This shows you the differences between two versions of the page.
Both sides previous revision Previous revision | Next revision Both sides next revision | ||
readings [2015/02/05 17:09] rachata |
readings [2015/02/06 16:58] rachata |
||
---|---|---|---|
Line 107: | Line 107: | ||
* {{adaptive-latency-dram_hpca15.pdf|Donghyuk Lee, Yoongu Kim, Gennady Pekhimenko, Samira Khan, Vivek Seshadri, Kevin Chang, and Onur Mutlu, Adaptive-Latency DRAM: Optimizing DRAM Timing for the Common-Case, HPCA 2015.}} | * {{adaptive-latency-dram_hpca15.pdf|Donghyuk Lee, Yoongu Kim, Gennady Pekhimenko, Samira Khan, Vivek Seshadri, Kevin Chang, and Onur Mutlu, Adaptive-Latency DRAM: Optimizing DRAM Timing for the Common-Case, HPCA 2015.}} | ||
* {{compression-aware-cache-management_hpca15.pdf|Gennady Pekhimenko, Tyler Huberty, Rui Cai, Onur Mutlu, Phillip P. Gibbons, Michael A. Kozuch, and Todd C. Mowry, Exploiting Compressed Block Size as an Indicator of Future Reuse, HPCA 2015.}} | * {{compression-aware-cache-management_hpca15.pdf|Gennady Pekhimenko, Tyler Huberty, Rui Cai, Onur Mutlu, Phillip P. Gibbons, Michael A. Kozuch, and Todd C. Mowry, Exploiting Compressed Block Size as an Indicator of Future Reuse, HPCA 2015.}} | ||
+ | |||
+ | |||
+ | ===== Lecture 10 (2/6 Fri.) ===== | ||
+ | **Required:** | ||
+ | * P&H Sections 4.9-4.11 | ||
+ | * {{00476078.pdf|Smith, J. E., & Sohi, G. S. (1995). The microarchitecture of superscalar processors. Proceedings of the IEEE.}} | ||
+ | * {{00004607.pdf|Smith, J. E., & Pleszkun, A. R. (1988). Implementing precise interrupts in pipelined processors. Computers, IEEE Transactions on.}} | ||
+ | * {{mcfarling_-_1993_-_combining_branch_predictors.pdf|Mcfarling, S. (1993). Combining branch predictors. WRL Technical Note TN-36.}} | ||
+ | * {{kessler_-_1999_-_the_alpha_21264_microprocessor.pdf|Kessler, R. E. (1999). The Alpha 21264 Microprocessor. IEEE Micro.}} | ||
+ | |||
+ | **Mentioned in the Lecture:** | ||
+ | * {{p300-ball.pdf|Ball, T., & Larus, J. R. (1993). Branch prediction for free. Proceedings of the ACM SIGPLAN 1993 conference on Programming language design and implementation.}} | ||
+ | * {{p135-smith.pdf|Smith, J. E. (1981). A study of branch prediction strategies. Proceedings of the 8th annual symposium on Computer Architecture.}} | ||
+ | * {{yeh_patt_-_1991_-_two-level_adaptive_training_branch_prediction.pdf|Yeh, T.-Y., & Patt, Y. N. (1991). Two-level adaptive training branch prediction. Proceedings of the 24th annual international symposium on Microarchitecture.}} | ||
+ | * {{p22-chang.pdf|Chang, P.-Y., Hao, E., Yeh, T.-Y., & Patt, Y. (1994). Branch classification: a new mechanism for improving branch predictor performance. Proceedings of the 27th annual international symposium on Microarchitecture.}} | ||
+ | * {{hpca01.pdf|Daniel A. Jimenez and Calvin Lin. 2001. Dynamic Branch Prediction with Perceptrons. In Proceedings of the 7th International Symposium on High-Performance Computer Architecture (HPCA '01)}} | ||
+ | * {{Riseman.1972.TC.pdf|E. M. Riseman and C. C. Foster. 1972. The Inhibition of Potential Parallelism by Conditional Jumps. IEEE Trans. Comput. 21, 12 (December 1972)}} | ||
+ | * {{p274-chang.pdf|Po-Yung Chang, Eric Hao, and Yale N. Patt. 1997. Target prediction for indirect jumps. ISCA'97.}} | ||
+ | * {{kim_isca07.pdf|Hyesoon Kim, José A. Joao, Onur Mutlu, Chang Joo Lee, Yale N. Patt, and Robert Cohn. 2007. VPC prediction: reducing the cost of indirect branches via hardware-based dynamic devirtualization. ISCA'07}} | ||
+ | |||
+ |