Electric off-axis opposing piston linear actuator pumping system

What is claimed is: 1. A pumping unit comprising: a housing defining a central cavity and a plurality of bores radially around the central cavity; a shaft extending through the central cavity; a linear actuator within the central cavity configured to translate the shaft; a first set of pistons extending from a first subset of the bores and linked to a first end of the shaft; and a second set of pistons extending from a second subset of the bores and linked to a second end of the shaft, the second end of the shaft on an opposite side of the housing from the first end of the shaft. 2. The pumping unit of claim 1 further comprising a plurality of valve units, each valve unit fixed the housing at an end of a bore opposite a corresponding piston. 3. The pumping unit of claim 1 wherein: the first set of pistons is linked to the first end of the shaft by a first arm; and the second set of pistons is linked to the second end of the shaft by a second arm. 4. The pumping unit of claim 3 further comprising: a first bellows extending between the housing and the first arm, surrounding the shaft; and a second bellows extending between the housing and the second arm, surrounding the shaft, the first and second bellows sealing the central cavity. 5. The pumping unit of claim 1 wherein the housing is machined as a single unit. 6. A pumping system comprising: a plurality of pumping units according to claim 1 ; and a controller configured to vary a flow rate of each of the pumping units such that a total flow rate is substantially constant. 7. The pumping system of claim 6 wherein the flow rate of each pumping unit includes a series of alternating increasing phases and decreasing phases, each increasing phase coordinated with a decreasing phase of another of the pumping units, each decreasing phase coordinated with an increasing phase of another of the pumping units. 8. The pumping system of claim 7 wherein each decreasing phase is separated from a previous increasing phase by a constant flow phase.