Publication detail

Architecture-Dependent Algorithm Optimization for VLIW Digital Signal Processor

SMÉKAL, Z., SYSEL, P.

Original Title

Architecture-Dependent Algorithm Optimization for VLIW Digital Signal Processor

English Title

Architecture-Dependent Algorithm Optimization for VLIW Digital Signal Processor

Type

conference paper

Language

en

Original Abstract

The paper summarizes the present authors’ experience obtained in optimum design of algorithms for digital signal processors with VLIW (Very Long Instruction Word) architecture. Using this new approach it was, for example, possible to optimize compilation from the C language into the assembler of TMS320C6414 (Texas Instruments) digital signal processor for type GSM encoder and to speed up the processing about 25 times. The method consists in a closer linkage between the theory of digital signal processing, software tools and hardware.

English abstract

The paper summarizes the present authors’ experience obtained in optimum design of algorithms for digital signal processors with VLIW (Very Long Instruction Word) architecture. Using this new approach it was, for example, possible to optimize compilation from the C language into the assembler of TMS320C6414 (Texas Instruments) digital signal processor for type GSM encoder and to speed up the processing about 25 times. The method consists in a closer linkage between the theory of digital signal processing, software tools and hardware.

RIV year

2003

Released

31.07.2003

Location

Ilmenau

ISBN

1619-4098

Book

The 48th International Scientific Colloquium IWK'2003

Edition

Neuveden

Edition number

první

Pages from

143

Pages to

144

Pages count

2

BibTex


@inproceedings{BUT8145,
  author="Zdeněk {Smékal} and Petr {Sysel}",
  title="Architecture-Dependent Algorithm Optimization for VLIW Digital Signal Processor",
  annote="The paper summarizes the present authors’ experience obtained in optimum design of algorithms for digital signal processors with VLIW (Very Long Instruction Word) architecture. Using this new approach it was, for example, possible to optimize compilation from the C language into the assembler of TMS320C6414 (Texas Instruments) digital signal processor for type GSM encoder and to speed up the processing about 25 times. The method consists in a closer linkage between the theory of digital signal processing, software tools and hardware.",
  booktitle="The 48th International Scientific Colloquium IWK'2003",
  chapter="8145",
  edition="Neuveden",
  year="2003",
  month="july",
  pages="143",
  type="conference paper"
}