環境適応における混合環境におけるプログラム配置最適化の検討

Yoji Yamato

doi:10.51094/jxiv.1188

##article.authors##

Yoji Yamato NTT Corporation

DOI:

https://doi.org/10.51094/jxiv.1188

Keywords:

Environment-Adaptive Software, Automatic Offloading, Quantum Computer, Mixed Environment, Hardware Selection

Abstract

In recent years, the number of applications using heterogeneous hardware such as FPGAs and GPUs has been increasing. However, to fully utilize them, an understanding of the hardware is necessary, which is a high barrier. Based on this background, we have proposed environment-adaptive software that automatically converts code written by programmers for normal CPUs according to the deployment environment, enabling high performance operation. This paper targets automatic offloading to appropriate hardware in a mixed environment that contains normal CPUs, multi-core CPUs, FPGAs, GPUs, and quantum computers. We confirm how much the performance of normal CPUs can be achieved with each hardware, and based on cost performance, we determine the appropriate hardware for offloading and perform automatic offloading. We confirm that the proposed method can automatically offload by measuring the processing time using actual heterogeneous hardware.

Y. Yamato, “Study of program placement optimization in mixed environments in environmental adaptation,” The 13th IIAE International Conference on Industrial Application Engineering 2025 (ICIAE 2025), Mar. 2025.

Conflicts of Interest Disclosure

The author declares no competing interest with this manuscript.

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References

A. Putnam, et al., "A reconfigurable fabric for accelerating large-scale datacenter services," Proceedings of the 41th Annual International Symposium on Computer Architecture (ISCA'14), pp.13-24, June 2014.

O. Sefraoui, et al., "OpenStack: toward an open-source solution for cloud computing," International Journal of Computer Applications, Vol.55, No.3, 2012.

Y. Yamato, "Automatic Verification for Plural Virtual Machines Patches," The 7th International Conference on Ubiquitous and Future Networks (ICUFN 2015), pp.837-838, July 2015.

Y. Yamato, "Optimum Application Deployment Technology for Heterogeneous IaaS Cloud," Journal of Information Processing, Vol.25, No.1, pp.56-58, 2017.

Y. Yamato, "Cloud Storage Application Area of HDD-SSD Hybrid Storage, Distributed Storage and HDD Storage," IEEJ Transactions on Electrical and Electronic Engineering, Vol.11, Issue.5, pp.674-675, DOI:10.1002/tee.22287, Sep. 2016.

Y. Yamato, et al., "Fast Restoration Method of Virtual Resources on OpenStack," IEEE Consumer Communications and Networking Conference (CCNC 2015), pp.607-608, Jan. 2015.

AWS EC2 web site, https://aws.amazon.com/ec2/instance-types/

M. Hermann, et al., "Design Principles for Industrie 4.0 Scenarios," Rechnische Universitat Dortmund. 2015.

H. Noguchi, et al., "Autonomous Device Identification Architecture for Internet of Things," 2018 IEEE 4th World Forum on Internet of Things (WF-IoT 2018), pp.407-411, Feb. 2018.

M. Takemoto, et al.,"Service-composition method and its implementation in service-provision architecture for ubiquitous computing environments," IPSJ Journal, Vol.46, No.2, pp.418-433, Feb. 2005.

H. Noguchi, et al., "Distributed Search Architecture for Object Tracking in the Internet of Things," IEEE Access, DOI: 10.1109/ACCESS.2018.2875734, 2018.

Y. Yamato, et al., "Ubiquitous Service Composition Technology for Ubiquitous Network Environments," IPSJ Journal, Vol.48, No.2, pp.562-577, Feb. 2007.

M. Takemoto, et al., "Service Elements and Service Templates for Adaptive Service Composition in a Ubiquitous Computing Environment," The 9th Asia-Pacific Conference on Communications (APCC 2003), Vol.1, pp.335-338, Sep. 2003.

Y. Yamato, et al., "Method of Service Template Generation on a Service Coordination Framework," 2nd International Symposium on Ubiquitous Computing Systems (UCS 2004), Nov. 2004.

Y. Yamato, et al., "Proposal of Real Time Predictive Maintenance Platform with 3D Printer for Business Vehicles," International Journal of Information and Electronics Engineering, Vol. 6, pp.289-293, 2016.

P. C. Evans and M. Annunziata, "Industrial Internet: Pushing the Boundaries of Minds and Machines," Technical report of General Electric (GE), Nov. 2012.

J. E. Stone, et al., "OpenCL: A parallel programming standard for heterogeneous computing systems," Computing in science & engineering, Vol.12, No.3, pp.66-73, 2010.

T. Sterling, et al., "High performance computing : modern systems and practices," Cambridge, MA : Morgan Kaufmann, ISBN 9780124202153, 2018.

J. Sanders and E. Kandrot, "CUDA by example : an introduction to general-purpose GPU programming," Addison-Wesley, 2011.

Y. Yamato, "Proposal and evaluation of GPU offloading parts reconfiguration during applications operations for environment adaptation," Journal of Network and Systems Management, Springer, DOI: 10.1007/s10922-023-09789-2, Nov. 2023.

Y. Yamato, "Study and Evaluation of Automatic Offloading Method in Mixed Offloading Destination Environment," Cogent Engineering, Taylor and Francis, Vol.9, Issue 1, DOI: 10.1080/23311916.2022.2080624, June 2022.

Y. Yamato, "Automatic Offloading Method of Loop Statements of Software to FPGA," International Journal of Parallel, Emergent and Distributed Systems, Taylor and Francis, DOI: 10.1080/17445760.2021.1916020, Apr. 2021.

Y. Yamato, "Improvement Proposal of Automatic GPU Offloading Technology," The 8th International Conference on Information and Education Technology (ICIET 2020), pp.242-246, Mar. 2020.

Y. Yamato, "Proposal of Automatic GPU Offloading Method from Various Language Applications," The 9th International Conference on Information and Education Technology (ICIET 2021), pp.400-404, Mar. 2021.

Y. Yamato, "Proposal of Automatic Offloading for Function Blocks of Applications," The 8th IIAE International Conference on Industrial Application Engineering 2020 (ICIAE 2020), pp.4-11, Mar. 2020.

Y. Yamato, "Study and Evaluation of Automatic GPU Offloading Method from Various Language Applications," International Journal of Parallel, Emergent and Distributed Systems, Taylor and Francis, DOI: 10.1080/17445760.2021.1971666, Sep. 2021.

Y. Yamato, "Study and Evaluation of Improved Automatic GPU Offloading Method," International Journal of Parallel, Emergent and Distributed Systems, Taylor and Francis, DOI: 10.1080/17445760.2021.1941010, June 2021.

Azure quantum website, https://azure.microsoft.com/products/quantum/

S. Wienke, et al., "OpenACC-first experiences with real-world applications," Euro-Par 2012 Parallel Processing, pp.859-870, 2012.

M. Wolfe, "Implementing the PGI accelerator model," ACM the 3rd Workshop on General-Purpose Computation on Graphics Processing Units, pp.43-50, Mar. 2010.

E. Su, et al., "Compiler support of the workqueuing execution model for Intel SMP architectures," In Fourth European Workshop on OpenMP, Sep. 2002.

Clang website, http://llvm.org/

Deckard website, http://github.com/skyhover/Deckard

Qiskit website, https://www.ibm.com/quantum/qiskit

ROSE framework website, http://rosecompiler.org/ROSE_HTML_Reference/index.html

Eigenvalue Solver website, https://learning.quantum.ibm.com/course/variational-algorithm-design/instances-and-extensions

NAS.BT website, https://www.nas.nasa.gov/publications/npb.html

Himeno benchmark web site, http://accc.riken.jp/en/supercom/

MRI-Q website, http://impact.crhc.illinois.edu/parboil/