Industrial experience using rule-driven retargetable code generation for multimedia applications

Abstract: The increasing usage of application-specific instruction set processors (ASIPs) in audio and video telecommunications has made strong demands on the rapid availability of dedicated compilers. A rule-driven approach to code generation may have benefits over model-based approaches as the user is not confined to the capabilities supported by the model. However, the sole use of transformation rules may or may not be sufficient in optimization abilities depending on the target architecture. This paper outlines experiences with a rule-driven code generation approach for two applications in audio and video processing. The first is a controller for the VideoPhone codec at SGS-Thomson Microelectronics. The second is a VLIW (very large instruction word) processor for high-fidelity and MPEG audio at Thomson Consumer Electronic Components. The experience has shown that a rule-driven approach to compilation is applicable to both the controller and VLIW architectures; however, is limited in optimization abilities for the latter.

[1]  Yves Durand,et al.  A single chip videophone video encoder/decoder , 1995, Proceedings ISSCC '95 - International Solid-State Circuits Conference.

[2]  Pierre G. Paulin,et al.  DSP design tool requirements for embedded systems: A telecommunications industrial perspective , 1995, J. VLSI Signal Process..

[3]  Hugo De Man,et al.  Instruction set definition and instruction selection for ASIPs , 1994, Proceedings of 7th International Symposium on High-Level Synthesis.

[4]  T. C. May,et al.  Instruction-set matching and selection for DSP and ASIP code generation , 1994, Proceedings of European Design and Test Conference EDAC-ETC-EUROASIC.

[5]  Rainer Leupers,et al.  Retargetable assembly code generation by bootstrapping , 1994, Proceedings of 7th International Symposium on High-Level Synthesis.

[6]  Pierre G. Paulin,et al.  Flexware: A flexible firmware development environment for embedded systems , 1994, Code Generation for Embedded Processors.

[7]  Pierre G. Paulin,et al.  Register assignrnent through resource classification for ASIP microcode generation , 1994, IEEE/ACM International Conference on Computer-Aided Design.

[8]  Peter Marwedel,et al.  Tree-based mapping of algorithms to predefined structures , 1993, Proceedings of 1993 International Conference on Computer Aided Design (ICCAD).

[9]  Donatella Sciuto,et al.  A methodology for control-dominated systems codesign , 1994, Third International Workshop on Hardware/Software Codesign.

[10]  Donatella Sciuto,et al.  A methodology for control-dominated systems codesign , 1994, CODES '94.

[11]  L. Bergher,et al.  MPEG audio decoder for consumer applications , 1995, Proceedings of the IEEE 1995 Custom Integrated Circuits Conference.

[12]  Hugo De Man,et al.  Data routing: a paradigm for efficient data-path synthesis and code generation , 1994, Proceedings of 7th International Symposium on High-Level Synthesis.

[13]  R. Preston Gurd Experience developing microcode using a high level language , 1983, SIGM.