source: doc/theses/thierry_delisle_PhD/comp_II/local.bib @ 2ad74d8

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationnew-astnew-ast-unique-exprpthread-emulationqualifiedEnum
Last change on this file since 2ad74d8 was c4fd4ef, checked in by Thierry Delisle <tdelisle@…>, 5 years ago

Pushing latest change to my compII

  • Property mode set to 100644
File size: 7.4 KB
Line 
1
2Scheduling Multithreaded Computations by Work Stealing
3
4% ===============================================================================
5% Work stealing examples
6% ===============================================================================
7
8% Cilk [4],
9@article{frigo1998implementation,
10  title={The implementation of the Cilk-5 multithreaded language},
11  author={Frigo, Matteo and Leiserson, Charles E and Randall, Keith H},
12  journal={ACM Sigplan Notices},
13  volume={33},
14  number={5},
15  pages={212--223},
16  year={1998},
17  publisher={ACM}
18}
19
20% Cilk-NOW
21@inproceedings{blumofe1997adaptive,
22  title={Adaptive and reliable parallel computing on networks of workstations},
23  author={Blumofe, Robert D and Lisiecki, Philip A and others},
24  booktitle={USENIX 1997 Annual Technical Conference on UNIX and Advanced Computing Systems},
25  pages={133--147},
26  year={1997}
27}
28
29% Intel Threading Building Blocks (TBB)
30@article{intelTBB,
31  title={Intel R Threading Building Blocks Documentation. Sept. 2013},
32  author={Intel, R},
33  journal={URL: https://www.threadingbuildingblocks.org/docs/help/index.htm}
34}
35
36% Java's Fork-join Framework
37@inproceedings{lea2000java,
38  title={A Java fork/join framework},
39  author={Lea, Doug},
40  booktitle={Proceedings of the ACM 2000 conference on Java Grande},
41  pages={36--43},
42  year={2000},
43  organization={ACM}
44}
45
46% Microsoft Task Parallel Library
47@article{leijen2009design,
48  title={The design of a task parallel library},
49  author={Leijen, Daan and Schulte, Wolfram and Burckhardt, Sebastian},
50  journal={Acm Sigplan Notices},
51  volume={44},
52  number={10},
53  pages={227--242},
54  year={2009},
55  publisher={ACM}
56}
57
58% StackThreads/MP
59@book{taura1999stackthreads,
60  title={Stackthreads/mp: integrating futures into calling standards},
61  author={Taura, Kenjiro and Tabata, Kunio and Yonezawa, Akinori},
62  volume={34},
63  number={8},
64  year={1999},
65  publisher={ACM}
66}
67
68@article{feldmann1993game,
69  title={Game tree search on massively parallel systems},
70  author={Feldmann, Rainer and Mysliwietz, P and Monien, B},
71  journal={Advances in Computer Chess},
72  volume={7},
73  year={1993},
74  publisher={Citeseer}
75}
76
77@article{finkel1987dib,
78  title={DIB—a distributed implementation of backtracking},
79  author={Finkel, Raphael and Manber, Udi},
80  journal={ACM Transactions on Programming Languages and Systems (TOPLAS)},
81  volume={9},
82  number={2},
83  pages={235--256},
84  year={1987},
85  publisher={ACM}
86}
87
88@phdthesis{halbherr1994mimd,
89  title={MIMD-style parallel programming based on continuation-passing threads},
90  author={Halbherr, Michael Roland Sven},
91  year={1994},
92  school={ETH Zurich}
93}
94
95@phdthesis{kuszmaul1994synchronized,
96  title={Synchronized MIMD computing},
97  author={Kuszmaul, Bradley Clair},
98  year={1994},
99  school={Massachusetts Institute of Technology}
100}
101
102@article{mohr1991lazy,
103  title={Lazy task creation: A technique for increasing the granularity of parallel programs},
104  author={Mohr, Eric and Kranz, David A and Halstead, Robert H},
105  journal={IEEE transactions on Parallel and Distributed Systems},
106  volume={2},
107  number={3},
108  pages={264--280},
109  year={1991},
110  publisher={IEEE}
111}
112
113@article{vandevoorde1988workcrews,
114  title={WorkCrews: An abstraction for controlling parallelism},
115  author={Vandevoorde, Mark T and Roberts, Eric S},
116  journal={International Journal of Parallel Programming},
117  volume={17},
118  number={4},
119  pages={347--366},
120  year={1988},
121  publisher={Springer}
122}
123
124
125% ===============================================================================
126% Work stealing examples
127% ===============================================================================
128
129%----------
130% discussion about best case and worst case for full computation
131% cited by 1720
132@article{blumofe1999scheduling,
133  title={Scheduling multithreaded computations by work stealing},
134  author={Blumofe, Robert D and Leiserson, Charles E},
135  journal={Journal of the ACM (JACM)},
136  volume={46},
137  number={5},
138  pages={720--748},
139  year={1999},
140  publisher={ACM}
141}
142
143%----------
144% executing process trees in parallel
145% mostly used with lazy evaluation and dependency graphs
146% cited by 267
147% cited by blumofe1999scheduling as first 'work-stealing idea'
148@inproceedings{burton1981executing,
149  title={Executing functional programs on a virtual tree of processors},
150  author={Burton, F Warren and Sleep, M Ronan},
151  booktitle={Proceedings of the 1981 conference on Functional programming languages and computer architecture},
152  pages={187--194},
153  year={1981},
154  organization={ACM}
155}
156
157
158%----------
159% work-stealing used for multilisp.
160% "unfair scheduling policy"
161% cited by 285
162% cited by blumofe1999scheduling as first 'work-stealing idea' implementation
163@inproceedings{halstead1984implementation,
164  title={Implementation of Multilisp: Lisp on a multiprocessor},
165  author={Halstead Jr, Robert H},
166  booktitle={Proceedings of the 1984 ACM Symposium on LISP and functional programming},
167  pages={9--17},
168  year={1984},
169  organization={ACM}
170}
171
172
173% ===============================================================================
174% HPC schedulers with bounds
175% ===============================================================================
176
177%----------
178% discussion about bounds
179% cited by blumofe1999scheduling
180% mentionned as not practical
181% CAN'T find it
182@article{burton1996guaranteeing,
183  title={Guaranteeing good memory bounds for parallel programs},
184  author={Burton, F Warren},
185  journal={IEEE Transactions on software engineering},
186  number={10},
187  pages={762--773},
188  year={1996},
189  publisher={IEEE}
190}
191
192%----------
193% discussion about bounds
194% cited by blumofe1999scheduling
195% mentionned as not practical
196% - from abstract
197% talks about implicit concurrency
198% does not work online or for something other than HPC
199@inproceedings{blelloch1995provably,
200  title={Provably efficient scheduling for languages with fine-grained parallelism},
201  author={Blelloch, Guy E and Gibbons, Phillip B and Matias, Yossi},
202  booktitle={Proceedings of the seventh annual ACM symposium on Parallel algorithms and architectures},
203  pages={1--12},
204  year={1995},
205  organization={ACM}
206}
207
208%----------
209% discussion about bounds
210% cited by blumofe1999scheduling
211% mentionned as not practical
212% - from abstract
213% talks about bound on total time and space
214% no concept of fairness or latency among tasks
215@inproceedings{blelloch1997space,
216  title={Space-efficient scheduling of parallelism with synchronization variables},
217  author={Blelloch, Guy E and Gibbons, Phillip B and Matias, Yossi and Narlikar, Girija J},
218  booktitle={Proceedings of the ninth annual ACM symposium on Parallel algorithms and architectures},
219  pages={12--23},
220  year={1997},
221  organization={ACM}
222}
223
224% ===============================================================================
225% MISC
226% ===============================================================================
227% Trevor's relaxed FIFO list
228@inproceedings{alistarh2018relaxed,
229  title={Relaxed schedulers can efficiently parallelize iterative algorithms},
230  author={Alistarh, Dan and Brown, Trevor and Kopinsky, Justin and Nadiradze, Giorgi},
231  booktitle={Proceedings of the 2018 ACM Symposium on Principles of Distributed Computing},
232  pages={377--386},
233  year={2018}
234}
235
236% Scalable counters which only support is !0
237@inproceedings{ellen2007snzi,
238  title={SNZI: Scalable nonzero indicators},
239  author={Ellen, Faith and Lev, Yossi and Luchangco, Victor and Moir, Mark},
240  booktitle={Proceedings of the twenty-sixth annual ACM symposium on Principles of distributed computing},
241  pages={13--22},
242  year={2007}
243}
Note: See TracBrowser for help on using the repository browser.