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ParaDIME: Parallel Distributed Infrastructure for Minimization of Energy for data centers

Abstract: Dramatic environmental and economic impact of the ever increasing power and energy consumption of modern computing devices in data centers is now a critical challenge. On the one hand, designers use technology scaling as one of the methods to face the phenomenon called dark silicon (only segments of a chip function concurrently due to power restrictions). On the other hand, designers use extreme-scale systems such as teradevices to meet the performance needs of their applications which in turn increases the power consumption of the platform. In order to overcome these challenges, we need novel computing paradigms that address energy efficiency. One of the promising solutions is to incorporate parallel distributed methodologies at different abstraction levels.The FP7 project ParaDIME focuses on this objective to provide different distributed methodologies (software-hardware techniques) at different abstraction levels to attack the power-wall problem. In particular, the ParaDIME framework will utilize: circuit and architecture operation below safe voltage limits for drastic energy savings, specialized energy-aware computing accelerators, heterogeneous computing, energy-aware runtime, approximate computing and power-aware message passing. The major outcome of the project will be a noval processor architecture for a heterogeneous distributed system that utilizes future device characteristics, runtime and programming model for drastic energy savings of data centers. Wherever possible, ParaDIME will adopt multidisciplinary techniques, such as hardware support for message passing, runtime energy optimization utilizing new hardware energy performance counters, use of accelerators for error recovery from sub-safe voltage operation, and approximate computing through annotated code. Furthermore, we will establish and investigate the theoretical limits of energy savings at the device, circuit, architecture, runtime and programming model levels of the computing stack, as well as quantify the actual energy savings achieved by the ParaDIME approach for the complete computing stack with the real environment. © 2015 Elsevier B.V.

 Fuente: Microprocessors and Microsystems 39 (2015) 1174–1189

 Editorial: Elsevier

 Año de publicación: 2015

 Nº de páginas: 16

 Tipo de publicación: Artículo de Revista

 DOI: 10.1016/j.micpro.2015.06.005

 ISSN: 0308-5953,0141-9331

 Url de la publicación: https://doi.org/10.1016/j.micpro.2015.06.005

Autoría

RETHINAGIRI, SANTHOSH KUMAR

PALOMAR, OSCAR

SOBE, ANITA

YALCIN, GULAY

KNAUTH, THOMAS

TITOS GIL, RUBÉN

SCHNEEGAß, MALTE

CRISTAL, ADRIAN

UNSAL, OSMAN

FELBER, PASCAL

FETZER, CHRISTOF

MILOJEVIC, DRAGOMIR