The acceleration of compute-intensive applications on FPGA-based systems has become an increasingly common trend thanks to their availability as cloud commodities. This trend has also been accompanied by wider support of High-Level Synthesis tools. Despite these solutions reduce the learning curve for hardware development, the programmer still requires specific expertise in order to achieve efficient implementations. In this paper, we propose an automated approach for the acceleration of C applications into dataflow kernels on FPGAs
CPU-FPGA heterogeneous architectures are attracting ever-increasing attention in an attempt to advan...
Highly-tuned FPGA implementations can achieve significant performance and power efficiency gains ove...
C is the lingua franca of programming and almost any device can be programmed using C. However, prog...
The acceleration of compute-intensive applications on FPGA-based systems has become an increasingly ...
Despite the remarkable improvements in the effectiveness of High Level Synthesis tools for FPGA deve...
International audienceHigh-Level Synthesis (HLS) tools are mature enough to provide efficient code g...
C is the lingua franca of programming and almost any device can be programmed using C. However, prog...
Abstract—The demand for embedded computing power is con-tinuously increasing and FPGAs are becoming ...
This paper proposes a new high-level approach for optimising field programmable gate array (FPGA) de...
Devido à complexidade das aplicações, a demanda crescente por sistemas que usam milhões de transisto...
Whether for use as the final target or simply a rapid prototyping platform, programming systems cont...
This paper describes our approaches to raise the level of abstraction at which hardwa-re suitable fo...
International audienceThis paper presents a new development of rapid prototyping tools for system de...
We present a new type of soft-core processor called the “Data-Flow Soft-Core” that can be implemente...
Recent trends in large-scale computing demonstrate continuous growth in the need for raw processing ...
CPU-FPGA heterogeneous architectures are attracting ever-increasing attention in an attempt to advan...
Highly-tuned FPGA implementations can achieve significant performance and power efficiency gains ove...
C is the lingua franca of programming and almost any device can be programmed using C. However, prog...
The acceleration of compute-intensive applications on FPGA-based systems has become an increasingly ...
Despite the remarkable improvements in the effectiveness of High Level Synthesis tools for FPGA deve...
International audienceHigh-Level Synthesis (HLS) tools are mature enough to provide efficient code g...
C is the lingua franca of programming and almost any device can be programmed using C. However, prog...
Abstract—The demand for embedded computing power is con-tinuously increasing and FPGAs are becoming ...
This paper proposes a new high-level approach for optimising field programmable gate array (FPGA) de...
Devido à complexidade das aplicações, a demanda crescente por sistemas que usam milhões de transisto...
Whether for use as the final target or simply a rapid prototyping platform, programming systems cont...
This paper describes our approaches to raise the level of abstraction at which hardwa-re suitable fo...
International audienceThis paper presents a new development of rapid prototyping tools for system de...
We present a new type of soft-core processor called the “Data-Flow Soft-Core” that can be implemente...
Recent trends in large-scale computing demonstrate continuous growth in the need for raw processing ...
CPU-FPGA heterogeneous architectures are attracting ever-increasing attention in an attempt to advan...
Highly-tuned FPGA implementations can achieve significant performance and power efficiency gains ove...
C is the lingua franca of programming and almost any device can be programmed using C. However, prog...