Hardware accelerators in networking systems for control algorithms offer a promising approach to scale performance. To that end, several research efforts have been devoted to verify a hardware version of complex control algorithms but only for small-scale hardware unit tests. In this paper we propose and evaluate an emulation framework, in which such control algorithm accelerators can be integrated to design a packet switch, able both to forward real traffic and to enable extensive experimental evaluation and demonstration scenarios. As a case study, we have integrated in the proposed framework a Belief-Propagation-driven algorithm accelerator for multicast packet scheduling.
On emulating hardware/software co-designed control algorithms for packet switches
Pretti, Marco;
2014
Abstract
Hardware accelerators in networking systems for control algorithms offer a promising approach to scale performance. To that end, several research efforts have been devoted to verify a hardware version of complex control algorithms but only for small-scale hardware unit tests. In this paper we propose and evaluate an emulation framework, in which such control algorithm accelerators can be integrated to design a packet switch, able both to forward real traffic and to enable extensive experimental evaluation and demonstration scenarios. As a case study, we have integrated in the proposed framework a Belief-Propagation-driven algorithm accelerator for multicast packet scheduling.File | Dimensione | Formato | |
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