Title :
Combining Error Detection and Transactional Memory for Energy-Efficient Computing below Safe Operation Margins
Author :
Yalcin, Gulay ; Cristal, Adrian ; Unsal, Ozan ; Sobe, Anita ; Harmanci, Derin ; Felber, Pascal ; Voronin, A. ; Wamhoff, Jons-Tobias ; Fetzer, Christof
Author_Institution :
Barcelona Comput. Center, Barcelona, Spain
Abstract :
The power envelope has become a major issue for the design of computer systems. One way of reducing energy consumption is to downscale the voltage of microprocessors. However, this does not come without costs. By decreasing the voltage, the likelihood of failures increases drastically and without mechanisms for reliability, the systems would not operate any more. For reliability we need (1) error detection and (2) error recovery mechanisms. We provide in this paper a first study investigating the combination of different error detection mechanisms with transactional memory, with the objective to improve energy efficiency. According to our evaluation, using reliability schemes combined with transactional memory for error recovery reduces energy by 54% while providing a reliability level of 100%.
Keywords :
microprocessor chips; power aware computing; system recovery; computer system design; energy consumption reduction; energy efficiency improvement; energy-efficient computing; error detection mechanism; error recovery mechanism; failure likelihood; microprocessor voltage; reliability schemes; safe operation margins; transactional memory; Checkpointing; Circuit faults; Energy consumption; Hardware; Reliability; Synchronization; Transient analysis; Energy Efficiency; Scaling Supply Voltage; Transactional Memory;
Conference_Titel :
Parallel, Distributed and Network-Based Processing (PDP), 2014 22nd Euromicro International Conference on
Conference_Location :
Torino
DOI :
10.1109/PDP.2014.61
