Method of controlling semiconductor optical amplifier and optical amplifying apparatus

What is claimed is: 1. A method of controlling an optical amplifying apparatus that receives an optical signal having four or more physical levels following a pulse amplitude modulation (PAM) mode, the optical amplifying apparatus including a variable optical attenuator (VOA) and a semiconductor optical amplifier (SOA), the method comprising steps of: generating an attenuated optical signal by attenuating the optical signal entering the optical amplifying apparatus such that the attenuated optical signal in maximum power of one of the physical levels thereof becomes a preset level by which the SOA is linearly operable; and amplifying the attenuated optical signal by the SOA with an optical gain, wherein the step of generating the attenuated optical signal includes steps of: detecting average power of the attenuated optical signal; and estimating the maximum power from the detected average power and a designed average power specified in the PAM mode. 2. The method according to claim 1 , wherein the step of amplifying the attenuated optical signal is carried out by a fixed optical gain in the SOA. 3. The method according to claim 1 , wherein the step of amplifying the attenuated optical signal includes steps of: detecting an amplified optical signal output from the SOA; and deciding the optical gain in the SOA such that the amplified optical signal shows preset average power. 4. A method of controlling an optical amplifying apparatus that receives an optical signal having four or more physical levels following a pulse amplitude modulation (PAM) mode, the optical amplifying apparatus including a variable optical attenuator (VOA) and a semiconductor optical amplifier (SOA), the method comprising steps of: generating an attenuated optical signal by attenuating the optical signal entering the optical amplifying apparatus such that the attenuated optical signal in maximum power of one of the physical levels thereof becomes a preset level by which the SOA is linearly operable; and amplifying the attenuated optical signal by the SOA with an optical gain, wherein the step of generating the attenuated optical signal includes steps of: detecting average power of the optical signal entering the optical amplifying apparatus; and estimating the maximum power from the detected average power and a designed average power specified in the PAM mode. 5. The method according to claim 4 , wherein the step of amplifying the attenuated optical signal is carried out by a fixed optical gain in the SOA. 6. The method of according to claim 4 , wherein the step of amplifying the attenuated optical signal includes steps of: detecting an amplified optical signal output from the SOA; and deciding the optical gain in the SOA such that the amplified optical signal shows preset average power. 7. A method of controlling an optical amplifying apparatus that receives an optical signal having four or more physical levels following a pulse amplitude modulation (PAM) mode, the optical amplifying apparatus including a variable optical attenuator (VOA) and a semiconductor optical amplifier (SOA), the method comprising steps of: generating an attenuated optical signal by attenuating the optical signal entering the optical amplifying apparatus such that the attenuated optical signal in maximum power of one of the physical levels thereof becomes a preset level by which the SOA is linearly operable; and amplifying the attenuated optical signal by the SOA with an optical gain, wherein the step of amplifying the attenuated optical signal includes steps of: detecting an amplified optical signal output from the SOA; and deciding the optical gain in the SOA such that the amplified optical signal shows preset average power.