User Tools

Site Tools


readings

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
readings [2020/11/12 16:26]
yaglikca [Lecture 8 (12.11 Thu.)]
readings [2020/12/11 09:37] (current)
alserm
Line 47: Line 47:
 ===== Lecture 6.b (22.10 Thu.) ===== ===== Lecture 6.b (22.10 Thu.) =====
 === Suggested (lecture 6.b): === === Suggested (lecture 6.b): ===
 +  * {{https://​www.cs.utexas.edu/​~lin/​papers/​micro06.pdf|I. Hur and C.Lin, "​Memory Prefetching using Adaptive Stream Detection,"​ MICRO, 2006}} 
 +  * {{https://​www.eecg.utoronto.ca/​~steffan/​carg/​readings/​ghb.pdf|K. J. Nesbit and J. E. Smith, "Data Cache Prefetching Using a Global History Buffer,"​ HPCA, 2004}} 
 +  * {{http://​eimanebrahimi.com/​pub/​hashemi_isca16.pdf|M. Hasemi et al., "​Accelerating Dependent Cache Misses with an Enhanced Memory Controller,"​ ISCA, 2016}}
 ===== Lecture 7.a (29.10 Thu.) ===== ===== Lecture 7.a (29.10 Thu.) =====
 === Suggested (lecture 7.a): === === Suggested (lecture 7.a): ===
Line 58: Line 60:
  
  
-===== Lecture ​(12.11 Thu.) ===== +===== Lecture ​(12.11 Thu.) ===== 
-=== Suggested (lecture ​8.1): ===+=== Suggested (lecture ​9.a): === 
 +  * {{http://​citeseerx.ist.psu.edu/​viewdoc/​download?​doi=10.1.1.440.1407&​rep=rep1&​type=pdf|M. Abadi et al., "​Control-Flow Integrity,"​ CCS, 2005}} 
 +  * {{https://​www.hbarel.com/​media/​blogs/​hagai-on-security/​Sorcerers_Apprentice_Guide.pdf|H. Bar-El et al., "The Sorcerer'​s Apprentice Guide to Fault Attacks,"​ Proc. IEEE, 2006}} 
 +  * {{https://​plundervolt.com/​doc/​plundervolt.pdf|Murdock,​ Kit, et al. "​Plundervolt:​ Software-Based Fault Injection Attacks Against Intel SGX," IEEE SP, 2020}} 
 +  * {{https://​www.usenix.org/​system/​files/​conference/​usenixsecurity17/​sec17-tang.pdf|,​ A. Tang et al., "​CLKScrew:​ Exposign the Perils of Security-Oblivious Energy Management,"​ USENIX SEC, 2017}}
  
-=== Suggested (lecture ​8.2): ===+=== Suggested (lecture ​9.b): ===
     * {{https://​people.inf.ethz.ch/​omutlu/​pub/​dram-row-hammer_isca14.pdf|Y. Kim et al., “Flipping Bits in Memory Without Accessing Them: AnExperimental Study of DRAM Disturbance Errors,” in ISCA, 2014}}     * {{https://​people.inf.ethz.ch/​omutlu/​pub/​dram-row-hammer_isca14.pdf|Y. Kim et al., “Flipping Bits in Memory Without Accessing Them: AnExperimental Study of DRAM Disturbance Errors,” in ISCA, 2014}}
-    * {{https://​ieeexplore.ieee.org/​document/​8494868|A. Barenghiet al., “Software-Only Reverse Engineering of Physical DRAM Mappings for RowHammer Attacks,” inIVSW, 2018}}+    * {{barenghi2018softwareonly.pdf|A. Barenghiet al., “Software-Only Reverse Engineering of Physical DRAM Mappings for RowHammer Attacks,” inIVSW, 2018}}
     * {{https://​download.vusec.net/​papers/​eccploit_sp19.pdf|L. Cojocaret al., “Exploiting Correcting Codes: On the Effectiveness of ECC Memory Against Rowhammer Attacks,” in S&P, 2019}}     * {{https://​download.vusec.net/​papers/​eccploit_sp19.pdf|L. Cojocaret al., “Exploiting Correcting Codes: On the Effectiveness of ECC Memory Against Rowhammer Attacks,” in S&P, 2019}}
     * {{https://​www.blackhat.com/​docs/​us-15/​materials/​us-15-Seaborn-Exploiting-The-DRAM-Rowhammer-Bug-To-Gain-Kernel-Privileges.pdf|M. Seaborn and T. Dullien, “Exploiting the DRAM Rowhammer Bug to Gain Kernel Privileges,​” in Black Hat      * {{https://​www.blackhat.com/​docs/​us-15/​materials/​us-15-Seaborn-Exploiting-The-DRAM-Rowhammer-Bug-To-Gain-Kernel-Privileges.pdf|M. Seaborn and T. Dullien, “Exploiting the DRAM Rowhammer Bug to Gain Kernel Privileges,​” in Black Hat 
 USA, 2015}} USA, 2015}}
     * {{http://​www.seclab.cs.stonybrook.edu/​seclab/​pubs/​host16.pdf|R. Qiao and M. Seaborn, “A New Approach for Rowhammer Attacks,​”in HOST, 2016}}     * {{http://​www.seclab.cs.stonybrook.edu/​seclab/​pubs/​host16.pdf|R. Qiao and M. Seaborn, “A New Approach for Rowhammer Attacks,​”in HOST, 2016}}
 +    * {{https://​gruss.cc/​files/​flipinthewall.pdf|D. Gruss et al., “Another Flip in the Wall of Rowhammer Defenses,​” in IEEE S&P, 2018}}
 +    * {{https://​www.usenix.org/​system/​files/​conference/​usenixsecurity16/​sec16_paper_razavi.pdf|K. Razavi et al., “Flip Feng Shui: Hammering a Needle in the SoftwareStack,​” in USENIX Security, 2016}}
 +    * {{khan2018analysis.pdf|Mohammad Khan and Swaroop Ghosh. "​Analysis of Row Hammer Attack on STTRAM,"​ in ICCD, 2018.}}
 +
 +===== Lecture 10 (19.11 Thu.) =====
 +=== Suggested (lecture 10.a): ===
 +  * {{dpuf_sutar.pdf|S. Sutar, A. Raha, D. Kulkarni, R. Shorey, J. Tew, and V. Raghunathan,​ “D-PUF: An Intrinsically Reconfigurable DRAM PUF for Device Authentication and Random Number Generation,​” TECS, 2018.}}
 +  * {{deterministic_encryption.pdf|M. Bellare, R. Dowsley, and S. Keelveedhi, "How Secure is Deterministic Encryption?"​ IACR International Workshop on Public Key Cryptography,​ 2015.}}
 +  * {{tehranipoor_robust_TRNG.pdf|F. Tehranipoor,​ W. Yan, and J. A. Chandy, “Robust Hardware True Random Number Generators using DRAM Remanence Effects,” HOST, 2016.}}
 +  * {{keller_trng.pdf|C. Keller, F. Gurkaynak, H. Kaeslin, and N. Felber, “Dynamic Memory-based
 +Physically Unclonable Function for the Generation of Unique Identifiers and
 +True Random Numbers,” ISCAS, 2014.}}
 +
 +=== Suggested (lecture 10.b): ===
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​rowclone_micro13.pdf| V. Seshadri, Y. Kim, C. Fallin, D. Lee, R. Ausavarungnirun,​ G. Pekhimenko, Y. Luo, O. Mutlu, M.A. Kozuch, P.B. Gibbons, T.C. Mowry, "​RowClone:​ Fast and Energy-Efficient In-DRAM Bulk Data Copy and Initialization,"​ MICRO, 2013.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​ambit-bulk-bitwise-dram_micro17.pdf| V. Seshadri, D. Lee, T. Mullins, H. Hassan, A. Boroumand, J. Kim, M.A. Kozuch, O. Mutlu, P.B. Gibbons, T.C. Mowry, “Ambit: In-Memory Accelerator for Bulk Bitwise Operations Using Commodity DRAM Technology,​” MICRO, 2017.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​Google-consumer-workloads-data-movement-and-PIM_asplos18.pdf| A. Boroumand, S. Ghose, Y. Kim, R. Ausavarungnirun,​ E. Shiu, R. Thakur, D. Kim, A. Kuusela, A. Knies, P. Ranganathan,​ and O. Mutlu, "​Google Workloads for Consumer Devices: Mitigating Data Movement Bottlenecks,​” ASPLOS, 2018.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​processing-in-memory_workload-driven-perspective_IBMjrd19.pdf|S. Ghose, A. Boroumand, J. S. Kim, J. Gomez-Luna, and O. Mutlu, "​Processing-in-Memory:​ A Workload-Driven Perspective,"​ IBM Journal of Research & Development,​ 2019}} ​
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​softMC_hpca17.pdf|H. Hassan, N. Vijaykumar, S. Khan, S. Ghose, K. Chang, G. Pekhimenko, D. Lee, O. Ergin, O. Mutlu, "​SoftMC:​ A Flexible and Practical Open-Source Infrastructure for Enabling Experimental DRAM Studies,"​ HPCA 2017}}
 +  * {{https://​users.ece.cmu.edu/​~omutlu/​pub/​lisa-dram_hpca16.pdf|K. K. Chang, P. J. Nair, S. Ghose, D. Lee, M. K. Qureshi, O. Mutlu, "​Low-Cost Inter-Linked Subarrays (LISA): Enabling Fast Inter-Subarray Data Movement in DRAM," HPCA 2016}}
 +  * {{dac19-aligns.pdf|S. Angizi, J. Sun, W. Zhang, D. Fan, "​AlignS:​ A processing-in-memory accelerator for DNA short read alignment leveraging SOT-MRAM,"​ DAC 2019}}
 +  * {{isca19-duality.pdf|D. Fujiki, S. Mahlke, R. Das, "​Duality cache for data parallel acceleration,"​ ISCA 2019}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​salp-dram_isca12.pdf| Yoongu Kim, Vivek Seshadri, Donghyuk Lee, Jamie Liu, and Onur Mutlu, "A Case for Exploiting Subarray-Level Parallelism (SALP) in DRAM," ISCA 2012}}
 +  * {{micro17-drisa.pdf| S. Li, D. Niu, K.T. Malladi, H. Zheng, B. Brennan, Y. Xie, "​Drisa:​ A dram-based reconfigurable in-situ accelerator,"​ MICRO 2017}}
 +  * {{dac18-dracc.pdf| Q. Deng, L. Jiang, Y. Zhang, M. Zhang, J. Yang, "​DrAcc:​ a DRAM based accelerator for accurate CNN inference,"​ DAC 2018}}
 +
 +
 +===== Lecture 12 (03.12 Thu.) =====
 +=== Suggested (lecture 12.a): ===
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​dram-row-hammer_isca14.pdf|Y. Kim, R. Daly, J. Kim, C. Fallin, J.H. Lee, D. Lee, C. Wilkerson, K. Lai, O. Mutlu, "​Flipping Bits in Memory Without Accessing Them: An Experimental Study of DRAM Disturbance Errors,"​ ISCA 2014}}
 +  * {{https://​arxiv.org/​pdf/​1904.09724.pdf|O. Mutlu, J. S. Kim, RowHammer: A Retrospective,"​ arXiv, 2019}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​Revisiting-RowHammer_isca20.pdf|Jeremie S. Kim, Minesh Patel, A. Giray Yaglikci, Hasan Hassan,​Roknoddin Azizi, Lois Orosa, and Onur Mutlu,"​Revisiting RowHammer: An Experimental Analysis of Modern Devices and Mitigation Techniques",​ ISCA, 2020.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​rowhammer-TRRespass_ieee_security_privacy20.pdf | Pietro Frigo, Emanuele Vannacci, Hasan Hassan, Victor van der Veen, Onur Mutlu, Cristiano Giuffrida, Herbert Bos, and Kaveh Razavi, "​TRRespass:​ Exploiting the Many Sides of Target Row Refresh",​ Proceedings of the 41st IEEE Symposium on Security and. Privacy (S&P), 2020}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​raidr-dram-refresh_isca12.pdf | J. Liu, B. Jaiyen, R. Veras, and O. Mutlu. "​RAIDR:​ Retention-aware intelligent DRAM refresh.",​ in ACM SIGARCH, 2012}}
 +  * {{https://​download.vusec.net/​papers/​eccploit_sp19.pdf|L. Cojocaret al., “Exploiting Correcting Codes: On the Effectiveness of ECC Memory Against Rowhammer Attacks,” in S&P, 2019}}
 +  * {{https://​www.blackhat.com/​docs/​us-15/​materials/​us-15-Seaborn-Exploiting-The-DRAM-Rowhammer-Bug-To-Gain-Kernel-Privileges.pdf|M. Seaborn and T. Dullien, “Exploiting the DRAM Rowhammer Bug to Gain Kernel Privileges,​” in Black Hat 
 +USA, 2015}}
 +  * {{https://​gruss.cc/​files/​flipinthewall.pdf|D. Gruss et al., “Another Flip in the Wall of Rowhammer Defenses,​” in IEEE S&P, 2018}}
 +
 +=== Suggested (lecture 12.b): ===
 +  * {{ https://​www.usenix.org/​legacy/​events/​leet08/​tech/​full_papers/​king/​king.pdf | S. T. King, et al. “Designing and implementing malicious hardware”,​ in LEET 2008 }}
 +  * {{ liu2013.pdf | Yu Liu, Yier Jin and Yiorgos Makris. "​Hardware Trojans in Wireless Cryptographic ICs: Silicon Demonstration & Detection Method Evaluation",​ in ICCAD 2013 }}
 +  * {{ trippel2020.pdf | Trippel, T., Shin, K.G., Bush, K.B. and Hicks, M., 2020, May. "ICAS: an Extensible Framework for Estimating the Susceptibility of IC Layouts to Additive Trojans",​ in IEEE SP, 2020}}
 +  * {{ https://​arxiv.org/​pdf/​1906.08842 | Trippel, Timothy, Kang G. Shin, Kevin B. Bush, and Matthew Hicks. "​T-TER:​ Defeating A2 Trojans with Targeted Tamper-Evident Routing",​ arXiv preprint, 2019}}
 +
 +
 +===== Lecture 13 (10.12 Thu.) =====
 +=== Suggested (lecture 13.a): ===
 +  * {{ https://​people.inf.ethz.ch/​omutlu/​pub/​shouji-genome-prealignment-filter_bionformatics19.pdf| Mohammed Alser, Hasan Hassan, Akash Kumar, Onur Mutlu, and Can Alkan, "​Shouji:​ A Fast and Efficient Pre-Alignment Filter for Sequence Alignment",​ Bioinformatics,​ 2019.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​gatekeeper_FPGA-genome-prealignment-accelerator_bionformatics17.pdf | Mohammed Alser, Hasan Hassan, Hongyi Xin, Oguz Ergin, Onur Mutlu, and Can Alkan, "​GateKeeper:​ A New Hardware Architecture for Accelerating Pre-Alignment in DNA Short Read Mapping",​ Bioinformatics,​ 2017.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​SneakySnake_UniversalGenomePrealignmentFilter_bioinformatics20.pdf | Mohammed Alser, Taha Shahroodi, Juan-Gomez Luna, Can Alkan, and Onur Mutlu,"​SneakySnake:​ A Fast and Accurate Universal Genome Pre-Alignment Filter for CPUs, GPUs, and FPGAs"
 +Bioinformatics,​ to appear in 2020.}}
 +  * {{ https://​people.inf.ethz.ch/​omutlu/​pub/​AcceleratingGenomeAnalysis_ieeemicro20.pdf| Mohammed Alser, Zulal Bingol, Damla Senol Cali, Jeremie Kim, Saugata Ghose, Can Alkan, and Onur Mutlu,"​Accelerating Genome Analysis: A Primer on an Ongoing Journey"​
 +IEEE Micro (IEEE MICRO), Vol. 40, No. 5, pages 65-75, September/​October 2020.}}
 +  * {{https://​people.inf.ethz.ch/​omutlu/​pub/​GenASM-approximate-string-matching-framework-for-genome-analysis_micro20.pdf | Damla Senol Cali, Gurpreet S. Kalsi, Zulal Bingol, Can Firtina, Lavanya Subramanian,​ Jeremie S. Kim, Rachata Ausavarungnirun,​ Mohammed Alser, Juan Gomez-Luna, Amirali Boroumand, Anant Nori, Allison Scibisz, Sreenivas Subramoney, Can Alkan, Saugata Ghose, and Onur Mutlu, "​GenASM:​ A High-Performance,​ Low-Power Approximate String Matching Acceleration Framework for Genome Sequence Analysis",​ Proceedings of the 53rd International Symposium on Microarchitecture (MICRO), Virtual, October 2020.}}
 +  * {{https://​arxiv.org/​pdf/​1711.01177.pdf | Jeremie S. Kim, Damla Senol Cali, Hongyi Xin, Donghyuk Lee, Saugata Ghose, Mohammed Alser, Hasan Hassan, Oguz Ergin, Can Alkan, and Onur Mutlu,
 +"​GRIM-Filter:​ Fast Seed Location Filtering in DNA Read Mapping Using Processing-in-Memory Technologies"​
 +BMC Genomics, 2018.}}
 +
 +
readings.1605194808.txt.gz · Last modified: 2020/11/12 16:26 by yaglikca