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* {{p441-suleman.pdf|Suleman, M. A., Mutlu, O., Joao, J. A., Khubaib, & Patt, Y. N. (2010). Data marshaling for multi-core architectures. Proceedings of the 37th annual international symposium on Computer architecture.}} | * {{p441-suleman.pdf|Suleman, M. A., Mutlu, O., Joao, J. A., Khubaib, & Patt, Y. N. (2010). Data marshaling for multi-core architectures. Proceedings of the 37th annual international symposium on Computer architecture.}} | ||
* {{p223-joao.pdf|Joao, J. A., Suleman, M. A., Mutlu, O., & Patt, Y. N. (2012). Bottleneck identification and scheduling in multithreaded applications. Proceedings of the seventeenth international conference on Architectural Support for Programming Languages and Operating Systems.}} | * {{p223-joao.pdf|Joao, J. A., Suleman, M. A., Mutlu, O., & Patt, Y. N. (2012). Bottleneck identification and scheduling in multithreaded applications. Proceedings of the seventeenth international conference on Architectural Support for Programming Languages and Operating Systems.}} | ||
+ | |||
+ | ===== Lecture 33 (5/2 Fri.) ===== | ||
+ | ** Required: ** | ||
+ | * None | ||
+ | |||
+ | ** Mentioned during lecture: ** | ||
+ | * Liu, Jaiyen, Veras, Mutlu, “RAIDR: Retention-Aware Intelligent DRAM Refresh,” ISCA 2012. | ||
+ | * Kim, Seshadri, Lee+, “A Case for Exploiting Subarray-Level Parallelism in DRAM,” ISCA 2012. | ||
+ | * Lee+, “Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture,” HPCA 2013. | ||
+ | * Liu+, “An Experimental Study of Data Retention Behavior in Modern DRAM Devices,” ISCA 2013. | ||
+ | * Seshadri+, “RowClone: Fast and Efficient In-DRAM Copy and Initialization of Bulk Data,” MICRO 2013. | ||
+ | * Pekhimenko+, “Linearly Compressed Pages: A Main Memory Compression Framework,” MICRO 2013. | ||
+ | * Chang+, “Improving DRAM Performance by Parallelizing Refreshes with Accesses,” HPCA 2014. | ||
+ | * Khan+, “The Efficacy of Error Mitigation Techniques for DRAM Retention Failures: A Comparative Experimental Study,” SIGMETRICS 2014. | ||
+ | * Luo+, “Characterizing Application Memory Error Vulnerability to Optimize Data Center Cost,” DSN 2014. | ||
+ | * Kim+, “Flipping Bits in Memory Without Accessing Them: An Experimental Study of DRAM Disturbance Errors,” ISCA 2014. | ||
+ | * Lee, Ipek, Mutlu, Burger, “Architecting Phase Change Memory as a Scalable DRAM Alternative,” ISCA 2009, CACM 2010, Top Picks 2010. | ||
+ | * Meza, Chang, Yoon, Mutlu, Ranganathan, “Enabling Efficient and Scalable Hybrid Memories,” IEEE Comp. Arch. Letters 2012. | ||
+ | * Yoon, Meza et al., “Row Buffer Locality Aware Caching Policies for Hybrid Memories,” ICCD 2012. | ||
+ | * Kultursay+, “Evaluating STT-RAM as an Energy-Efficient Main Memory Alternative,” ISPASS 2013. | ||
+ | * Meza+, “A Case for Efficient Hardware-Software Cooperative Management of Storage and Memory,” WEED 2013. | ||
+ | * Lee, Ipek, Mutlu, Burger, “Architecting Phase Change Memory as a Scalable DRAM Alternative,” ISCA 2009. | ||
+ | * Meza+, “Enabling Efficient and Scalable Hybrid Memories,” IEEE Comp. Arch. Letters, 2012. | ||
+ | * Yoon, Meza et al., “Row Buffer Locality Aware Caching Policies for Hybrid Memories,” ICCD 2012 Best Paper Award. |