Optical module and optical modulator

What is claimed is: 1. An optical module comprising: a driver that is provided on a board and generates an electrical signal according to a data signal; and an optical modulator that is connected to an optical fiber and provided on the board and that modulates light emitted from the optical fiber using the electrical signal generated by the driver, wherein the optical modulator is connected to the optical fiber disposed in parallel with the board; and the optical module has a cut-out portion that is formed by cutting out part of an outer shape of the optical module and that accommodates the driver so that the driver overlaps the optical fiber disposed in parallel with the board when viewed from a direction perpendicular to the board and the driver is connected to an input interface which is, on the board, formed at a position close to the optical fiber and inputs the data signal into the driver, wherein the optical modulator includes: an optical waveguide that propagates the light emitted from the optical fiber; a first electrode that is formed along the optical waveguide and to which an electrical signal generated by the driver is input; and a second electrode that is formed along the optical waveguide and to which another electrical signal different from the electrical signal is input, wherein the second electrode is formed at a location, along the optical waveguide, closer to the driver accommodated in the cut-out portion than the first electrode. 2. The optical module according to claim 1 , wherein the electrical signal is a radio frequency (RF) signal, and the another electrical signal is a direct current (DC) signal. 3. The optical module according to claim 1 , further comprising: a wiring pattern that is connected to the driver and provided on the board and that transmits an electrical signal generated by the driver to the optical modulator, wherein the cut-out portion of the optical modulator accommodates the driver and the wiring pattern. 4. An optical modulator that is connected to an optical fiber disposed in parallel with a board and that is provided on the board and that modulates light emitted from the optical fiber using an electrical signal, comprising: a cut-out portion that is formed by cutting out part of an outer shape of the optical module and that accommodates a driver so that the driver for generating the electrical signal according to a data signal overlaps the optical fiber disposed in parallel with the board when viewed from a direction perpendicular to the board and the driver is connected to an input interface which is, on the board, formed at a position close to the optical fiber and inputs the data signal into the driver; an optical waveguide that propagates the light emitted from the optical fiber; a first electrode that is formed along the optical waveguide and to which an electrical signal generated by the driver is input; and a second electrode that is formed along the optical waveguide and to which another electrical signal different from the electrical signal is input, wherein the second electrode is formed at a location, along the optical waveguide, closer to the driver accommodated in the cut-out portion than the first electrode. 5. The optical modulator according to claim 4 , wherein the electrical signal is a radio frequency (RF) signal, and the another electrical signal is a direct current (DC) signal.