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This paper addresses both the efficiency and the portability of a computer program in charge of the baseband signal processing of a GNSS receiver. Efficiency, in this context, refers to optimizing the speed and memory requirements of the software receiver. Specifically, the interest is focused on how fast the software receiver can process the incoming stream of raw signal samples and, in particular, if signal processing up to the position fix can be executed in real-time (and how many channels the host computer executing the receiver application can sustain in parallel). This is achieved by applying the concept of parallelization at different abstraction levels. The paper describes strategies based on task, data and instruction-level parallelism, as well as actual implementations released under an open source license and the results obtained with different commercially available computing platforms. At the same time, the proposed solution also addresses portability, understood as the usability of the same software in different computing environments.
Carles Fernandez-Prades, Javier Arribas, Pau Closas
This paper presents the design, the prototype implementation and the preliminary evaluation of an enhanced meta-computing environment based on the FEniCS Project and focused on multi-domain multi-physics problems modeled with partial differential equations. It is based on scripting languages and their practices, and on the Service Oriented Architecture paradigm and the associated web services technologies. Our design is generic, covering a wide range of problems but our proof of concept implementation is restricted to elliptic PDEs in two or three dimensions.
Christos Antonopoulos, Manolis Maroudas and Manolis Vavalis