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http://hdl.handle.net/20.500.12386/28214
Titolo: | Radioastronomic signal processing cores for the SKA radio telescope | Autori: | COMORETTO, Giovanni CHIARUCCI, Simone BELLI, Carolina |
Data pubblicazione: | 2017 | Rivista: | MEMORIE DELLA SOCIETA ASTRONOMICA ITALIANA | Numero: | 88 | Da pagina:: | 154 | Abstract: | Modern radio telescopes require the processing of wideband signals, with sample rates from tens of MHz to tens of GHz, and are composed from hundreds up to a million of individual antennas. Digital signal processing of these signals include digital receivers (the digital equivalent of the heterodyne receiver), beamformers, channelizers, spectrometers. FPGAs present the advantage of providing a relatively low power consumption, relative to GPUs or dedicated computers, a wide signal data path, and high interconnectivity. <P />Efficient algorithms have been developed for these applications. Here we will review some of the signal processing cores developed for the SKA telescope. <P />The LFAA beamformer/channelizer architecture is based on an oversampling channelizer, where the channelizer output sampling rate and channel spacing can be set independently. This is useful where an overlap between adjacent channels is required to provide an uniform spectral coverage. The architecture allows for an efficient and distributed channelization scheme, with a final resolution corresponding to a million of spectral channels, minimum leakage and high out-of-band rejection. An optimized filter design procedure is used to provide an equiripple response with a very large number of spectral channels. <P />A wideband digital receiver has been designed in order to select the processed bandwidth of the SKA Mid receiver. The receiver extracts a 2.5 MHz bandwidth form a 14 GHz input bandwidth. The design allows for non-integer ratios between the input and output sampling rates, with a resource usage comparable to that of a conventional decimating digital receiver. <P />Finally, some considerations on quantization of radioastronomic signals are presented. Due to the stochastic nature of the signal, quantization using few data bits is possible. Good accuracies and dynamic range are possible even with 2-3 bits, but the nonlinearity in the correlation process must be corrected in post-processing. With at least 6 bits it is possible to have a very linear response of the instrument, with nonlinear terms below 80 dB, providing the signal amplitude is kept within bounds. | URI: | http://hdl.handle.net/20.500.12386/28214 | URL: | http://sait.oat.ts.astro.it/MSAIt880217/index.html | ISSN: | 0037-8720 | Bibcode ADS: | 2017MmSAI..88..154C | Fulltext: | open |
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