The AXIOM platform for next-generation cyber physical systems

Cyber-Physical Systems (CPSs) are widely used in many applications that require interactions between humans and their physical environment. These systems usually integrate a set of hardware-software components for optimal application execution in terms of performance and energy consumption. The AXIO...

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Veröffentlicht in:	Microprocessors and microsystems 2017-07, Vol.52, p.540-555
Hauptverfasser:	Theodoropoulos, Dimitris, Mazumdar, Somnath, Ayguade, Eduard, Bettin, Nicola, Bueno, Javier, Ermini, Sara, Filgueras, Antonio, Jiménez-González, Daniel, Álvarez Martínez, Carlos, Martorell, Xavier, Montefoschi, Francesco, Oro, David, Pnevmatikatos, Dionisis, Rizzo, Antonio, Gai, Paolo, Garzarella, Stefano, Morelli, Bruno, Pomella, Alberto, Giorgi, Roberto
Format:	Artikel
Sprache:	eng
Schlagworte:	Couples Cyber-physical systems Distributed shared memory Energy consumption Hardware Informàtica Microprocessadors Microprocessors Parallel programming Performance evaluation Programming model Reconfigurable Smart home living Smart video surveillance Àrees temàtiques de la UPC
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creator	Theodoropoulos, Dimitris Mazumdar, Somnath Ayguade, Eduard Bettin, Nicola Bueno, Javier Ermini, Sara Filgueras, Antonio Jiménez-González, Daniel Álvarez Martínez, Carlos Martorell, Xavier Montefoschi, Francesco Oro, David Pnevmatikatos, Dionisis Rizzo, Antonio Gai, Paolo Garzarella, Stefano Morelli, Bruno Pomella, Alberto Giorgi, Roberto
description	Cyber-Physical Systems (CPSs) are widely used in many applications that require interactions between humans and their physical environment. These systems usually integrate a set of hardware-software components for optimal application execution in terms of performance and energy consumption. The AXIOM project (Agile, eXtensible, fast I/O Module), presented in this paper, proposes a hardware-software platform for CPS coupled with an easy parallel programming model and sufficient connectivity so that the performance can scale-up by adding multiple boards. AXIOM supports a task-based programming model based on OmpSs and leverages a high-speed, inexpensive communication interface called AXIOM-Link. The board also tightly couples the CPU with reconfigurable resources to accelerate portions of the applications. As case studies, AXIOM uses smart video surveillance, and smart home living applications.
doi_str_mv	10.1016/j.micpro.2017.05.018
format	Article
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subjects	Couples Cyber-physical systems Distributed shared memory Energy consumption Hardware Informàtica Microprocessadors Microprocessors Parallel programming Performance evaluation Programming model Reconfigurable Smart home living Smart video surveillance Àrees temàtiques de la UPC
title	The AXIOM platform for next-generation cyber physical systems
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