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readings [2015/03/27 20:18] kevincha [Lecture 23 (3/27 Fri.)] |
readings [2015/03/31 17:18] kevincha [Lecture 24 (3/30 Mon.)] |
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* {{tldram-lee.pdf| Lee et al., “Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture,” HPCA 2013. (Sections 1 and 2)}} | * {{tldram-lee.pdf| Lee et al., “Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture,” HPCA 2013. (Sections 1 and 2)}} | ||
* {{2012_isca_salp.pdf| Kim et al., “A Case for Subarray-Level Parallelism (SALP) in DRAM,” ISCA 2012. (Sections 1 and 2)}} | * {{2012_isca_salp.pdf| Kim et al., “A Case for Subarray-Level Parallelism (SALP) in DRAM,” ISCA 2012. (Sections 1 and 2)}} | ||
- | * {{raidr_isca12.pdf| Liu et al., “RAIDR: Retention-Aware Intelligent DRAM Refresh,” ISCA 2012. (Sections 1 and 2)}} | + | * {{http://users.ece.cmu.edu/~omutlu/pub/raidr-dram-refresh_isca12.pdf|Liu et al., “RAIDR: Retention-Aware Intelligent DRAM Refresh,” ISCA 2012.}} |
* {{main-memory-system_kiise15.pdf| Onur Mutlu, Justin Meza, and Lavanya Subramanian, "The Main Memory System: Challenges and Opportunities," Invited Article in Communications of the Korean Institute of Information Scientists and Engineers (KIISE), 2015.}} | * {{main-memory-system_kiise15.pdf| Onur Mutlu, Justin Meza, and Lavanya Subramanian, "The Main Memory System: Challenges and Opportunities," Invited Article in Communications of the Korean Institute of Information Scientists and Engineers (KIISE), 2015.}} | ||
**Mentioned During Lecture:** | **Mentioned During Lecture:** | ||
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* {{tldram-lee.pdf| Lee et al., “Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture,” HPCA 2013. (Sections 1 and 2)}} | * {{tldram-lee.pdf| Lee et al., “Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture,” HPCA 2013. (Sections 1 and 2)}} | ||
* {{2012_isca_salp.pdf| Kim et al., “A Case for Subarray-Level Parallelism (SALP) in DRAM,” ISCA 2012. (Sections 1 and 2)}} | * {{2012_isca_salp.pdf| Kim et al., “A Case for Subarray-Level Parallelism (SALP) in DRAM,” ISCA 2012. (Sections 1 and 2)}} | ||
- | * {{raidr_isca12.pdf| Liu et al., “RAIDR: Retention-Aware Intelligent DRAM Refresh,” ISCA 2012. (Sections 1 and 2)}} | + | * {{http://users.ece.cmu.edu/~omutlu/pub/raidr-dram-refresh_isca12.pdf|Liu et al., “RAIDR: Retention-Aware Intelligent DRAM Refresh,” ISCA 2012.}} |
* {{main-memory-system_kiise15.pdf| Onur Mutlu, Justin Meza, and Lavanya Subramanian, "The Main Memory System: Challenges and Opportunities," Invited Article in Communications of the Korean Institute of Information Scientists and Engineers (KIISE), 2015.}} | * {{main-memory-system_kiise15.pdf| Onur Mutlu, Justin Meza, and Lavanya Subramanian, "The Main Memory System: Challenges and Opportunities," Invited Article in Communications of the Korean Institute of Information Scientists and Engineers (KIISE), 2015.}} | ||
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* {{p60-liu.pdf|Liu et al., “An Experimental Study of Data Retention Behavior in Modern DRAM Devices,” ISCA 2013.}} | * {{p60-liu.pdf|Liu et al., “An Experimental Study of Data Retention Behavior in Modern DRAM Devices,” ISCA 2013.}} | ||
* {{http://users.ece.cmu.edu/~kevincha/papers/chang_hpca2014.pdf|Kevin Chang, Donghyuk Lee, Zeshan Chishti, Alaa Alameldeen, Chris Wilkerson, Yoongu Kim, Onur Mutlu, "Improving DRAM Performance by Parallelizing Refreshes with Accesses", In HPCA 2014, Orlando, Feb. 2014.}} | * {{http://users.ece.cmu.edu/~kevincha/papers/chang_hpca2014.pdf|Kevin Chang, Donghyuk Lee, Zeshan Chishti, Alaa Alameldeen, Chris Wilkerson, Yoongu Kim, Onur Mutlu, "Improving DRAM Performance by Parallelizing Refreshes with Accesses", In HPCA 2014, Orlando, Feb. 2014.}} | ||
+ | |||
+ | ===== Lecture 24 (3/30 Mon.) ===== | ||
+ | **Required:** | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/mutlu_hpca03.pdf | Mutlu et al., “Runahead Execution: An Alternative to Very Large Instruction Windows for Out-of-order Processors,” HPCA 2003.}} | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/TR-HPS-2006-006.pdf|Srinathet al., “Feedback directed prefetching”, HPCA 2007.}} | ||
+ | |||
+ | **Mentioned During Lecture:** | ||
+ | * {{ramulator.pdf|Kim et al., “Ramulator: A Fast and Extensible DRAM Simulator,” IEEE Computer Architecture Letters 2015.}} | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/eaf-cache_pact12.pdf|Seshadri et al., “The Evicted-Address Filter: A Unified Mechanism to Address Both Cache Pollution and Thrashing,”PACT 2012.}} | ||
+ | * {{http://hps.ece.utexas.edu/pub/TR-HPS-2010-002.pdf|Lee et al., “DRAM-Aware Last-Level Cache Writeback: Reducing Write-Caused Interference in Memory Systems,”HPS Technical Report, April 2010.}} | ||
+ | * {{tldram-lee.pdf| Lee et al., “Tiered-Latency DRAM: A Low Latency and Low Cost DRAM Architecture,” HPCA 2013. (Sections 1 and 2)}} | ||
+ | * {{2012_isca_salp.pdf| Kim et al., “A Case for Subarray-Level Parallelism (SALP) in DRAM,” ISCA 2012. (Sections 1 and 2)}} | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/rlmc_isca08.pdf|Ipek et al., “Self Optimizing Memory Controllers: A Reinforcement Learning Approach,”ISCA 2008}} | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/mutlu_ieee_micro06.pdf|Mutlu et al., "Efficient Runahead Execution: Power-Efficient Memory Latency Tolerance," ISCA 2005, IEEE Micro Top Picks 2006.}} | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/mutlu_micro05.pdf|Mutlu et al., "Address-Value Delta (AVD) Prediction," MICRO 2005.}} | ||
+ | * {{http://users.ece.cmu.edu/~omutlu/pub/armstrong_micro04.pdf|Armstrong et al., "Wrong Path Events," MICRO 2004.}} | ||
+ | * |