Implementation method and apparatus for space division, time division cross-interaction
An implementation method and space separation technology, applied in the field of communication, can solve the problems of inconvenient expansion of the implementation structure, complex implementation, unsuitable for the rapid development mode of integrated circuits, etc., to save resources, reduce implementation costs and power consumption, and reduce capacity expansion workload. Effect
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Embodiment 1
[0049] The implementation method for space-division and time-division cross-connection provided by Embodiment 1 of the present invention is described by taking parallel scheduling of multi-bit services as an example. Specifically, a non-blocking crossover that implements 128*128 channels, each channel has 16 time slots, and is processed in parallel with 8 bits is taken as an example.
[0050] First perform 128×1 crossover, and then instantiate 128 copies, specifically:
[0051] First design a 128-choice multiplexer (MUX), and instantiate 8 copies of it to generate a multiplexer with a time slot, a total of 16 time slots, and need to instantiate 16 times again, each time slot gap corresponds to one.
[0052] Redesign the configuration storage unit, 16 time slots, and the scheduling information stored in each time slot includes the input channel and the input time slot from which the output time slot comes. For the first embodiment, 128 channels need 7bit information coding, an...
Embodiment 2
[0057] The implementation method for space division and time division cross-connection provided by Embodiment 2 of the present invention is described by taking the independent scheduling of single-bit services as an example. Specifically, an implementation of 128×128 channels, each with 16 time slots, for which input 8-bit parallel data requires non-blocking interleaving by bit is taken as an example.
[0058] First perform 128×1 crossover, including the following three parts:
[0059] First design a multiplexer (MUX) with 128 selections, and instantiate 8 copies of it to generate a multiplexer with a time slot. 16 time slots, 16 more instantiations are required, one for each time slot. The selection terminals of the 8 multiplexers corresponding to each time slot no longer come from the same control information, but from 8 different control signals.
[0060] Redesign the configuration storage unit, 16 time slots, and the scheduling information stored in each time slot includ...
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