Difference between revisions of "Songhori2015ahead"

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|keywords=API, Dense Matrix, FISTA, FPGAs, Gram Matrix, HLS, Iterative Solver, Least Squares, Sparse Approximation
|keywords=API, Dense Matrix, FISTA, FPGAs, Gram Matrix, HLS, Iterative Solver, Least Squares, Sparse Approximation
|abstract=<p>This paper introduces AHEAD, a novel domainspecific framework for automated (hardware-based) acceleration of massive data analysis applications with a dense (nonsparse) correlation matrix. Due to non-scalability of matrix inversion, often iterative computation is used for converging to a solution. AHEAD addresses two sets of domain-specific matrix computation challenges. First, the I/O and memory bandwidth constraints which limit the performance of hardware accelerators. Second, the hardness of handling large data because of the complexity of the known matrix transformations and the inseparability of non-sparse correlations. The inseparability problem translates to an increased communication cost with the accelerators. To optimize the performance within these limits, AHEAD learns the dependency structure of the domain data and suggests a scalable matrix transformation. The transformation minimizes the memory access required for matrix computing within an error threshold and thus, optimizes the mapping of domain data to the available (bandwidth constrained) accelerator resources. To facilitate automation, AHEAD also provides an Application Programming Interface (API) so users can customize the framework to an arbitrary iterative analysis algorithm and hardware mapping. Proof-of-concept implementation of AHEAD is performed on the widely used compressive sensing and general {\textquoteleft}1 regularized least squares solvers. On a massive light field imaging data set with 4.6B non-zeros, AHEAD attains up to 320x iteration speed improvement using reconfigurable hardware accelerators compared with the conventional solver and about 4x improvement compared to our transformed matrix solver on a general purpose processor (without hardware acceleration).</p>
|abstract=<p>This paper introduces AHEAD, a novel domainspecific framework for automated (hardware-based) acceleration of massive data analysis applications with a dense (nonsparse) correlation matrix. Due to non-scalability of matrix inversion, often iterative computation is used for converging to a solution. AHEAD addresses two sets of domain-specific matrix computation challenges. First, the I/O and memory bandwidth constraints which limit the performance of hardware accelerators. Second, the hardness of handling large data because of the complexity of the known matrix transformations and the inseparability of non-sparse correlations. The inseparability problem translates to an increased communication cost with the accelerators. To optimize the performance within these limits, AHEAD learns the dependency structure of the domain data and suggests a scalable matrix transformation. The transformation minimizes the memory access required for matrix computing within an error threshold and thus, optimizes the mapping of domain data to the available (bandwidth constrained) accelerator resources. To facilitate automation, AHEAD also provides an Application Programming Interface (API) so users can customize the framework to an arbitrary iterative analysis algorithm and hardware mapping. Proof-of-concept implementation of AHEAD is performed on the widely used compressive sensing and general {\textquoteleft}1 regularized least squares solvers. On a massive light field imaging data set with 4.6B non-zeros, AHEAD attains up to 320x iteration speed improvement using reconfigurable hardware accelerators compared with the conventional solver and about 4x improvement compared to our transformed matrix solver on a general purpose processor (without hardware acceleration).</p>
|month=3
|year=2015
|booktitle=IEEE/ACM Design, Automation \& Test in Europe (DATE)
|booktitle=IEEE/ACM Design, Automation \& Test in Europe (DATE)
|title=AHEAD: Automated Framework for Hardware Accelerated Iterative Data Analysis
|title=AHEAD: Automated Framework for Hardware Accelerated Iterative Data Analysis
|entry=inproceedings
|entry=inproceedings
|date=2015-Ma-01
}}
}}

Revision as of 03:42, 4 September 2021

Songhori2015ahead
entryinproceedings
address
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authorE. Songhori and A. Mirhoseini and F. Koushanfar
booktitleIEEE/ACM Design, Automation \& Test in Europe (DATE)
chapter
edition
editor
howpublished
institution
journal
month3
note
number
organization
pages
publisher
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titleAHEAD: Automated Framework for Hardware Accelerated Iterative Data Analysis
type
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year2015
doi
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isbn
urlhttp://dl.acm.org/citation.cfm?id=2757032
pdf


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