摘要
Online testing is critical to ensuring reliable operations of the next generation of supercomputers based on a kilo-core network-on-chip(NoC)interconnection fabric.We present a parallel software-based self-testing(SBST)solution that makes use of the bounded model checking(BMC)technique to generate test sequences and parallel packets.In this method,the parallel SBST with BMC derives the leading sequence for each router’s internal function and detects all functionally-testable faults related to the function.A Monte-Carlo simulation algorithm is then used to search for the approximately optimum configuration of the parallel packets,which guarantees the test quality and minimizes the test cost.Finally,a multi-threading technology is used to ensure that the Monte-Carlo simulation can reach the approximately optimum configuration in a large random space and reduce the generating time of the parallel test.Experimental results show that the proposed method achieves a high fault coverage with a reduced test overhead.Moreover,by performing online testing in the functional mode with SBST,it effectively avoids the over-testing problem caused by functionally untestable turns in kilo-core NoCs.
作者
张颖
季鹏飞
朱潘玮
Zebo Peng
李华伟
江建慧
Ying Zhang;Peng-Fei Ji;Pan-Wei Zhu;Zebo Peng;Hua-Wei Li;Jian-Hui Jiang(School of Software Engineering,Tongji University,Shanghai 200092,China;Department of Computer and Information Science,Linkoping University,Linkoping 58183,Sweden;Institute of Computing Technology,Chinese Academy of Sciences,Beijing 100190,China)
基金
supported in part by the National Key Research and Development Program of China under Grant No.2020YFB1600201
the National Natural Science Foundation of China(NSFC)under Grant Nos.61974105,62090024,U20A20202
the Zhejiang Lab under Grant No.2021KC0AB01.
