Liquid discharge apparatus and liquid discharge head

What is claimed is: 1. A liquid discharge apparatus, comprising: a liquid discharge head comprising: a substrate; a plurality of pressure chambers two-dimensionally provided on a first surface side of the substrate; a discharge port, a pressure generating unit configured to discharge liquid through the discharge port, and a flow path connected to the pressure chamber, which are provided correspondingly to each of the plurality of pressure chambers; a common liquid chamber provided on a second surface side of the substrate; and a plurality of supply paths provided between adjacent ones of the plurality of pressure chambers and connected to the common liquid chamber; a moving unit configured to relatively move the liquid discharge head and a recording object; and a driving unit configured to drive the pressure generating units, wherein flow paths respectively corresponding to the plurality of pressure chambers adjacent to the supply paths are connected to the supply paths, wherein the driving unit outputs drive signals to the pressure generating units respectively corresponding to the plurality of pressure chambers connected to the supply paths at different timings, wherein the pressure chambers having the flow paths connected to one of the supply paths are provided at vertices of a quadrangle having a center corresponding to a center of the one of the supply paths, wherein, when a plane in which a plurality of discharge ports corresponding to the plurality of pressure chambers are provided is taken as an X-Y plane, and a direction in which the liquid discharge head and the recording object are relatively moved is taken as a Y direction, a flow path corresponding to each of an even number of pressure chambers that sandwich the supply path in an X direction is connected to the supply path, and wherein the driving unit drives, alternately in the X direction, pressure generating units respectively corresponding to the even number of pressure chambers connected to the supply path. 2. A liquid discharge apparatus according to claim 1 , wherein the common liquid chamber comprises a first common liquid chamber and a second common liquid chamber, wherein the plurality of supply paths comprise a first supply path connected to the first common liquid chamber and a second supply path connected to the second common liquid chamber, wherein the liquid discharge head further comprises a first flow path connected to the first supply path and a second flow path connected to the second supply path, which are provided correspondingly to each of the plurality of pressure chambers, wherein the pressure chambers having the first flow path connected to the first supply path are provided at vertices of a quadrangle having a center corresponding to a center of the first supply path, wherein the pressure chambers having the second flow path connected to the second supply path are provided at vertices of a quadrangle having a center corresponding to a center of the second supply path, wherein a pressure chamber connected to other pressure chambers via the first supply path is different from a pressure chamber connected to other pressure chambers via the second supply path, and wherein the driving unit outputs drive signals to pressure generating units respectively corresponding to the plurality of pressure chambers connected to the first supply path at different timings, and outputs drive signals to pressure generating units respectively corresponding to the plurality of pressure chambers connected to the second supply path at different timings. 3. A liquid discharge apparatus according to claim 1 , wherein, when A is a constant, n and m are integers, and one of the plurality of the discharge ports is taken as an origin point, positions of the plurality of the discharge ports in the X direction are each defined as approximately An, and positions of the plurality of the discharge ports in the Y direction are each defined as approximately A(m+b), where 0≦b<1, wherein values of b defining the positions of the discharge ports corresponding to the plurality of pressure chambers connected to one of the plurality of supply paths are different from one another, and wherein, when v is a relative moving speed of the recording object, Δb is a difference between the discharge ports, the values of b defining positions in the Y direction of the discharge ports respectively corresponding to the plurality of pressure chambers connected to one of the plurality of supply paths, and Δt is a timing difference of outputting the drive signals to the pressure generating units respectively corresponding to the plurality of pressure chambers, Δt is approximately defined as Δt=A×Δb/v. 4. A liquid discharge apparatus according to claim 1 , wherein flow paths respectively corresponding to p pressure chambers adjacent to the supply paths are connected to the supply paths, wherein the driving unit has at least p kinds of output timings of drive signals in one discharge cycle, and outputs drive signals to the pressure generating units respectively corresponding to the plurality of pressure chambers connected to the supply paths at different timings, and wherein the driving unit outputs, at different timings, drive signals to the pressure generating units corresponding to at least p discharge ports that are arranged in succession when projected onto an X axis. 5. A liquid discharge apparatus according to claim 4 , wherein, when A is a constant, n and m are integers, and one of the discharge ports is taken as an origin point, positions of the plurality of the discharge ports in the X direction are each defined as approximately An, and positions of the plurality of the discharge ports in the Y direction are each defined as approximately A(m+b), where 0≦b<1, wherein values of b defining the positions in the Y direction of the discharge ports respectively corresponding to the p pressure chambers connected to the supply paths are different from one another, and wherein, when v is a relative moving speed of the recording object, Δb is a difference in the values of b between the discharge ports for the discharge ports respectively corresponding to the plurality of pressure chambers connected to the supply paths, and Δt is a timing difference of outputting the drive signals to the pressure generating units respectively corresponding to the plurality of pressure chambers, Δt is approximately defined as Δt=A×Δb/v. 6. A liquid discharge apparatus according to claim 1 , wherein the common liquid chamber comprises a first common liquid chamber and a second common liquid chamber, wherein the plurality of supply paths comprise a first supply path connected to the first common liquid chamber and a second supply path connected to the second common liquid chamber, wherein the liquid discharge head further comprises a first flow path connected to the first supply path and a second flow path connected to the second supply path, which are provided correspondingly to each of the plurality of pressure chambers, wherein first flow paths respectively corresponding to p pressure chambers adjacent to the first supply path are connected to the first supply path, wherein second flow paths respectively corresponding to q pressure chambers adjacent to the second supply path are connected to the second supply path, wherein, when r is a value of a smaller one of p and q, the driving unit has at least r kinds of output timings of drive signals in one discharge cycle, and outputs the drive signals to the pressure generating units respectively corresponding to the plurality of pressure chambers connected to the supply paths at least r kinds of timings, and wherein the driving unit outputs, at different timings, drive signals to the pressure generating