The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is error-prone and time-consuming. Moreover, lots of effort is required to define an optimized and heterogeneous components library. To tackle these issues, we propose a novel design flow based on the Dataflow Process Networks Model of Computation. In particular, we have combined the operation of two state of the art tools, the Multi-Dataflow Composer and the Open RVC-CAL Compiler, handling respectively the automatic mapping of a reconfigurable multi-purpose substrate and the high level synthesis of hardware components. Our approach guarantees runtime efficiency and on-chip area saving both on FPGAs and ASICs.
Multi-purpose systems: A novel dataflow-based generation and mapping strategy
PALUMBO, FRANCESCA;RAFFO, LUIGI
2012-01-01
Abstract
The manual creation of specialized hard-ware infrastructures for complex multi-purpose systems is error-prone and time-consuming. Moreover, lots of effort is required to define an optimized and heterogeneous components library. To tackle these issues, we propose a novel design flow based on the Dataflow Process Networks Model of Computation. In particular, we have combined the operation of two state of the art tools, the Multi-Dataflow Composer and the Open RVC-CAL Compiler, handling respectively the automatic mapping of a reconfigurable multi-purpose substrate and the high level synthesis of hardware components. Our approach guarantees runtime efficiency and on-chip area saving both on FPGAs and ASICs.File | Dimensione | Formato | |
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