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Register coalescing techniques for heterogeneous register architecture with copy sifting

Published: 09 February 2009 Publication History

Abstract

Optimistic coalescing has been proven as an elegant and effective technique that provides better chances of safely coloring more registers in register allocation than other coalescing techniques. Its algorithm originally assumes homogeneous registers, which are all gathered in the same register file. Although this register architecture is still common in most general-purpose processors, embedded processors often contain heterogeneous registers, which are scattered in physically different register files dedicated for each dissimilar purpose and use. In this work, we show that optimistic coalescing is also useful for an embedded processor to better handle such heterogeneity of the register architecture, and developed a modified algorithm for optimal coalescing that helps a register allocator. In the experiment, an existing register allocator was able to achieve up to 13.0% reduction in code size through our coalescing, and avoid many spills that would have been generated without our scheme.

References

[1]
Ahn, M., Lee, J., Jung, S., Yoon, J. W., and Paek, Y. 2007. A code generation approach for Heterogeneous register architectures. In Proceedings of the 11th Annual Workshop on the Interaction between Compilers and Computer Architecture. IEEE, Los Alamitos, CA.
[2]
Araujo, G. and Malik, S. 1998. Code generation for fixed-point DSPs. ACM Trans. Des. Automat. Electr. Syst. (TODAES) 3, 2, 136--161.
[3]
Bergner, P. E. 1997. Spill Code Minimization Techniques for Graph Coloring Register Allocators. PhD thesis, Minnesota University, Minneapolis, Minnesota.
[4]
Briggs, P. 1992. Register allocation via graph coloring. PhD thesis, Rice University, Houston, TX.
[5]
Chaitin, G. J. 1982. Register allocation and spilling via graph coloring. In Proceedings of the SIGPLAN Symposium on Compiler Construction. ACM, New York, 98--105.
[6]
Daveau, J-M., Thery, T., Lepley, T., and Santana, M. 2004. A retargetable register allocation framework for embedded processors. In Proceedings of the ACM SIGPLAN/SIGBED Conference on Languages, Compilers, and Tools for Embedded Systems. ACM, New York, 202--210.
[7]
Feuerhahn, H. 1988. A data-flow driven resource allocation in a retargetable microcode compiler. In Proceedings of the 21th Annual Workshop on Microprogramming and Microarchitecture. IEEE, Los Alamitos, CA, 105--107.
[8]
George, L. and Appel, A. W. 1996. Iterated register coalescing. ACM Trans. Program. Lang. Syst. 18, 3, 300--324.
[9]
Koes, D. and Goldstein, S. C. 2005. A progressive register allocator for irregular architectures. In Proceedings of the International Symposium on Code Generation and Optimization. ACM, New York, 269--280.
[10]
Kong, T. and Wilken, K. D. 1998. Precise register allocation for irregular architectures. In Proceedings of the 31th Annual ACM/IEEE International Symposium on Microarchitecture. ACM, New York, 297--307.
[11]
Lee, C., Potkonjak M., and Mangione-Smith, W. H. 1997. MediaBench: a tool for evaluating and synthesizing multimedia and communications systems. In Proceedings of the 30th Annual ACM/IEEE International Symposium on Microarchitecture. IEEE, Los Alamitos, CA, 330--335.
[12]
Lee, J. K., Chen, S. Y., and Wu, C. J. 2006. Copy propagation optimizations for VLIW DSP processors with distributed register files. In Proceedings of the 19th International Workshop on Languages and Compilers for Parallel Computing (LCPC). Springer, Berlin, Germany.
[13]
Liem C., May T., and Paulin P. G. 1994. Register assignment through resource classification for ASIP microcode generation. In Proceedings of the IEEE/ACM International Conference on Computer-Aided Design. IEEE, Los Alamitos, CA, 397--402.
[14]
Park, J. and Moon, S-M. 2004. Optimistic register coalescing. ACM Trans. Program. Lang. Syst. 26, 4, 735--765.
[15]
Paulin P. G., Liem, C., May, T. C., and Sutarwala, S. 1995. DSP design tool requirements for embedded systems: a telecommunications industrial perspective. J. VLSI Signal Process. Syst. 9, 1-2, 23--47.
[16]
Stallman, R. M. 1994. Using and Porting GNU CC. Free Software Foundation, Cambridge, MA.
[17]
Scholz, B. and Eckstein, E. 2002. Register allocation for irregular architectures. In Proceedings of the Joint Conference on Languages, Compilers and Tools for Embedded Systems: Software and Compilers for Embedded Systems. ACM, New York, 139--148.
[18]
Smith, M. D., Ramsey N., and Ramsey G. 2004. A generalized algorithm for graph-coloring register allocation. In Proceedings of the ACM SIGPLAN Conference on Programming Language Design and Implementation. ACM, New York, 277--288.
[19]
Zivojnovic, V., Velarde, J. M., and Schlager, C. 1994. DSPstone: A DSP-oriented benchmarking methodology. In Proceedings of the International Conference on Signal Processing and Technology. IEEE, Los Alamitos, CA.
[20]
Zivojnovic, V., Pees, S., Schlager, C., Willems, M., Schoenen, R., and Meyr, H. 1996. DSP processor/compiler co-design: a quantitative approach. In Proceedings of the 9th International Symposium on System Synthesis. IEEE, Los Alamitos, CA,108.

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    Published In

    cover image ACM Transactions on Embedded Computing Systems
    ACM Transactions on Embedded Computing Systems  Volume 8, Issue 2
    January 2009
    243 pages
    ISSN:1539-9087
    EISSN:1558-3465
    DOI:10.1145/1457255
    Issue’s Table of Contents
    Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

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    Publication History

    Published: 09 February 2009
    Accepted: 01 July 2008
    Received: 01 October 2007
    Published in TECS Volume 8, Issue 2

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    Author Tags

    1. Register allocation
    2. compiler
    3. embedded processors
    4. heterogeneous register architecture
    5. register coalescing

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