From capturing radio signals to producing science-ready data products, Radioblocks aims to improve the entire data chain, with a focus on both hardware and software development. As part of this holistic approach, the project will enhance image quality and enable the efficient processing of larger data, supporting a broader range of scientific investigations and paving the way for a new era in radio astronomy.
| Results | Link |
|---|---|
| D3.7 DBBC4 design and implementation report | |
| D3.8 MBRX receiver | |
| D4.1 Assessment of the applicability of next generation technology | https://zenodo.org/records/10940605 |
| D4.2 High-speed data handling techniques such as e.g. RDMA | https://zenodo.org/records/10941163 |
| D4.3 High-speed data transport prototype | https://zenodo.org/records/15269805 |
| D4.4 Basic correlator on TensorCore architecture | https://zenodo.org/records/15269985 |
| D4.5 Beamforming and coherent dedisperion modules | |
| D4.6 Next-generation correlator demonstrator | |
| D5.1 Library of DASK-accelerated interface to analyse radio astronomy data formats | https://zenodo.org/records/10940716 |
| D5.2 Implementation of a fringe fit algorithm in the Dask framework | |
| D5.3 Prototype processing workflow functionality using software modules under DASK framework | |
| D5.4 Port of Bayesian package to make use of DASK-like HPC methods | |
| D5.7 Software/firmware repositories containing developed code and documentation | |
| D5.8 DASK accelerated data reading & GPU processing for radio astronomy tools | |
| M19: Granularities suitable for efficient fringe-fitting | https://zenodo.org/records/13382974 |
| M21: Report on generic VLBI simulation strategies | https://zenodo.org/records/11638952 |