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A method of computing a correlation between a pseudorandom reference code and a satellite signal is provided. The method comprises receiving a satellite signal having a repeating code modulated thereon, wherein the satellite signal comprises a pseudorange; correlating the satellite signal with less

A method of computing a correlation between a pseudorandom reference code and a satellite signal is provided. The method comprises receiving a satellite signal having a repeating code modulated thereon, wherein the satellite signal comprises a pseudorange; correlating the satellite signal with less than an entire length of the pseudorandom reference code with a portion of the satellite signal to produce a correlation over a period less than a period of the repeating code; and processing the correlation to form values representative of magnitude or power of the correlation to produce an energy signal.

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1. A method of computing a correlation between a pseudorandom reference code and a satellite signal, the method comprising: (a) receiving a satellite signal having a repeating code modulated thereon;(b) correlating less than an entire length of a pseudorandom reference code with a portion of the sat

1. A method of computing a correlation between a pseudorandom reference code and a satellite signal, the method comprising: (a) receiving a satellite signal having a repeating code modulated thereon;(b) correlating less than an entire length of a pseudorandom reference code with a portion of the satellite signal to produce a partial correlation; and(c) forming values representative of a magnitude or a power of the partial correlation produced by correlating less than an entire length of the pseudorandom reference code with the portion of the satellite signal to produce an energy signal, wherein the magnitude is the square root of the sum of squared in-phase and quadrature partial correlations;(d) repeating steps (b) and (c) to produce a plurality of energy signals; and(e) summing the plurality of energy signals as each energy signal is produced. 2. The method of claim 1, further comprising: generating the code segments from a lookup table by selecting one of a fixed number of non-overlapping segments of less than the entire length of the pseudorandom code. 3. The method of claim 1, wherein the repeating code is a C/A code of a global positioning system. 4. The method of claim 3, wherein step e comprises: multiplying each sample in the portion of the C/A code with a respective chip of the selected code segment; andsumming each multiplication result with other multiplication results to produce the inner product. 5. The method of claim 1, wherein the period of the repeating code is 1 millisecond. 6. The method of claim 1, further comprising: dividing the satellite signal into in-phase and quadrature components;and separately performing step (b) on the in-phase and quadrature components. 7. Apparatus for computing a correlation between a pseudorandom reference code and a satellite signal comprising: a satellite signal receiver for receiving a satellite signal having a repeating code modulated thereon;a correlator for correlating less than an entire length of a pseudorandom reference code with a portion of the satellite signal to produce a partial correlation; anda circuit for forming values representative of a magnitude or a power of the partial correlation produced by correlating less than the entire length of the pseudorandom reference code with the portion of the satellite signal, wherein the magnitude is the square root of the sum of squared in-phase and quadrature partial correlations;wherein the utilization of the correlator to produce a plurality of energy signals is repeated; anda summer for summing the plurality of energy signals as each energy signal is produced. 8. The apparatus of claim 7 wherein the code generator further comprises: a lookup table for storing and selecting one of a fixed number of non-overlapping segments of less than the entire length of the pseudorandom code. 9. The apparatus of claim 7, wherein the repeating code is a C/A code of a global positioning system. 10. The apparatus of claim 9 the vector multiplier comprises: a multiplier for multiplying each sample in the portion of the C/A code with a respective chip of the selected code segment;and a summer for summing each multiplication result with other multiplication results to produce the inner product. 11. The apparatus of claim 7, wherein the period of the repeating code is 1 millisecond. 12. An apparatus, said apparatus comprising: a circuit, said circuit comprising:(a) a satellite signal receiver for receiving a satellite signal having a repeating code modulated thereon;(b) a correlator for correlating less than an entire length of a pseudorandom reference code with a portion of the satellite signal to produce a partial correlation; andwherein the circuit is operable to: (c) for values representative of a magnitude or a power of the partial correlation produced by correlating less than an entire length of the pseudorandom reference code with the portion of the satellite signal to produce an energy signal, wherein the magnitude is the square root of the sum of squared in-phase and quadrature partial correlations;(d) cause repetition of correlating less than en entire length of a pseudorandom reference code with a portion of the satellite signal to produce a partial correlation and (c) to produce a plurality of energy signals; and(e) sum the plurality of energy signals as each energy signal is produced. 13. The apparatus of claim 12, wherein the circuit is operable to select based on a lookup table, one of a fixed number of non-overlapping segments of less than the entire length of the pseudorandom code. 14. The apparatus of claim 12, wherein the repeating code is a C/A code of a global positioning system. 15. The apparatus of claim 14, wherein the circuit is operable to: multiply each sample in the portion of the C/A code with a respective chip of the selected code segment; andsum each multiplication result with other multiplication results to produce the inner product. 16. The apparatus of claim 12, wherein the period of the repeating code is 1 millisecond. 17. The apparatus of claim 12, wherein: the circuit is operable to divide the satellite signal into in-phase and quadrature components; andthe correlator performs the correlating on the in-phase and quadrature components. 18. The method of claim 1, wherein less than the entire length of a pseudorandom code is ¼or less of the pseudorandom code. 19. The method of claim 18, wherein less than the entire length of a pseudorandom code is 1/16or less of the pseudorandom code. 20. The apparatus of claim 7, wherein less than the entire length of a pseudorandom code is ¼or less of the pseudorandom code. 21. apparatus of claim 20, wherein less than the entire length of a pseudorandom code is 1/16or less of the pseudorandom code.