Universal multi-channel gnss signal receiver

What is claimed is: 1 . A universal multi-channel receiver comprising: an antenna for receiving a signal; a plurality of universal channels having request generating modules (RGMs) operating at a channel frequency and generating memory codes; a processor for controlling the plurality of universal channels and the RGMs; a plurality of RF tracts connected to the antenna, the RF tracts providing the signal to the universal channels; and a shared memory coupled to the processor and accessible by the universal channels for storing memory code sequences of a GNSS signal; wherein: the RGMs retrieve the code sequences from the shared memory at a pre-set number of memory cycles; wherein the RGMs access the shared memory through a common response generating module; the code sequence from the RGMs are multiplied by the RF tract signal and its carrier frequency; and a resulting code sequence is accumulated over a time period controlled by the processor. 2 . The multi-channel receiver of claim 1 , further comprising a FIFO connected to the processor, wherein the processor writes new memory codes into the shared memory via the FIFO. 3 . The multi-channel receiver of claim 1 , wherein a new memory code sequence with its own frequency is generated by multiplying the memory code by a signal generated by an additional code generator. 4 . The multi-channel receiver of claim 3 , wherein the new memory code sequence is stored in the shared memory and is provided to the universal channels via the RGMs and the common response generating module. 5 . The multi-channel receiver of claim 1 , wherein the RGMs include remainder registers for storing remainders of the memory codes. 6 . The multi-channel receiver of claim 5 , wherein the RGMs provide, to the universal channels, the memory codes retrieved from the shared memory and from the remainder registers. 7 . The multi-channel receiver of claim 1 , wherein the memory code is divided into words. 8 . The multi-channel receiver of claim 1 , wherein a memory codes location map is stored in the shared memory and modified by the processor. 9 . The multi-channel receiver of claim 1 , wherein the signal received by the antenna is a pseudo-noise (PN) signal. 10 . The multi-channel receiver of claim 1 , further comprising a FIFO connected to the processor, and wherein the FIFO writes data into the shared memory when the request processing module has no requests from the RGMs. 11 . The multi-channel receiver of claim 1 , wherein the shared memory is a dual port memory, and the processor writes data to the dual ported memory independent of any reads from the dual ported memory. 12 . The multi-channel receiver of claim 1 , wherein the shared memory is accessed according to a processor-controlled priority. 13 . The multi-channel receiver of claim 12 , wherein the RGMs receive data from the shared memory based on priority defined by settings of the system. 14 . The method of claim 1 , wherein, when the memory code is not equal to a multiple of a width of the shared memory, a remainder is written into the RGM of the channel. 15 . The method of claim 1 , wherein the shared memory includes multiple individually addressable storage areas, but at any given time only one word can be read, the word containing N+1 samples of the reference code sequence for a particular universal channel, N+1 being a width of the shared memory. 16 . The method of claim 1 , wherein each channel receives data from the shared memory based on priority of its request. 17 . The method of claim 1 , wherein each channel receives data from the shared memory in order of its channel number. 18 . The method of claim 1 , wherein the code sequence is divided into words that are multiples of N+1 and are stored sequentially in the shared memory. 19 . The method of claim 1 , wherein the code sequence is divided into words that are not multiples of N+1 and the last word in the memory that has a width of less than N+1 is a remainder. 20 . The method of claim 1 , wherein read requests to the shared memory are blocked when the code sequence is shifted forward to speed up a code sequence, until the shift ends.