Excitation light distribution device, excitation light distribution method, optical amplification system and node device

What is claimed is: 1. An excitation light distribution device comprising: an excitation light source output unit that outputs excitation light; an optical branching unit with variable branching ratio that branches and outputs said excitation light; and a control unit that controls, on the basis of information on an optical signal to be amplified by the excitation light outputted by said optical branching unit, at least either the branching ratio of said optical branching unit or the optical output power of said excitation light source output unit. 2. The excitation light distribution device according to claim 1 , wherein said control unit controls at least either the branching ratio of said optical branching unit or the optical output power of said excitation light source output unit, on the basis of information on the number of optical signals to be amplified by the excitation light outputted by said optical branching unit and on optical paths on which said optical signals are transmitted. 3. The excitation light distribution device according to claim 1 , wherein: said optical branching unit comprises an excitation light monitoring unit that monitors the power of said excitation light outputted from said optical branching unit and that outputs an excitation light monitoring signal corresponding to the intensity of said excitation light; and, on the basis of said excitation light monitoring signal, said control unit controls the power of said excitation light outputted by said excitation light source output unit and the branching ratio of said optical branching unit. 4. An optical amplification system comprising: the excitation light distribution device according to claim 1 ; and an amplification unit that amplifies and outputs said optical signal by inputting an optical signal and excitation light outputted from said excitation light distribution device. 5. The optical amplification system according to claim 4 , wherein said amplification unit is disposed on each optical path transmitting said optical signal. 6. The optical amplification system according to claim 4 , further comprising: an optical attenuation unit that attenuates the intensity of said excitation light inputted to said amplification unit; and a gain block control unit that controls the attenuation amount of said optical attenuation unit. 7. The optical amplification system according to claim 6 , further comprising: an optical signal monitoring unit that monitors the intensity of said optical signal in output of said amplification unit and that outputs an optical monitoring signal corresponding to the intensity of said optical signal, wherein said gain block control unit controls the attenuation amount of said optical attenuation unit on the basis of said optical monitoring signal. 8. A node device comprising: the optical amplification system according to claim 4 which amplifies an inputted optical signal; and a transponder accommodation unit that separates said optical signal amplified by said optical amplification system at each wavelength and that outputs the separated signals onto respective predetermined optical paths. 9. A node device comprising: a transponder accommodation unit that combines optical signals outputted from an optical transmission unit into a wavelength-multiplexed signal and for outputting said optical signals to a predetermined optical path; and the optical amplification system according to claim 4 which amplifies said optical signal outputted to said predetermined optical path. 10. An excitation light distribution method which comprises: branching and outputting excitation light; and, on the basis of information on an optical signal to be amplified by said branched and outputted excitation light, controlling at least either the branching ratio of said excitation light or the optical output power of said excitation light.