Softwarebasierte Fehlertoleranz - Sommersemester 08
Literatur
Einige Artikel sind über IEEEXplore zugänglich, für das die Universität eine Lizenz besitzt. Solche Artikel müssen von einem Uni-Rechner aus herunter geladen werden. Es reicht, wenn man sich einloggt und wget benutzt.Themenbereich 1: EinleitungA. Reis et al. SWIFT: Software Implemented Fault Tolerance. IEEE International Symp. on Code Generation and Optimization 2005 Link 1 Link 2 G.A. Reis, J. Chang, and D.I. August. Automatic Instruction-Level Software-Only Recovery. IEEE Micro 27(1), 2007, pages 36--47. Link E.N. Elnozahy et al. A Survey of Rollback-Recovery Protocols in Message-Passing Systems. ACM Computing Surveys 34(3), 2002, pages 375--408. Link Themenbereich 2: Fehlertolerante ProgrammiersprachenF. Perry et al. Fault-tolerant typed assembly language. ACM SIGPLAN conference on Programming language design and implementation 2007 pages 42--53 Link Themenbereich 3: Fehlertolerante ArchitekturenP. Shivakumar et al. Exploiting Microarcitectural Redundancy for Defect Tolerance. International Conf. Comp. Design 2003 Link T.M. Austin. DIVA: A Reliable Substrate for Deep Submicron Microarchitecture Design. International Symp. on Microarchitecture 1999 Link Themenbereich 4: Fehlertolerante AlgorithmenK.H. Huang and J.A. Abraham. Algorithm-Based Fault Tolerance for Matrix Operations. IEEE Trans. Comp. C-33(6), 1984. Link J. Jou and J.A. Abraham. Fault-tolerant FFT networks. IEEE Trans. Comp. 37(5), 1988. Link Themenbereich 5: FehlerentdeckungN. Oh, O.P. Shirvani, and E.J. McCluskey. Control-Flow Checking by Software Signatures. IEEE Trans. on Reliabilty 51(2), 2002, volume = 51, pages 111--121 Link E. Borin et al. Software-Based Transparent and Comprehensive Control-Flow Error Detection. International Symp. on Code Generation and Optimization 2006, pages 333--345 dx.doi.org/10.1109/CGO.2006.33 Themenbereich 6: Soft ErrorsM. Zhang et al. Sequential Element Design with Built-In Soft Error Resilience. IEEE Trans. VLSI 14(12) 2006 Link N. Wang et al. Characterizing the Effects of Transient Faults in a High-Performance Processor Pipeline. International Conf. on Depend. Systems and Networks 2004 Link X. Li and D. Yeung. Application-Level Correctness and its Impact on Fault Tolerance. International Symp. on high-Performance Computer Architecture 2007 Link Themenbereich 7: MultithreadingS. Mukherjee et al. Detailed Design and Evaluation of Redundant Multithreading Alternatives. International Symp. Comp. Architecture 2002 Link S.K. Reinhardt and S.S. Mukherjee. Transient fault detection via simultaneous multithreading. SIGARCH Comput. Archit. News 28 (2), 2000 pages 25--36 Link |