Optimizing optical systems using code division multiple access and/or orthogonal frequency-division multiplexing

What is claimed is: 1. An optical receiver comprising: an optical port configured to receive an encoded optical signal that is orthogonal frequency-division multiplexing (OFDM) and code division multiple access (CDMA) encoded; and one or more code division multiple access (CDMA) demodulation blocks coupled to the optical port and configured to: receive an encoded electrical signal that is based upon the encoded optical signal, demodulate the encoded electrical signal using a code associated with a CDMA scheme used at a transmitter end to produce a CDMA demodulated signal; and an OFDM demodulation block coupled to the one or more CDMA demodulation blocks and configured to perform OFDM demodulation on the CDMA demodulated signal. 2. The optical receiver of claim 1 , further comprising: one or more analog-to-digital converters (ADCs) coupled between the one or more CDMA demodulation blocks and the OFDM demodulation block, and configured to perform analog-to-digital conversion after the CDMA modulation blocks. 3. The optical receiver of claim 2 , wherein the one or more CDMA demodulation blocks perform a dot multiplication of the encoded electrical signal in analog domain and the code to produce the CDMA demodulated signal in analog domain. 4. The optical receiver of claim 2 , wherein the one or more CDMA demodulation blocks comprise: a first CDMA demodulation block that performs a dot multiplication of a received real analog signal of the encoded electrical signal and the code to produce a received real decoded analog signal of the CDMA demodulated signal; and a second CDMA demodulation block that performs a dot multiplication of a received imaginary analog signal of the encoded electrical signal and the code to produce a received imaginary decoded analog signal of the CDMA demodulated signal. 5. The optical receiver of claim 1 , wherein the OFDM modulation block comprises a fast Fourier transform or frequency domain equalizer (FFT/FEQ) block coupled to the CDMA demodulation block, a condensing block coupled to the FFT/FEQ block, and a de-mapping block coupled to the condensing block; wherein the condensing block removes a conjugate half of a parallel data block produced from the FFT/FEQ block so that the parallel data block is halved. 6. The optical receiver of claim 1 , wherein the one or more CDMA modulation blocks employ a code of length 32 and a chip rate of 10 GHz. 7. The optical receiver of claim 6 , wherein the OFDM modulation block employs an OFDM sampling rate of 312.5 megahertz (MHz). 8. A method for receiving optical signals at an optical receiver, comprising: converting an encoded optical signal into an encoded electrical signal which is orthogonal frequency-division multiplexing (OFDM) and code division multiple access (CDMA) encoded; demodulating the encoded electrical signal using a code associated with a CDMA scheme used at a transmitter end to produce a CDMA demodulated signal; and performing OFDM demodulation on the CDMA demodulated signal. 9. The method of claim 8 , wherein the second encoded electrical signal is an analog signal; and before performing the OFDM demodulation, the method further comprises: performing analog-to-digital conversion to convert the CDMA demodulated signal from analog domain to digital domain. 10. The method of claim 9 , wherein the demodulating the encoded electrical signal using a code associated with a CDMA scheme comprises: performing a dot multiplication of the encoded electrical signal in analog domain and the code to produce the CDMA demodulated signal in analog domain. 11. The method of claim 9 , wherein the encoded electrical signal comprises a received real analog signal and a received imaginary analog signal; and the demodulating the encoded electrical signal using a code comprises: performing a dot multiplication of the received real analog signal and the code to produce a received real decoded analog signal of the CDMA demodulated signal; and performing a dot multiplication of the received imaginary analog signal and the code to produce a received imaginary decoded analog signal of the CDMA demodulated signal. 12. An optical communication system comprising: an optical transmitter that transmits an encoded optical signal which is orthogonal frequency-division multiplexing (OFDM) and code division multiple access (CDMA) encoded; an optical receiver that receives the encoded optical signal via an optical port; wherein the optical receiver comprises: one or more code division multiple access (CDMA) demodulation blocks coupled to the optical port and configured to: receive an encoded electrical signal that is based upon the encoded optical signal, demodulate the encoded electrical signal using a code associated with a CDMA scheme used at a transmitter end to produce a CDMA demodulated signal; and an OFDM demodulation block coupled to the one or more CDMA demodulation blocks and configured to perform OFDM demodulation on the CDMA demodulated signal. 13. The optical communication system of claim 12 , further comprising: one or more analog-to-digital converters (ADCs) coupled between the CDMA demodulation blocks and the OFDM demodulation block, and configured to perform analog-to-digital conversion after the CDMA modulation blocks. 14. The optical communication system of claim 13 , wherein the one or more CDMA demodulation blocks perform a dot multiplication of the encoded electrical signal in analog domain and the code to produce the CDMA demodulated signal in analog domain. 15. The optical communication system of claim 13 , wherein the one or more CDMA demodulation blocks comprise: a first CDMA demodulation block that performs a dot multiplication of a received real analog signal of the encoded electrical signal and the code to produce a received real decoded analog signal of the CDMA demodulated signal; and a second CDMA demodulation block that performs a dot multiplication of a received imaginary analog signal of the encoded electrical signal and the code to produce a received imaginary decoded analog signal of the CDMA demodulated signal. 16. The optical communication system of claim 12 , wherein the OFDM modulation block comprises a fast Fourier transform or frequency domain equalizer (FFT/FEQ) block coupled to the CDMA demodulation block, a condensing block coupled to the FFT/FEQ block, and a de-mapping block coupled to the condensing block; wherein the condensing block removes a conjugate half of a parallel data block produced from the FFT/FEQ block so that the parallel data block is halved. 17. The optical communication system of claim 12 , wherein the one or more CDMA modulation blocks employ a code of length 32 and a chip rate of 10 GHz. 18. The optical communication system of claim 17 , wherein the OFDM modulation block employs an OFDM sampling rate of 312.5 megahertz (MHz).