Optimal data scheduling for uniform multidimensional applications

Qingyan Wang; Nelson Luiz Passos; Edwin Hsing Mean Sha

doi:10.1109/12.545974

Optimal data scheduling for uniform multidimensional applications

Qingyan Wang^*
, Nelson Luiz Passos
, Edwin Hsing Mean Sha

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Uniform nested loops are broadly used in scientific and multidimensional digital signal processing applications. Due to the amount of data handled by such applications, on-chip memory is required to improve the data access and overall system performance. In this study a static data scheduling method, carrot-hole data scheduling, is proposed for multidimensional applications, in order to control the data traffic between different levels of memory. Based on this data schedule, optimal partitioning and scheduling are selected. Experiments show that by using this technique, on-chip memory misses are significantly reduced as compared to results obtained from traditional methods. The carrot-hole data scheduling method is proven to obtain smallest on-chip memory misses compared with other linear scheduling and partitioning schemes.

Original language	English
Pages (from-to)	1439-1444
Number of pages	6
Journal	IEEE Transactions on Computers
Volume	45
Issue number	12
DOIs	https://doi.org/10.1109/12.545974
State	Published - 1996
Externally published	Yes

Keywords

Data scheduling
Digital signal processing
Execution scheduling
Memory hierarchy
Memory management
Multidimensional application
Nested loops
Partitioning

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10.1109/12.545974

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title = "Optimal data scheduling for uniform multidimensional applications",

abstract = "Uniform nested loops are broadly used in scientific and multidimensional digital signal processing applications. Due to the amount of data handled by such applications, on-chip memory is required to improve the data access and overall system performance. In this study a static data scheduling method, carrot-hole data scheduling, is proposed for multidimensional applications, in order to control the data traffic between different levels of memory. Based on this data schedule, optimal partitioning and scheduling are selected. Experiments show that by using this technique, on-chip memory misses are significantly reduced as compared to results obtained from traditional methods. The carrot-hole data scheduling method is proven to obtain smallest on-chip memory misses compared with other linear scheduling and partitioning schemes.",

keywords = "Data scheduling, Digital signal processing, Execution scheduling, Memory hierarchy, Memory management, Multidimensional application, Nested loops, Partitioning",

author = "Qingyan Wang and Passos, \{Nelson Luiz\} and Sha, \{Edwin Hsing Mean\}",

year = "1996",

doi = "10.1109/12.545974",

language = "英语",

volume = "45",

pages = "1439--1444",

journal = "IEEE Transactions on Computers",

issn = "0018-9340",

publisher = "IEEE Computer Society",

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TY - JOUR

T1 - Optimal data scheduling for uniform multidimensional applications

AU - Wang, Qingyan

AU - Passos, Nelson Luiz

AU - Sha, Edwin Hsing Mean

PY - 1996

Y1 - 1996

N2 - Uniform nested loops are broadly used in scientific and multidimensional digital signal processing applications. Due to the amount of data handled by such applications, on-chip memory is required to improve the data access and overall system performance. In this study a static data scheduling method, carrot-hole data scheduling, is proposed for multidimensional applications, in order to control the data traffic between different levels of memory. Based on this data schedule, optimal partitioning and scheduling are selected. Experiments show that by using this technique, on-chip memory misses are significantly reduced as compared to results obtained from traditional methods. The carrot-hole data scheduling method is proven to obtain smallest on-chip memory misses compared with other linear scheduling and partitioning schemes.

AB - Uniform nested loops are broadly used in scientific and multidimensional digital signal processing applications. Due to the amount of data handled by such applications, on-chip memory is required to improve the data access and overall system performance. In this study a static data scheduling method, carrot-hole data scheduling, is proposed for multidimensional applications, in order to control the data traffic between different levels of memory. Based on this data schedule, optimal partitioning and scheduling are selected. Experiments show that by using this technique, on-chip memory misses are significantly reduced as compared to results obtained from traditional methods. The carrot-hole data scheduling method is proven to obtain smallest on-chip memory misses compared with other linear scheduling and partitioning schemes.

KW - Data scheduling

KW - Digital signal processing

KW - Execution scheduling

KW - Memory hierarchy

KW - Memory management

KW - Multidimensional application

KW - Nested loops

KW - Partitioning

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DO - 10.1109/12.545974

M3 - 文章

AN - SCOPUS:33746969992

SN - 0018-9340

VL - 45

SP - 1439

EP - 1444

JO - IEEE Transactions on Computers

JF - IEEE Transactions on Computers

IS - 12

ER -

Optimal data scheduling for uniform multidimensional applications

Abstract

Keywords

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