GPU-CC : a reconfigurable GPU architecture with communicating cores

G.J.W. Braak, van den; H. Corporaal

doi:10.1145/2463596.2486153

GPU-CC : a reconfigurable GPU architecture with communicating cores

G.J.W. Braak, van den, H. Corporaal

Electronic Systems

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

2 Citations (Scopus)

Abstract

Us have evolved to programmable, energy efficient compute accelerators for massively parallel applications. Still, compute power is lost in many applications because of cycles spent on data movement and control instead of computations on actual data. Additional cycles can be lost as well on pipeline stalls due to long latency operations. To improve performance and energy efficiency, we introduce GPU-CC: a reconfigurable GPU architecture with communicating cores. It is based on a contemporary GPU, which can still be used as such, but also has the ability to reorganize the cores of a GPU in a reconfigurable network. In GPU-CC data movement and control is implicit in the configuration of the communication network. Additionally each core executes a fixed instruction, reducing instruction decode count and increasing energy efficiency. We show a large performance potential for GPU-CC, e.g. 1.9x and 2.4x for a 3x3 and 5x5 convolution application. The hardware cost of GPU-CC is mainly determined by the buffers in the added network, which amounts to 12.4% of extra memory space.

Original language	English
Title of host publication	Proceedings of the 16th Internation Workshop on Software and Compilers for Embedded systems 2013 (M-SCOPES "13), 19-21 June 2013, St. Goar, Germany
Place of Publication	New York
Publisher	Association for Computing Machinery, Inc
Pages	86-89
ISBN (Print)	978-1-14503-2152-6
DOIs	https://doi.org/10.1145/2463596.2486153
Publication status	Published - 2013
Event	16th International Workshop on Software and Compilers for Embedded Systems (SCOPES 2013) - St. Goar, Germany Duration: 19 Jun 2013 → 21 Jun 2013

Conference

Conference	16th International Workshop on Software and Compilers for Embedded Systems (SCOPES 2013)
Abbreviated title	SCOPES 2013
Country/Territory	Germany
City	St. Goar
Period	19/06/13 → 21/06/13
Other	The workshop on Software and Compilers for Embedded Systems (SCOPES) and the workshop on Mapping of Applications to MPSoCs (Map2MPSoC) will organize a joint M-SCOPES workshop in 2013

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1145/2463596.2486153

Cite this

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title = "GPU-CC : a reconfigurable GPU architecture with communicating cores",

abstract = "Us have evolved to programmable, energy efficient compute accelerators for massively parallel applications. Still, compute power is lost in many applications because of cycles spent on data movement and control instead of computations on actual data. Additional cycles can be lost as well on pipeline stalls due to long latency operations. To improve performance and energy efficiency, we introduce GPU-CC: a reconfigurable GPU architecture with communicating cores. It is based on a contemporary GPU, which can still be used as such, but also has the ability to reorganize the cores of a GPU in a reconfigurable network. In GPU-CC data movement and control is implicit in the configuration of the communication network. Additionally each core executes a fixed instruction, reducing instruction decode count and increasing energy efficiency. We show a large performance potential for GPU-CC, e.g. 1.9x and 2.4x for a 3x3 and 5x5 convolution application. The hardware cost of GPU-CC is mainly determined by the buffers in the added network, which amounts to 12.4% of extra memory space.",

author = "{Braak, van den}, G.J.W. and H. Corporaal",

year = "2013",

doi = "10.1145/2463596.2486153",

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publisher = "Association for Computing Machinery, Inc",

address = "United States",

note = "16th International Workshop on Software and Compilers for Embedded Systems (SCOPES 2013), SCOPES 2013 ; Conference date: 19-06-2013 Through 21-06-2013",

}

Braak, van den, GJW & Corporaal, H 2013, GPU-CC : a reconfigurable GPU architecture with communicating cores. in Proceedings of the 16th Internation Workshop on Software and Compilers for Embedded systems 2013 (M-SCOPES "13), 19-21 June 2013, St. Goar, Germany. Association for Computing Machinery, Inc, New York, pp. 86-89, 16th International Workshop on Software and Compilers for Embedded Systems (SCOPES 2013), St. Goar, Germany, 19/06/13. https://doi.org/10.1145/2463596.2486153

GPU-CC : a reconfigurable GPU architecture with communicating cores. / Braak, van den, G.J.W.; Corporaal, H.
Proceedings of the 16th Internation Workshop on Software and Compilers for Embedded systems 2013 (M-SCOPES "13), 19-21 June 2013, St. Goar, Germany. New York: Association for Computing Machinery, Inc, 2013. p. 86-89.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - GPU-CC : a reconfigurable GPU architecture with communicating cores

AU - Braak, van den, G.J.W.

AU - Corporaal, H.

PY - 2013

Y1 - 2013

N2 - Us have evolved to programmable, energy efficient compute accelerators for massively parallel applications. Still, compute power is lost in many applications because of cycles spent on data movement and control instead of computations on actual data. Additional cycles can be lost as well on pipeline stalls due to long latency operations. To improve performance and energy efficiency, we introduce GPU-CC: a reconfigurable GPU architecture with communicating cores. It is based on a contemporary GPU, which can still be used as such, but also has the ability to reorganize the cores of a GPU in a reconfigurable network. In GPU-CC data movement and control is implicit in the configuration of the communication network. Additionally each core executes a fixed instruction, reducing instruction decode count and increasing energy efficiency. We show a large performance potential for GPU-CC, e.g. 1.9x and 2.4x for a 3x3 and 5x5 convolution application. The hardware cost of GPU-CC is mainly determined by the buffers in the added network, which amounts to 12.4% of extra memory space.

AB - Us have evolved to programmable, energy efficient compute accelerators for massively parallel applications. Still, compute power is lost in many applications because of cycles spent on data movement and control instead of computations on actual data. Additional cycles can be lost as well on pipeline stalls due to long latency operations. To improve performance and energy efficiency, we introduce GPU-CC: a reconfigurable GPU architecture with communicating cores. It is based on a contemporary GPU, which can still be used as such, but also has the ability to reorganize the cores of a GPU in a reconfigurable network. In GPU-CC data movement and control is implicit in the configuration of the communication network. Additionally each core executes a fixed instruction, reducing instruction decode count and increasing energy efficiency. We show a large performance potential for GPU-CC, e.g. 1.9x and 2.4x for a 3x3 and 5x5 convolution application. The hardware cost of GPU-CC is mainly determined by the buffers in the added network, which amounts to 12.4% of extra memory space.

U2 - 10.1145/2463596.2486153

DO - 10.1145/2463596.2486153

M3 - Conference contribution

SN - 978-1-14503-2152-6

SP - 86

EP - 89

BT - Proceedings of the 16th Internation Workshop on Software and Compilers for Embedded systems 2013 (M-SCOPES "13), 19-21 June 2013, St. Goar, Germany

PB - Association for Computing Machinery, Inc

CY - New York

T2 - 16th International Workshop on Software and Compilers for Embedded Systems (SCOPES 2013)

Y2 - 19 June 2013 through 21 June 2013

ER -

GPU-CC : a reconfigurable GPU architecture with communicating cores

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UN SDGs

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