Extending Ginkgo to Manage Reconfigurable Hardware-Based Kernels

Alejandro Morales-Peña; Esteban Meneses

doi:10.29375/25392115.5276

Extending Ginkgo to Manage Reconfigurable Hardware-Based Kernels

Alejandro Morales-Peña
, Esteban Meneses

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

Abstract

Although heterogeneous systems based on hardware accelerators are a trending topic in the HPC community, exploring the trade-offs of reconfigurable hardware-based ones in linear algebra libraries for high-performance systems, has not been deeply studied. Therefore, in this research, we aim to take advantage of FPGAs' reconfigurability, adaptability, and capacity to reduce power consumption to generate FPGA-based kernels in Ginkgo, a specialized high-performance linear algebra library for many-core systems. We generated 3 FPGA-based kernels for the CSR, SELLP, and SELL SpMV formats, and obtained speedups of at least 10x concerning CPU-based kernels. Furthermore, we demonstrated via a performance characterization study that FPGAs outperform general-purpose processors in terms of compute time.

Translated title of the contribution	Expansión de Ginkgo para administrar kernels reconfigurables basados en hardware
Original language	English
Pages (from-to)	43-58
Number of pages	16
Journal	Revista Colombiana de Computacion
Volume	25
Issue number	2
DOIs	https://doi.org/10.29375/25392115.5276
State	Published - 2024

Keywords

FPGAs
Ginkgo
HPC
SpMV

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10.29375/25392115.5276

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title = "Extending Ginkgo to Manage Reconfigurable Hardware-Based Kernels",

abstract = "Although heterogeneous systems based on hardware accelerators are a trending topic in the HPC community, exploring the trade-offs of reconfigurable hardware-based ones in linear algebra libraries for high-performance systems, has not been deeply studied. Therefore, in this research, we aim to take advantage of FPGAs' reconfigurability, adaptability, and capacity to reduce power consumption to generate FPGA-based kernels in Ginkgo, a specialized high-performance linear algebra library for many-core systems. We generated 3 FPGA-based kernels for the CSR, SELLP, and SELL SpMV formats, and obtained speedups of at least 10x concerning CPU-based kernels. Furthermore, we demonstrated via a performance characterization study that FPGAs outperform general-purpose processors in terms of compute time.",

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AU - Meneses, Esteban

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AB - Although heterogeneous systems based on hardware accelerators are a trending topic in the HPC community, exploring the trade-offs of reconfigurable hardware-based ones in linear algebra libraries for high-performance systems, has not been deeply studied. Therefore, in this research, we aim to take advantage of FPGAs' reconfigurability, adaptability, and capacity to reduce power consumption to generate FPGA-based kernels in Ginkgo, a specialized high-performance linear algebra library for many-core systems. We generated 3 FPGA-based kernels for the CSR, SELLP, and SELL SpMV formats, and obtained speedups of at least 10x concerning CPU-based kernels. Furthermore, we demonstrated via a performance characterization study that FPGAs outperform general-purpose processors in terms of compute time.

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ER -

Extending Ginkgo to Manage Reconfigurable Hardware-Based Kernels

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