Near-threshold optical transmitter pre-distortion

The invention claimed is: 1. A method for low-power transmission, comprising: biasing an emitter in a non-linear operating range of the emitter near a threshold current of the emitter; distorting a data signal to add a precursor pulse to a rising edge of a data waveform to quickly bring the emitter into a linear operating range by applying the precursor pulse having an amplitude that is responsive to preceding bits, said amplitude being higher if there are multiple preceding zeroes than if there is only one preceding zero; and transmitting the distorted data signal at the emitter. 2. The method of claim 1 , wherein the emitter comprises a semiconductor laser. 3. The method of claim 2 , wherein biasing the emitter comprises applying a biasing voltage or current below the threshold current of the semiconductor laser. 4. The method of claim 2 , wherein the semiconductor laser comprises a vertical-cavity surface-emitting laser. 5. The method of claim 1 , further comprising delaying a copy of the data signal and applying the delayed copy to the distorted data signal. 6. The method of claim 1 , wherein distorting the data signal comprises obtaining a pre-cursor pulse sequence that corresponds to a bit sequence carried by the data signal from a lookup table. 7. The method of claim 6 , wherein distorting the data signal comprises obtaining the pre-cursor pulse sequence for a plurality of bits in parallel using a single lookup table read operation. 8. A non-transitory computer readable storage medium comprising a computer readable program, wherein the computer readable program when executed on a computer causes the computer to perform the steps of claim 1 . 9. The method of claim 1 , further comprising counting consecutive identical data bits in the data signal. 10. The method of claim 1 , further comprising monitoring the data signal to dynamically adjust the distortion for power conservation. 11. A transmitter, comprising: an emitter having a threshold current, configured to transmit a pre-distorted data signal, wherein the emitter is biased in a non-linear operating range near the threshold current; and a pre-distortion equalization controller configured to distort a data signal to add a precursor pulse to a rising edge of a data waveform to quickly bring the emitter into a linear operating range with the precursor pulse having an amplitude that is responsive to preceding bits, said amplitude being higher if there are multiple preceding zeroes than if there is only one preceding zero. 12. The transmitter of claim 11 , wherein the emitter comprises a semiconductor laser. 13. The transmitter of claim 12 , wherein the pre-distortion equalization controller is configured to apply a biasing voltage or current below the threshold current of the semiconductor laser. 14. The transmitter of claim 12 , wherein the semiconductor laser comprises a vertical-cavity surface-emitting laser. 15. The transmitter of claim 11 , wherein the pre-distortion equalization controller is configured to delay a copy of the data signal and applying the delayed copy to the distorted data signal. 16. The transmitter of claim 11 , wherein the pre-distortion equalization controller comprises a lookup table configured to provide a pre-cursor pulse sequence that corresponds to a bit sequence carried by the data signal. 17. The transmitter of claim 16 , wherein the pre-distortion equalization controller is configured to obtain the pre-cursor pulse sequence for a plurality of bits in parallel using a single lookup table read operation. 18. The method of claim 11 , further comprising counting consecutive identical data bits in the pre-distorted data signal. 19. The method of claim 11 , further comprising monitoring the data signal to dynamically adjust the distortion for power conservation. 20. A method for low-power transmission, comprising: biasing an emitter in a non-linear operating range of the emitter near a threshold current of the emitter; distorting a data signal to add a precursor pulse to a rising edge of a data waveform to quickly bring the emitter into a linear operating range by obtaining a pre-cursor pulse sequence that corresponds to a bit sequence carried by the data signal from a lookup table, said lookup table including values for taps and delays of an equalizer and a main buffer; and transmitting the distorted data signal at the emitter.