A systematic methodology for near-optimal software/hardware codesign mapping onto an FPGA platform with microprocessor and HW accelerators is proposed. The mapping steps deal with the inter-organization, the foreground memory management, and the datapath mapping. A step is described by parameters and equations combined in a scalable template. Mapping decisions are propagated as design constraints to prune suboptimal options in next steps. Several performance-area Pareto points are produced by instantiating the parameters. To evaluate our methodology we map a real-time bio-imaging application and loop-dominated benchmarks
UnrestrictedConfigurable architectures offer the unique opportunity of realizing hardware designs ta...
Current high-end medical X-ray intervention devices provide a tremendous amount of high-definition i...
Reconfigurable hardware devices, such as Field Programmable Gate Arrays (FPGAs), can be used to spee...
Embedded applications usually require Software/Hardware (SW/HW) designs to meet the hard timing cons...
Field Programmable Gate Arrays (FPGAs) offer a low power flexible accelerator alternative due to the...
[[abstract]]©2006 IEEE-Field-programmable gate arrays (FPGAs) are commonly used in board designs. Th...
CPU-FPGA heterogeneous architectures are attracting ever-increasing attention in an attempt to advan...
This paper presents a new approach to technology mapping for arbitrary technologies with single outp...
In real-time signal processing, a single application often has multiple computationally intensive ke...
Abstract—FPGAs have emerged as the preferred prototyping and accelerator platform for diverse applic...
The application-specific multiprocessor System-on-a-Chip is a promising design alternative because o...
This paper proposes an algorithm for mappinglogical to physical memory resources on Field-Programmab...
Field-programmable gate arrays (FPGAs) are integrated circuits (ICs) used for rapid prototyping and ...
[[abstract]]We combine technology mapping and placement into a single procedure, M.map, for the desi...
The adoption of High-Level Synthesis (HLS) tools has significantly reduced accelerator design time. ...
UnrestrictedConfigurable architectures offer the unique opportunity of realizing hardware designs ta...
Current high-end medical X-ray intervention devices provide a tremendous amount of high-definition i...
Reconfigurable hardware devices, such as Field Programmable Gate Arrays (FPGAs), can be used to spee...
Embedded applications usually require Software/Hardware (SW/HW) designs to meet the hard timing cons...
Field Programmable Gate Arrays (FPGAs) offer a low power flexible accelerator alternative due to the...
[[abstract]]©2006 IEEE-Field-programmable gate arrays (FPGAs) are commonly used in board designs. Th...
CPU-FPGA heterogeneous architectures are attracting ever-increasing attention in an attempt to advan...
This paper presents a new approach to technology mapping for arbitrary technologies with single outp...
In real-time signal processing, a single application often has multiple computationally intensive ke...
Abstract—FPGAs have emerged as the preferred prototyping and accelerator platform for diverse applic...
The application-specific multiprocessor System-on-a-Chip is a promising design alternative because o...
This paper proposes an algorithm for mappinglogical to physical memory resources on Field-Programmab...
Field-programmable gate arrays (FPGAs) are integrated circuits (ICs) used for rapid prototyping and ...
[[abstract]]We combine technology mapping and placement into a single procedure, M.map, for the desi...
The adoption of High-Level Synthesis (HLS) tools has significantly reduced accelerator design time. ...
UnrestrictedConfigurable architectures offer the unique opportunity of realizing hardware designs ta...
Current high-end medical X-ray intervention devices provide a tremendous amount of high-definition i...
Reconfigurable hardware devices, such as Field Programmable Gate Arrays (FPGAs), can be used to spee...