Power-efficient error tolerance in chip multiprocessors

Power-efficient error tolerance in chip multiprocessors

The microprocessor industry is rapidly moving to the use of multicore chips as general-purpose processors. Whereas the current generation of chip multiprocessors (CMPs) target server applications, future desktop processors likely have tens of multithreaded cores on a single die. Various redundant mu...

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Veröffentlicht in:IEEE MICRO 2005-11, Vol.25 (6), p.60-70
Hauptverfasser: Rashid, M.W., Tan, E.J., Huang, M.C., Albonesi, D.H.
Format: Artikel
Sprache:eng
Schlagworte:
Concurrent computing
Errors
Fault-tolerance
Hardware
low-power design
Microarchitecture
Microprocessors
Multithreading
Parallel processing
Power dissipation
Power generation
Power system reliability
Redundancy
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Zusammenfassung:The microprocessor industry is rapidly moving to the use of multicore chips as general-purpose processors. Whereas the current generation of chip multiprocessors (CMPs) target server applications, future desktop processors likely have tens of multithreaded cores on a single die. Various redundant multithreading (RMT) approaches exploit the multithreaded capability of current general-purpose microprocessors. These approaches replicate the entire program, running it as a separate thread using time or space redundancy. This guards the processor core against all errors, including those in combinational logic. Because RMT exploits the existing multithreaded hardware, it requires only a modest amount of additional hardware support for comparing results and, depending on the implementation, duplicating inputs.
ISSN:0272-1732
1937-4143
DOI:10.1109/MM.2005.118