User Tools

Site Tools


readings

Differences

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

Link to this comparison view

readings [2013/04/22 22:39]
yoonguk
readings [2013/04/29 16:53] (current)
yoonguk [Lecture 33 (4/29 Mon.)]
Line 330: Line 330:
  
 ===== Lecture 29 (4/15 Mon.) ===== ===== Lecture 29 (4/15 Mon.) =====
 +** Required: ** 
 +  * None 
 +** Mentioned during lecture: ** 
 +  * {{p176-baer.pdf|Baer, J.-L., & Chen, T.-F. (1991). An effective on-chip preloading scheme to reduce data access penalty. Proceedings of the 1991 ACM/IEEE conference on Supercomputing.}} 
 +  * {{jouppi_-_1990_-_improving_direct-mapped_cache_performance_by_the_addition_of_a_small_fully-associative_cache_and_prefetch_buffers.pdf|Jouppi, N. P. (1990). Improving direct-mapped cache performance by the addition of a small fully-associative cache and prefetch buffers. Proceedings of the 17th annual international symposium on Computer Architecture.}} 
 +  * {{mowry_lam_gupta_-_1992_-_design_and_evaluation_of_a_compiler_algorithm_for_prefetching.pdf|Mowry, T. C., Lam, M. S., & Gupta, A. (1992). Design and evaluation of a compiler algorithm for prefetching. Proceedings of the fifth international conference on Architectural support for programming languages and operating systems.}}
  
 ===== Lecture 30 (4/22 Mon.) ===== ===== Lecture 30 (4/22 Mon.) =====
 ** Required: ** ** Required: **
-  * Amdahl, G. M. (1967). Validity of the single processor approach to achieving large scale computing capabilities. Proceedings of the April 18-20, 1967, spring joint computer conference. +  * {{amdahl_-_1967_-_validity_of_the_single_processor_approach_to_achieving_large_scale_computing_capabilities.pdf|Amdahl, G. M. (1967). Validity of the single processor approach to achieving large scale computing capabilities. Proceedings of the April 18-20, 1967, spring joint computer conference.}} 
-  * Lamport, L. (1979). How to Make a Multiprocessor Computer That Correctly Executes Multiprocess Programs. +  * {{lamport_-_1979_-_how_to_make_a_multiprocessor_computer_that_correctly_executes_multiprocess_programs.pdf|Lamport, L. (1979). How to Make a Multiprocessor Computer That Correctly Executes Multiprocess Programs.}} 
-  * (CMU WebISO)[[http://www.ece.cmu.edu/ece447/cmu_only/culler-mesi.pdf|C&S, Chapters 5.1 & 5.3]]+  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/culler-mesi.pdf|C&S, Chapters 5.1 & 5.3]]
   * P&H, Chapter 5.8   * P&H, Chapter 5.8
 ** Recommended: ** ** Recommended: **
-  * {{Hill, Jouppi, Sohi. "Multiprocessors and Multicomputers," pp. 551-560 in Readings in Computer Architecture.}} +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/hill_309_314.pdf|Hill, Jouppi, Sohi. "Multiprocessors and Multicomputers," pp. 551-560 in Readings in Computer Architecture.]] 
-  * {{Hill, Jouppi, Sohi. "Dataflow and Multithreading," pp. 309-314 in Readings in Computer Architecture.}}+  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/hill_551_560.pdf|Hill, Jouppi, Sohi. "Dataflow and Multithreading," pp. 309-314 in Readings in Computer Architecture.]]
   * {{01447203.pdf|Flynn, M. J. (1966). Very high-speed computing systems. Proceedings of the IEEE.}}   * {{01447203.pdf|Flynn, M. J. (1966). Very high-speed computing systems. Proceedings of the IEEE.}}
-  * {{Papamarcos, M. S., & Patel, J. H. (1984). A low-overhead coherence solution for multiprocessors with private cache memories. Proceedings of the 11th annual international symposium on Computer architecture.}}+  * {{papamarcos_patel_-_1984_-_a_low-overhead_coherence_solution_for_multiprocessors_with_private_cache_memories.pdf|Papamarcos, M. S., & Patel, J. H. (1984). A low-overhead coherence solution for multiprocessors with private cache memories. Proceedings of the 11th annual international symposium on Computer architecture.}}
 ** Mentioned during lecture: ** ** Mentioned during lecture: **
   * {{p176-baer.pdf|Baer, J.-L., & Chen, T.-F. (1991). An effective on-chip preloading scheme to reduce data access penalty. Proceedings of the 1991 ACM/IEEE conference on Supercomputing.}}   * {{p176-baer.pdf|Baer, J.-L., & Chen, T.-F. (1991). An effective on-chip preloading scheme to reduce data access penalty. Proceedings of the 1991 ACM/IEEE conference on Supercomputing.}}
   * {{04147648.pdf|Srinath, S., Mutlu, O., Kim, H., & Patt, Y. N. (2007). Feedback Directed Prefetching: Improving the Performance and Bandwidth-Efficiency of Hardware Prefetchers. Proceedings of the 2007 IEEE 13th International Symposium on High Performance Computer Architecture.}}   * {{04147648.pdf|Srinath, S., Mutlu, O., Kim, H., & Patt, Y. N. (2007). Feedback Directed Prefetching: Improving the Performance and Bandwidth-Efficiency of Hardware Prefetchers. Proceedings of the 2007 IEEE 13th International Symposium on High Performance Computer Architecture.}}
-  * Joseph, D., & Grunwald, D. (1997). Prefetching using Markov predictors. Proceedings of the 24th annual international symposium on Computer architecture.+  * {{joseph_grunwald_-_1997_-_prefetching_using_markov_predictors.pdf|Joseph, D., & Grunwald, D. (1997). Prefetching using Markov predictors. Proceedings of the 24th annual international symposium on Computer architecture.}}
   * {{p279-cooksey.pdf|Cooksey, R., Jourdan, S., & Grunwald, D. (2002). A stateless, content-directed data prefetching mechanism. Proceedings of the 10th international conference on Architectural support for programming languages and operating systems.}}   * {{p279-cooksey.pdf|Cooksey, R., Jourdan, S., & Grunwald, D. (2002). A stateless, content-directed data prefetching mechanism. Proceedings of the 10th international conference on Architectural support for programming languages and operating systems.}}
   * {{04798232.pdf|Ebrahimi, E., Mutlu, O., & Patt, Y. N. (2009). Techniques for bandwidth-efficient prefetching of linked data structures in hybrid prefetching systems. High Performance Computer Architecture, 2009.}}   * {{04798232.pdf|Ebrahimi, E., Mutlu, O., & Patt, Y. N. (2009). Techniques for bandwidth-efficient prefetching of linked data structures in hybrid prefetching systems. High Performance Computer Architecture, 2009.}}
Line 355: Line 360:
   * {{mutlu_et_al._-_2003_-_runahead_execution_an_alternative_to_very_large_instruction_windows_for_out-of-order_processors.pdf|Mutlu, O., Stark, J., Wilkerson, C., & Patt, Y. N. (2003). Runahead Execution: An Alternative to Very Large Instruction Windows for Out-of-Order Processors. Proceedings of the 9th International Symposium on High-Performance Computer Architecture.}}   * {{mutlu_et_al._-_2003_-_runahead_execution_an_alternative_to_very_large_instruction_windows_for_out-of-order_processors.pdf|Mutlu, O., Stark, J., Wilkerson, C., & Patt, Y. N. (2003). Runahead Execution: An Alternative to Very Large Instruction Windows for Out-of-Order Processors. Proceedings of the 9th International Symposium on High-Performance Computer Architecture.}}
   * {{jouppi_-_1990_-_improving_direct-mapped_cache_performance_by_the_addition_of_a_small_fully-associative_cache_and_prefetch_buffers.pdf|Jouppi, N. P. (1990). Improving direct-mapped cache performance by the addition of a small fully-associative cache and prefetch buffers. Proceedings of the 17th annual international symposium on Computer Architecture.}}   * {{jouppi_-_1990_-_improving_direct-mapped_cache_performance_by_the_addition_of_a_small_fully-associative_cache_and_prefetch_buffers.pdf|Jouppi, N. P. (1990). Improving direct-mapped cache performance by the addition of a small fully-associative cache and prefetch buffers. Proceedings of the 17th annual international symposium on Computer Architecture.}}
 +
 +===== Lecture 31 (4/24 Wed.) =====
 +** Required: **
 +  * {{amdahl_-_1967_-_validity_of_the_single_processor_approach_to_achieving_large_scale_computing_capabilities.pdf|Amdahl, G. M. (1967). Validity of the single processor approach to achieving large scale computing capabilities. Proceedings of the April 18-20, 1967, spring joint computer conference.}}
 +  * {{lamport_-_1979_-_how_to_make_a_multiprocessor_computer_that_correctly_executes_multiprocess_programs.pdf|Lamport, L. (1979). How to Make a Multiprocessor Computer That Correctly Executes Multiprocess Programs.}}
 +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/culler-mesi.pdf|C&S, Chapters 5.1 & 5.3]]
 +  * P&H, Chapter 5.8
 +** Recommended: **
 +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/hill_309_314.pdf|Hill, Jouppi, Sohi. "Multiprocessors and Multicomputers," pp. 551-560 in Readings in Computer Architecture.]]
 +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/hill_551_560.pdf|Hill, Jouppi, Sohi. "Dataflow and Multithreading," pp. 309-314 in Readings in Computer Architecture.]]
 +  * {{01447203.pdf|Flynn, M. J. (1966). Very high-speed computing systems. Proceedings of the IEEE.}}
 +  * {{papamarcos_patel_-_1984_-_a_low-overhead_coherence_solution_for_multiprocessors_with_private_cache_memories.pdf|Papamarcos, M. S., & Patel, J. H. (1984). A low-overhead coherence solution for multiprocessors with private cache memories. Proceedings of the 11th annual international symposium on Computer architecture.}}
 +** Mentioned during lecture: **
 +  * [[http://www.cs.utexas.edu/users/EWD/transcriptions/EWD01xx/EWD123.html|Dijkstra (1965). Cooperating Sequential Proceeses.]]
 +  * {{p124-goodman.pdf|Goodman, J. R. (1983). Using cache memory to reduce processor-memory traffic. Proceedings of the 10th annual international symposium on Computer architecture (pp. 124–131)}}
 +  * {{01675013.pdf|Censier, L. M., & Feautrier, P. (1978). A New Solution to Coherence Problems in Multicache Systems. IEEE Trans. Comput.}}
 +
 +===== Lecture 32 (4/26 Fri.) =====
 +** Required: **
 +  * {{amdahl_-_1967_-_validity_of_the_single_processor_approach_to_achieving_large_scale_computing_capabilities.pdf|Amdahl, G. M. (1967). Validity of the single processor approach to achieving large scale computing capabilities. Proceedings of the April 18-20, 1967, spring joint computer conference.}}
 +  * {{lamport_-_1979_-_how_to_make_a_multiprocessor_computer_that_correctly_executes_multiprocess_programs.pdf|Lamport, L. (1979). How to Make a Multiprocessor Computer That Correctly Executes Multiprocess Programs.}}
 +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/culler-mesi.pdf|C&S, Chapters 5.1 & 5.3]]
 +  * P&H, Chapter 5.8
 +** Recommended: **
 +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/hill_309_314.pdf|Hill, Jouppi, Sohi. "Multiprocessors and Multicomputers," pp. 551-560 in Readings in Computer Architecture.]]
 +  * (CMU WebISO) [[http://www.ece.cmu.edu/~ece447/cmu_only/hill_551_560.pdf|Hill, Jouppi, Sohi. "Dataflow and Multithreading," pp. 309-314 in Readings in Computer Architecture.]]
 +  * {{01447203.pdf|Flynn, M. J. (1966). Very high-speed computing systems. Proceedings of the IEEE.}}
 +  * {{papamarcos_patel_-_1984_-_a_low-overhead_coherence_solution_for_multiprocessors_with_private_cache_memories.pdf|Papamarcos, M. S., & Patel, J. H. (1984). A low-overhead coherence solution for multiprocessors with private cache memories. Proceedings of the 11th annual international symposium on Computer architecture.}}
 +** Mentioned during lecture: **
 +  * {{p168-patel.pdf|Patel, J. H. (1979). Processor-memory interconnections for multiprocessors. Proceedings of the 6th annual symposium on Computer architecture.}}
 +  * {{p196-moscibroda.pdf|Moscibroda, T., & Mutlu, O. (2009). A case for bufferless routing in on-chip networks. Proceedings of the 36th annual international symposium on Computer architecture.}}
 +  * {{p27-gottlieb.pdf|Gottlieb, A., Grishman, R., Kruskal, C. P., McAuliffe, K. P., Rudolph, L., & Snir, M. (1982). The NYU Ultracomputer -- designing a MIMD, shared-memory parallel machine (Extended Abstract). Proceedings of the 9th annual symposium on Computer Architecture.}}
 +  * {{p22-seitz.pdf|Seitz, C. L. (1985). The cosmic cube. Commun. ACM.}}
 +  * {{p278-glass.pdf|Glass, C. J., & Ni, L. M. (1992). The turn model for adaptive routing. Proceedings of the 19th annual international symposium on Computer architecture.}}
 +
 +===== Lecture 33 (4/29 Mon.) =====
 +** Required: **
 +  * None
 +
 +** Mentioned during lecture: **
 +  * {{amdahl_-_1967_-_validity_of_the_single_processor_approach_to_achieving_large_scale_computing_capabilities.pdf|Amdahl, G. M. (1967). Validity of the single processor approach to achieving large scale computing capabilities. Proceedings of the April 18-20, 1967, spring joint computer conference.}}
 +  * {{grochowski_et_al._-_2004_-_best_of_both_latency_and_throughput.pdf|Grochowski, E., Ronen, R., Shen, J., & Wang, H. (2004). Best of Both Latency and Throughput. Proceedings of the IEEE International Conference on Computer Design (pp. 236–243).}}
 +  * {{tendler_et_al._-_2002_-_power4_system_microarchitecture.pdf|Tendler, J. M., Dodson, J. S., Fields, J. S., Le, H., & Sinharoy, B. (2002). POWER4 system microarchitecture. IBM J. Res. Dev.}}
 +  * {{01289290.pdf|Kalla, R., Sinharoy, B., & Tendler, J. M. (2004). IBM Power5 Chip: A Dual-Core Multithreaded Processor. IEEE Micro.}}
 +  * {{kongetira_aingaran_olukotun_-_2005_-_niagara_a_32-way_multithreaded_sparc_processor.pdf|Kongetira, P., Aingaran, K., & Olukotun, K. (2005). Niagara: A 32-Way Multithreaded Sparc Processor. IEEE Micro.}}
 +  * {{p253-suleman.pdf|Suleman, M. A., Mutlu, O., Qureshi, M. K., & Patt, Y. N. (2009). Accelerating critical section execution with asymmetric multi-core architectures. Proceedings of the 14th international conference on Architectural support for programming languages and operating systems.}}
 +  * {{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.}}
readings.1366684792.txt.gz · Last modified: 2013/04/22 22:39 by yoonguk