Abstract
General-purpose computing is taking an irreversible step toward on-chip parallel architectures. One way to enhance the performance of chip multiprocessors is the use of thread-level speculation (TLS). Identifying the points where the speculative threads will be spawned becomes one of the critical issues of this kind of architectures. In this paper, a criterion for selecting the region to be speculatively executed is presented to identify potential sources of speculative parallelism in general-purpose programs. A dynamic profiling method has been provided to search a large space of TLS parallelization schemes and where parallelism was located within the application. We analyze key factors impacting speculative thread-level parallelism of SPEC CPU2000, evaluate whether a given application or parts of it are suitable for TLS technology, and study how to balance thread partition for efficiently exploiting speculative thread-level parallelism. It shows that the inter-thread data dependences are ubiquitous and the synchronization mechanism is necessary; Return value prediction and loop unrolling are important to improve performance. The information we got can be used to guide the thread partition of TLS.
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References
Asanovic, K., Bodik, R., et al.: The Landscape of Parallel Computing Research: A View from Berkeley. Technical Report, No.UCB/EECS-2006-183, UC Berkeley (2006)
Zhai, A., Colohan, C.B., Steffan, J.G., et al.: Compiler optimization of scalar value communication between speculative threads. In: ASPLOS-10, San Jose, California (2002)
S.W. Liao, et al.: SUIF Explorer: An Interactive and Interprocedural Parallelizer. In: PPoPP 1999 (1999)
Miller, B.P., et al.: The Paradyn Parallel Performance Measurement Tools. IEEE Computer 11, 37–46 (1995)
Sohi, G.S., Breach, S.E., Vijaykumar, T.N.: Multiscalar Processors. In: 22nd Annual International Symposium (1995)
Hammond, L., Willey, M., Olukotun, K.: Data Speculation Support for a Chip Multiprocessor. In: ASPLOS-VIII, San Jose, CA (1998)
Steffan, J.G., Mowry, T.: The potential for using thread-level data speculation to facilitate automatic parallelization. In: HPCA-4, Las Vegas, NV (1998)
Oplinger, J.T., Heine, D.L.: In Search of Speculative Thread-Level Parallelism. In: Malyshkin, V. (ed.) Parallel Computing Technologies. LNCS, vol. 1662, Springer, Heidelberg (1999)
Akkary, H., Driscoll, M.A.: A Dynamic Multithreading Processor. MICRO-31, Dallas, TX (1998)
Krishnan, V., et al.: Hardware and Software Support for Speculative Execution of Sequential Binaries on a Chip- Multiprocessor. In: Supercomputing 1998, Melbourne, Australia (1998)
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Wang, Y., An, H., Liang, B., Wang, L., Cong, M., Ren, Y. (2007). Balancing Thread Partition for Efficiently Exploiting Speculative Thread-Level Parallelism. In: Xu, M., Zhan, Y., Cao, J., Liu, Y. (eds) Advanced Parallel Processing Technologies. APPT 2007. Lecture Notes in Computer Science, vol 4847. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-76837-1_8
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DOI: https://doi.org/10.1007/978-3-540-76837-1_8
Publisher Name: Springer, Berlin, Heidelberg
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