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Register allocation & spilling via graph coloring

Author:

G. J. ChaitinAuthors Info & Claims

ACM SIGPLAN Notices, Volume 17, Issue 6

Pages 98 - 101

https://doi.org/10.1145/872726.806984

Published: 01 June 1982 Publication History

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Abstract

In a previous paper we reported the successful use of graph coloring techniques for doing global register allocation in an experimental PL/I optimizing compiler. When the compiler cannot color the register conflict graph with a number of colors equal to the number of available machine registers, it must add code to spill and reload registers to and from storage. Previously the compiler produced spill code whose quality sometimes left much to be desired, and the ad hoe techniques used took considerable amounts of compile time. We have now discovered how to extend the graph coloring approach so that it naturally solves the spilling problem. Spill decisions are now made on the basis of the register conflict graph and cost estimates of the value of keeping the result of a computation in a register rather than in storage. This new approach produces better object code and takes much less compile time.

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"Register allocation via coloring," G.J. Chaitin, M.A. Auslander, A.K. Chandra, J. Cocke, M.E. Hopkins, P.W. Markstein, Computer Languages 6 (1981), pp. 47-57.

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Index Terms

Register allocation & spilling via graph coloring
1. Software and its engineering
  1. Software notations and tools
    1. Compilers

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Information

Published In

ACM SIGPLAN Notices Volume 17, Issue 6

Proceedings of the 1982 SIGPLAN symposium on Compiler construction

June 1982

347 pages

ISSN:0362-1340

EISSN:1558-1160

DOI:10.1145/872726

Issue’s Table of Contents

SIGPLAN '82: Proceedings of the 1982 SIGPLAN symposium on Compiler construction
June 1982
357 pages
ISBN:0897910745
DOI:10.1145/800230
Chairmen:
John R. White,
Frances E. Allen

Publisher

Association for Computing Machinery

New York, NY, United States

Publication History

Published: 01 June 1982

Published in SIGPLAN Volume 17, Issue 6

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Chen YChen MHuang CTu CJacob DKjolstad F(2024)Accelerate RISC-V Instruction Set Simulation by Tiered JIT CompilationProceedings of the 16th ACM SIGPLAN International Workshop on Virtual Machines and Intermediate Languages10.1145/3689490.3690399(12-22)Online publication date: 17-Oct-2024
https://dl.acm.org/doi/10.1145/3689490.3690399
Zheng SChen XShi ZYan LXu K(2024)GPU Coroutines for Flexible Splitting and Scheduling of Rendering TasksACM Transactions on Graphics10.1145/368776643:6(1-24)Online publication date: 19-Dec-2024
https://dl.acm.org/doi/10.1145/3687766
Zhong LXiang CHuang HShen BMugnier EZhou Y(2024)Effective Bug Detection with Unused DefinitionsProceedings of the Nineteenth European Conference on Computer Systems10.1145/3627703.3629576(720-735)Online publication date: 22-Apr-2024
https://dl.acm.org/doi/10.1145/3627703.3629576
Fu QRolinger THuang HGrosser TDubach CSteuwer MXue JOttoni GQuintão Pereira F(2024)JITSPMM: Just-in-Time Instruction Generation for Accelerated Sparse Matrix-Matrix MultiplicationProceedings of the 2024 IEEE/ACM International Symposium on Code Generation and Optimization10.1109/CGO57630.2024.10444827(448-459)Online publication date: 2-Mar-2024
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Terci GAbdulhalik EBayrakci ABoz B(2024)BitEA: BitVertex Evolutionary Algorithm to Enhance Performance for Register AllocationIEEE Access10.1109/ACCESS.2024.344659612(115497-115514)Online publication date: 2024
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Register allocation and spilling via graph coloring