Int\'{e}gration de la synth\`{e}se m\'{e}moire dans l'outil de synth\`{e}se d'architecture GAUT Low Power
Gwenol\'e Corre (LESTER), Nathalie Julien (LESTER), Eric Senn, (LESTER), Eric Martin (LESTER)
TL;DR
This paper discusses integrating memory synthesis into the GAUT Low Power high-level synthesis tool to optimize data storage and transfer, addressing memory bottlenecks in signal and image processing systems.
Contribution
It introduces a method to incorporate memory synthesis into GAUT Low Power, enhancing the design of memory units during high-level synthesis.
Findings
Improved memory management in high-level synthesis.
Reduced power consumption in memory units.
Enhanced performance of data processing systems.
Abstract
The systems supporting signal and image applications process large amount of data. That involves an intensive use of the memory which becomes the bottleneck of systems. Memory limits performances and represents a significant proportion of total consumption. In the development high level synthesis tool called GAUT Low Power, we are interested in the synthesis of the memory unit. In this work, we integrate the data storage and data transfert to constraint the high level synthesis of the datapath's execution unit.
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Taxonomy
TopicsParallel Computing and Optimization Techniques · Embedded Systems Design Techniques · Interconnection Networks and Systems