Parallel optical transmitter

What is claimed is: 1 . A parallel optical transmitter, comprising: a dual-facet continuous-wave laser having a first facet output and a second facet output; a first optical splitter having an input coupled to the first facet output; a second optical splitter having an input coupled to the second facet output; a first optical modulator having an electrical input and having an optical input coupled to a first output of the first optical splitter; a second optical modulator having an electrical input and having an optical input coupled to a second output of the first optical splitter; a third optical modulator having an electrical input and having an optical input coupled to a first output of the second optical splitter; and a fourth optical modulator having an electrical input and having an optical input coupled to a second output of the second optical splitter. 2 . The parallel optical transmitter of claim 1 , wherein the laser, first optical splitter, second optical splitter, and the first through fourth optical modulators are integrated on a monolithic semiconductor substrate and interconnected by optical waveguides on the substrate. 3 . The parallel optical transmitter of claim 1 , wherein the laser is substantially balanced. 4 . The parallel optical transmitter of claim 1 , wherein each of the first and second optical splitters has a splitting ratio of 1-to-2. 5 . The parallel optical transmitter of claim 1 , wherein each of the first and second optical splitters comprises a multimode interference coupler. 6 . The parallel optical transmitter of claim 1 , wherein each of the first through fourth optical modulators comprises an electro-absorption modulator. 7 . The parallel optical transmitter of claim 1 , wherein each of the first through fourth optical modulators comprises a Mach-Zehnder modulator. 8 . The parallel optical transmitter of claim 1 , further comprising: a third optical splitter having an input coupled to a first output of the first optical splitter; a fourth optical splitter having an input coupled to a second output of the first optical splitter; a fifth optical splitter having an input coupled to a first output of the second optical splitter; a sixth optical splitter having an input coupled to a second output of the second optical splitter; a fifth optical modulator having an electrical input and having an optical input coupled to a second output of the third optical splitter; a sixth optical modulator having an electrical input and having an optical input coupled to a second output of the fourth optical splitter; a seventh optical modulator having an electrical input and having an optical input coupled to a second output of the fifth optical splitter; and an eighth optical modulator having an electrical input and having an optical input coupled to a second output of the sixth optical splitter; wherein the optical input of the first optical modulator is coupled to a first output of the third optical splitter, the optical input of the second optical modulator is coupled to a first output of the fourth optical splitter, the optical input of the third optical modulator is coupled to a first output of the fifth optical splitter, and the optical input of the fourth optical modulator is coupled to a first output of the sixth optical splitter. 9 . The parallel optical transmitter of claim 8 , wherein the laser, the first through fourth optical splitters, and the first through eighth optical modulators are integrated on a monolithic semiconductor substrate and interconnected by optical waveguides on the substrate. 10 . The parallel optical transmitter of claim 8 , wherein the laser is substantially balanced. 11 . The parallel optical transmitter of claim 8 , wherein each of the first through sixth optical splitters has a splitting ratio of 1-to-2. 12 . The parallel optical transmitter of claim 8 , wherein each of the first through eighth optical modulators is an electro-absorption modulator. 13 . The parallel optical transmitter of claim 8 , wherein each of the first through eighth optical modulators is a Mach-Zehnder modulator. 14 . A parallel optical transmitter having N channels, where N is a power of two greater than or equal to four, the parallel optical transmitter comprising: a dual-facet continuous-wave laser having a first facet output and a second facet output; N−2 optical splitters arranged in a binary tree configuration, each optical splitter having no more than one optical input and no more than two optical outputs and having a splitting ratio of 1-to-2, a first one of the N−2 optical splitters having an input coupled to the first facet output, a second one of the N−2 optical splitters having an input coupled to the second facet output; and N optical modulators, each optical modulator having an electrical input and having an optical input coupled to no more than one optical output of no more than one of the N−2 optical splitters. 15 . The parallel optical transmitter of claim 14 , wherein the laser, the N optical modulators, and the N−2 optical splitters are integrated on a monolithic semiconductor substrate and interconnected by optical waveguides on the substrate. 16 . The parallel optical transmitter of claim 14 , wherein the laser is substantially balanced. 17 . The parallel optical transmitter of claim 14 , wherein each of the N optical modulators is an electro-absorption modulator. 18 . The parallel optical transmitter of claim 14 , wherein each of the N optical modulators is a Mach-Zehnder modulator. 19 . A parallel optical transmitter having N channels, comprising: a dual-facet continuous-wave laser having a first facet output and a second facet output; a first optical splitter having an input coupled to the first facet output and having a splitting ratio of 1-to-N/2; a second optical splitter having an input coupled to the second facet output and having a splitting ratio of 1-to-N/2; a first group of exactly N/2 optical modulators, each having an electrical input and having an optical input coupled to one of N/2 outputs of the first optical splitter; and a second group of exactly N/2 optical modulators, each having an electrical input and having an optical input coupled to one of N/2 outputs of the second optical splitter. 20 . The parallel optical transmitter of claim 19 , wherein the laser is substantially balanced and wherein the laser, the first and second groups of optical modulators, and the first and second optical splitters are integrated on a monolithic semiconductor substrate and interconnected by optical waveguides on the substrate.