Bacterial foraging driven exploration of multi cycle fault tolerant datapath based on power-performance tradeoff in high level synthesis
作者:
Highlights:
• Novel bacterial foraging driven chemotaxis and dispersal algorithm for DSE.
• A novel multi-cycle fault tolerant algorithm.
• A novel integrated power-delay based DSE approach that explores an optimal fault tolerant datapath.
• A novel DMR with equivalent circuit scheme for extracting the fault free output from datapath.
• Reports detailed exploration results of proposed fault tolerant approach for transient faults kc = 1, kc = 2, kc = 3.
摘要
•Novel bacterial foraging driven chemotaxis and dispersal algorithm for DSE.•A novel multi-cycle fault tolerant algorithm.•A novel integrated power-delay based DSE approach that explores an optimal fault tolerant datapath.•A novel DMR with equivalent circuit scheme for extracting the fault free output from datapath.•Reports detailed exploration results of proposed fault tolerant approach for transient faults kc = 1, kc = 2, kc = 3.
论文关键词:Multi cycle,Fault tolerant,Design space exploration,Power,Execution time,Bacterial foraging
论文评审过程:Available online 9 February 2015.
论文官网地址:https://doi.org/10.1016/j.eswa.2015.01.058
