Sudden Power-Outage Resilient In-Processor Checkpointing for Energy-Harvesting Nonvolatile Processors.
Naoya OnizawaAkira MochizukiAkira TamakoshiTakahiro HanyuPublished in: IEEE Trans. Emerg. Top. Comput. (2017)
Keyphrases
- multithreading
- parallel processing
- memory subsystem
- instruction set
- multiprocessor systems
- ibm power processor
- energy management
- high end
- distributed memory
- single processor
- power consumption
- total energy
- parallel architecture
- parallel processors
- embedded processors
- distributed databases
- solar energy
- parallel computing
- parallel architectures
- energy efficiency
- main memory databases
- energy consumption
- power distribution
- clock frequency
- computational power
- multi processor
- multicore processors
- processor core
- electrical energy
- single instruction multiple data
- database systems
- multi core processors
- processing units
- energy saving
- energy efficient
- parallel algorithm
- distributed systems
- high speed
- power management
- failure recovery
- graphics processing units
- chip design
- distributed database systems
- low power
- fault tolerance
- general purpose processors