Generalized ILP scheduling and allocation for high-level DSP synthesis

Lori E. Lucke; Keshab K. Parhi

Generalized ILP scheduling and allocation for high-level DSP synthesis

Lori E. Lucke, Keshab K. Parhi

Electrical and Computer Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

9 Scopus citations

Abstract

Recently integer linear programming techniques have been proposed to solve the single iteration scheduling problem. In this paper, we generalize the integer linear programming formulation to support unfolded schedules. We present a new time assignment formulation which automatically pipelines and re-times the DFG. We present a new processor allocation formulation which automatically unfolds the DFG. Although unfolding was proposed before for reducing the iteration period, this paper, for the first time, proposes systematic unfolding for improving processor utilization in digital signal processing architectures. These models fully optimize the processor utilization for a specific iteration period.

Original language	English (US)
Title of host publication	Proceedings of the Custom Integrated Circuits Conference
Publisher	Publ by IEEE
Pages	5.4.1-5.4.4
ISBN (Print)	0780308263
State	Published - Jan 1 1993
Event	Proceedings of the IEEE 1993 Custom Integrated Circuits Conference - San Diego, CA, USA Duration: May 9 1993 → May 12 1993

Publication series

Name	Proceedings of the Custom Integrated Circuits Conference
ISSN (Print)	0886-5930

Other

Other	Proceedings of the IEEE 1993 Custom Integrated Circuits Conference
City	San Diego, CA, USA
Period	5/9/93 → 5/12/93

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title = "Generalized ILP scheduling and allocation for high-level DSP synthesis",

abstract = "Recently integer linear programming techniques have been proposed to solve the single iteration scheduling problem. In this paper, we generalize the integer linear programming formulation to support unfolded schedules. We present a new time assignment formulation which automatically pipelines and re-times the DFG. We present a new processor allocation formulation which automatically unfolds the DFG. Although unfolding was proposed before for reducing the iteration period, this paper, for the first time, proposes systematic unfolding for improving processor utilization in digital signal processing architectures. These models fully optimize the processor utilization for a specific iteration period.",

author = "Lucke, {Lori E.} and Parhi, {Keshab K.}",

year = "1993",

month = jan,

day = "1",

language = "English (US)",

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series = "Proceedings of the Custom Integrated Circuits Conference",

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pages = "5.4.1--5.4.4",

booktitle = "Proceedings of the Custom Integrated Circuits Conference",

note = "Proceedings of the IEEE 1993 Custom Integrated Circuits Conference ; Conference date: 09-05-1993 Through 12-05-1993",

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T1 - Generalized ILP scheduling and allocation for high-level DSP synthesis

AU - Lucke, Lori E.

AU - Parhi, Keshab K.

PY - 1993/1/1

Y1 - 1993/1/1

N2 - Recently integer linear programming techniques have been proposed to solve the single iteration scheduling problem. In this paper, we generalize the integer linear programming formulation to support unfolded schedules. We present a new time assignment formulation which automatically pipelines and re-times the DFG. We present a new processor allocation formulation which automatically unfolds the DFG. Although unfolding was proposed before for reducing the iteration period, this paper, for the first time, proposes systematic unfolding for improving processor utilization in digital signal processing architectures. These models fully optimize the processor utilization for a specific iteration period.

AB - Recently integer linear programming techniques have been proposed to solve the single iteration scheduling problem. In this paper, we generalize the integer linear programming formulation to support unfolded schedules. We present a new time assignment formulation which automatically pipelines and re-times the DFG. We present a new processor allocation formulation which automatically unfolds the DFG. Although unfolding was proposed before for reducing the iteration period, this paper, for the first time, proposes systematic unfolding for improving processor utilization in digital signal processing architectures. These models fully optimize the processor utilization for a specific iteration period.

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M3 - Conference contribution

AN - SCOPUS:0027228633

SN - 0780308263

T3 - Proceedings of the Custom Integrated Circuits Conference

SP - 5.4.1-5.4.4

BT - Proceedings of the Custom Integrated Circuits Conference

PB - Publ by IEEE

T2 - Proceedings of the IEEE 1993 Custom Integrated Circuits Conference

Y2 - 9 May 1993 through 12 May 1993

ER -

Generalized ILP scheduling and allocation for high-level DSP synthesis

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