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--- readings [2015/09/29 05:44]
nandita [Optional Readings Mentioned in the Lecture]
+++ readings [2015/10/01 19:39]
nandita [Optional Readings Mentioned in the Lecture]
@@ Line 156: / Line 156: @@
   * Luo et. al., [[http://users.ece.cmu.edu/~omutlu/pub/heterogeneous-reliability-memory-for-data-centers_dsn14.pdf | Characterizing Application Memory Error Vulnerability to Optimize Data Center Cost]], //DSN 2014//
   * Subramanian et al., [[The Application Slowdown Model]],  //MICRO 2015.//
-  * Subramanian et al., [[https://users.ece.cmu.edu/~omutlu/pub/mise-predictable_memory_performance-hpca13.pdf | MISE: Providing Performance Predictability and Improving Fairness in Shared Main Memory Systems,]], HPCA 2013
+  * Subramanian et al., [[https://users.ece.cmu.edu/~omutlu/pub/mise-predictable_memory_performance-hpca13.pdf | MISE: Providing Performance Predictability and Improving Fairness in Shared Main Memory Systems,]], //HPCA 2013//
+  * Wilkes, [[https://www.cs.princeton.edu/courses/archive/fall10/cos375/WilkesCacheElectronics.pdf | Slave Memories and Dynamic Storage Allocation,]] //IEEE Trans. On Electronic Computers, 1965.//
+  * Lee et al., [[ http://users.ece.cmu.edu/~omutlu/pub/pcm_isca09.pdf | Architecting Phase Change Memory as a Scalable DRAM Alternative]], //ISCA 2009//
+  * Yoongu Kim et al., [[https://users.ece.cmu.edu/~omutlu/pub/salp-dram_isca12.pdf| A Case for Exploiting Subarray-Level Parallelism (SALP) in DRAM]], //ISCA 2012//
+  * Rau, [[http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.12.7149&rep=rep1&type=pdf | Pseudo-randomly Interleaved Memory]],// ISCA 1991//
+  * Lee et al.,  [[https://users.ece.cmu.edu/~omutlu/pub/dram-aware-caches-TR-HPS-2010-002.pdf | DRAM-Aware Last-Level Cache Writeback: Reducing Write-Caused Interference in Memory Systems]], //HPS Technical Report, April 2010.//
+  * Ipek et al., [[http://m3.csl.cornell.edu/papers/isca08.pdf | Self Optimizing Memory Controllers: A Reinforcement Learning Approach]], //ISCA 2008//
+  * J. Zhao et al., [[https://users.ece.cmu.edu/~omutlu/pub/firm-persistent-memory-scheduling_micro14.pdf | FIRM: Fair and High-Performance Memory Control for Persistent Memory Systems]], //MICRO 2014.//
+  * M. Qureshi et al., [[http://www.cs.ucsb.edu/~chong/290N-W10/pcm.pdf | Scalable high performance main memory system using phase-change memory technology]], //ISCA 2009.//
+===== Recitation 5 =====
+==== Review Set 5 ====
+  * Justin Meza et al., [[ http://users.ece.cmu.edu/~omutlu/pub/flash-memory-failures-in-the-field-at-facebook_sigmetrics15.pdf | A Large-Scale Study of Flash Memory Errors in the Field]], //SIGMETRICS 2015// **[Review Required]**
+  * Yu Cai et al., [[https://users.ece.cmu.edu/~omutlu/pub/flash-error-analysis-and-management_itj13.pdf | Error Analysis and Retention-Aware Error Management for NAND Flash Memory]], //Intel Technology Journal (ITJ) Special Issue on Memory Resiliency, Vol. 17, No. 1, May 2013.// **[Review Required]**
+  * Edmund B. Nightingale et al, [[http://eurosys2011.cs.uni-salzburg.at/pdf/eurosys2011-nightingale.pdf  | Cycles, cells and platters: an empirical analysis of hardware failures on a million consumer PCs]], //Eurosys 2011.// **[Review Required]**
+  * Loh et al., [[http://ag-rs-www.informatik.uni-kl.de/publications/data/Loh08.pdf| 3D-Stacked Memory Architectures for Multi-Core Processors]], //ISCA 2008.// **[Optional]**
+  * Black et al., [[http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4041869&tag=1 | Die Stacking (3D) Microarchitecture]], //MICRO 2006.//  **[Optional]**
+===== Lecture 9 =====
+==== Optional Readings Mentioned in the Lecture ====
+  * Ipek et al., [[http://m3.csl.cornell.edu/papers/isca08.pdf | Self Optimizing Memory Controllers: A Reinforcement Learning Approach]], //ISCA 2008//
+  * J. Zhao et al., [[https://users.ece.cmu.edu/~omutlu/pub/firm-persistent-memory-scheduling_micro14.pdf | FIRM: Fair and High-Performance Memory Control for Persistent Memory Systems]], //MICRO 2014.//
+  * M. Qureshi et al., [[http://www.cs.ucsb.edu/~chong/290N-W10/pcm.pdf | Scalable high performance main memory system using phase-change memory technology]], //ISCA 2009.//
+  * Yoongu Kim et. al. [[https://users.ece.cmu.edu/~omutlu/pub/ramulator_dram_simulator-ieee-cal15.pdf | Ramulator: A Fast and Extensible DRAM Simulator]], //IEEE Computer Architecture Letters, May 2015.//
+  * Justin Meza et. al., [[ https://users.ece.cmu.edu/~omutlu/pub/memory-errors-at-facebook_dsn15.pdf | Revisiting Memory Errors in Large-Scale Production Data Centers: Analysis and Modeling of New Trends from the Field]], //DSN 2015//
+  * Yoon, Meza et al., [[https://users.ece.cmu.edu/~omutlu/pub/rowbuffer-aware-caching_iccd12.pdf | Row Buffer Locality Aware Caching Policies for Hybrid Memories]], //ICCD 2012//
+  * Meza et. al., [[https://www.ece.cmu.edu/~safari/pubs/timber_cal12.pdf | Enabling Efficient and Scalable Hybrid Memories]], //IEEE Comp. Arch. Letters, 2012//
+  * Qureshi et. al., [[http://www.cs.ucsb.edu/~chong/290N-W10/pcm.pdf | Scalable High Performance Main Memory System Using Phase-Change Memory Technology]], //ISCA 2009//
+  * Kultursay et al., [[https://users.ece.cmu.edu/~omutlu/pub/sttram_ispass13.pdf | Evaluating STT-RAM as an Energy-Efficient Main Memory Alternative]], //ISPASS 2013.//
+  * Meza et al.,  [[http://research.ihost.com/weed2013/papers/storage_memory.pdf | A Case for Efficient Hardware-Software Cooperative Management of Storage and Memory]], //WEED 2013.//