer readable program code configured to control the displacement volumes of the pump strokes of the first pump and the pump strokes of the additional pumps so that a sum of the volume contribution of the first liquid occurring during a time between consecutive initiations of the first pump strokes plus the volumes of the additional liquids contributed by the additional pumps during the time between the consecutive initiations of the pump strokes of the first pump is constant throughout a duration of the predetermined composition gradient.