Synchronization of supply flow paths

The invention claimed is: 1. A solvent supply system for supplying a composite solvent, the solvent supply system comprising: a mixing unit comprising an outlet; a first supply flow path with a first pump unit, the first supply flow path configured for supplying a flow of a first solvent to the mixing unit, the first pump unit operating periodically a second supply flow path with a second pump unit, the second supply flow path configured for supplying a flow of a second solvent to the mixing unit, the second pump unit operating periodically the mixing unit configured for mixing the first solvent and the second solvent and for supplying a composite solvent at the outlet, the composite solvent having a solvent composition comprising the first solvent and the second solvent and a control unit configured for controlling operations of the first pump unit and the second pump unit, including controlling a frequency ratio of a first frequency of the first pump unit and a second frequency of the second pump unit, the first frequency and the second frequency comprising different frequencies, wherein the frequency ratio is a ratio of integer numbers, such that heterodyne beats caused by an interference of the first frequency and the second frequency, and fluctuations in the solvent composition at the outlet, are avoided. 2. The solvent supply system of claim 1 , wherein a relative phase is determined empirically. 3. The solvent supply system of claim 1 , wherein: each of the first and the second pump unit comprises at least one piston pump; and the control unit is adapted to shorten or extend a piston stroke of at least one of the first pump unit and the second pump unit. 4. The solvent supply system of claim 1 , wherein the first pump unit and the second pump unit are dual-piston type pumps, each comprising two piston pumps, wherein the two piston pumps are either: operating in parallel; or fluidically connected in series. 5. The solvent supply system of claim 1 , wherein the control unit is further adapted for varying a flow rate of at least one of the first pump unit and the second pump unit by continuously varying a stroke volume of at least one of the first pump unit and the second pump unit. 6. The solvent supply system of claim 1 , wherein: the first pump unit is driven by a first drive; the second pump unit is driven by a second drive; and the control unit is adapted for synchronizing respective periodic operations of the first and second pump units by controlling at least one of the first drive and the second drive. 7. A separation system comprising: a solvent supply system according to claim 1 , the solvent supply system being adapted for supplying a composite solvent; and a separation device adapted for separating compounds of a fluid sample, said fluid sample being introduced to the composite solvent supplied by the solvent supply system. 8. A method for supplying a composite solvent, the method comprising: supplying a first solvent to a mixing unit via a first supply path, the first supply path comprising a first pump unit operating periodically supplying a second solvent to the mixing unit via a second supply path, the second supply path comprising a second pump unit operating periodically mixing the first solvent supplied from the first supply path and the second solvent supplied from the second supply path in the mixing unit to produce a composite solvent having a solvent composition comprising the first solvent and the second solvent at an outlet of the mixing unit, and controlling operation of the first pump unit and the second pump unit, wherein controlling comprises: controlling a frequency ratio of a first frequency of the first pump unit and a second frequency of the second pump unit, the first frequency and the second frequency comprising different frequencies, wherein the frequency ratio is a ratio of integer numbers, such that heterodyne beats caused by an interference of the first frequency and the second frequency, and fluctuations in the solvent composition at the outlet, are avoided. 9. The method according to claim 8 , comprising adjusting a phase of the first pump unit and the phase of the second pump unit relative to one another in accordance with a predetermined parameter range. 10. The solvent supply system of claim 1 , comprising controlling a frequency ratio of a first frequency of operation of the first pump to a second frequency of operation of the second pump in accordance with a predetermined parameter range. 11. The solvent supply system of claim 10 , wherein the control unit is further adapted for at least one of: keeping the first frequency and the second frequency constant over predefined intervals of the flow rate; discontinuously varying at least one of the first frequency and the second frequency in frequency steps, wherein for predefined intervals of the rate, at least one of the first frequency and the second frequency is kept constant; and changing at least one of the first frequency and the second frequency by a frequency step when the stroke volume meets a predetermined threshold. 12. The method according to claim 10 , comprising controlling the frequency ratio such that the frequency ratio is equal to a ratio of integer numbers greater than 1. 13. The method according to claim 8 , comprising controlling a frequency ratio of a first frequency of operation of the first pump to a second frequency of operation of the second pump such that the frequency ratio is in accordance with a predetermined parameter range. 14. A solvent supply system for supplying a composite solvent, the solvent supply system comprising: a mixing unit comprising an outlet; a first supply flow path with a first pump unit, the first supply flow path configured for supplying a flow of a first solvent to the mixing unit, the first pump unit operating periodically a second supply flow path with a second pump unit, the second supply flow path configured for supplying a flow of a second solvent to the mixing unit, the second pump unit operating periodically the mixing unit configured for mixing the first solvent and the second solvent and for supplying a composite solvent at the outlet, the composite solvent having a solvent composition comprising the first solvent and the second solvent, and a control unit configured for controlling operation of the first pump unit and the second pump unit, including controlling a frequency ratio of a first frequency of the first pump unit and a second frequency of the second pump unit, the first frequency and the second frequency comprising different frequencies, wherein the frequency ratio is a ratio of integer numbers, such that least one of fluctuations in the solvent composition and pressure peaks in the outlet of the mixing unit are avoided. 15. The solvent supply system of claim 14 , wherein a phase relations are determined empirically. 16. The solvent supply system of claim 14 , wherein adjusting a phase of the first pump unit and a phase of the second pump unit relative to one another is done in accordance with a predetermined parameter range. 17. The solvent supply system of claim 14 , wherein: each of the first pump unit and the second pump unit comprises at least one piston pump; and the control unit is adapted to shorten or extend a piston stroke of at least one of the first pump unit and the second pump unit for adjusting the phase of the first pump unit and the phase of the second pump unit relative to one another. 18. The solvent supply system of claim 14 , wherein the c