The advent of FPGA-based accelerators has encouraged the use of high-level synthesis (HLS) for rapid prototyping and design space exploration. In this context, design optimization at behavioral level becomes a critical task for the delivery of high-quality solutions. Time elasticity opens a new avenue of optimizations that can be applied after HLS and before logic synthesis, proposing new sequential transformations that expand beyond classical retiming and enlarge the register-transfer level (RTL) exploration space. This paper proposes a mathematical model for RTL transformations that exploit elasticity to select the best implementation for each functional unit and add pipeline registers to increase performance. Two simple examples are used...
With increasing FPGA chip density, it is possible to implement more sophisticated algorithms on FPGA...
This paper presents a novel High-Level Synthesis (HLS) and optimization approach targeting FPGA arch...
ISBN : 978-0-7695-5074-9International audienceThis paper presents a new methodology for hardware acc...
The advent of FPGA-based accelerators has encouraged the use of high-level synthesis (HLS) for rapid...
High-level synthesis (HLS) tools simplify the FPGA design processes by allowing users to express the...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Design automation has been one of the main propellers of the semiconductor industry with logic synth...
High Level Synthesis (HLS) is a process which, starting from a high-level description of an applicat...
In today's heterogenous computing world, field-programmable gate arrays (FPGA) represent the energy-...
High-level synthesis is a powerful tool for increasing productivity in digital hardware design. Howe...
The breakdown of Dennard scaling has led to the rapid growth of specialized hardware accelerators to...
The rate of increase in computing performance has been slowing due to the end of processor frequency...
High level synthesis (HLS) is an important enabling technology for the adoption of hardware accelera...
High-Level Synthesis tools have been increasingly used within the hardware design community to bridg...
High-Level Synthesis (HLS) tools automatically transform a high level specification of a circuit int...
With increasing FPGA chip density, it is possible to implement more sophisticated algorithms on FPGA...
This paper presents a novel High-Level Synthesis (HLS) and optimization approach targeting FPGA arch...
ISBN : 978-0-7695-5074-9International audienceThis paper presents a new methodology for hardware acc...
The advent of FPGA-based accelerators has encouraged the use of high-level synthesis (HLS) for rapid...
High-level synthesis (HLS) tools simplify the FPGA design processes by allowing users to express the...
Elastic systems provide tolerance to the variations in computation and communication delays. The inc...
Design automation has been one of the main propellers of the semiconductor industry with logic synth...
High Level Synthesis (HLS) is a process which, starting from a high-level description of an applicat...
In today's heterogenous computing world, field-programmable gate arrays (FPGA) represent the energy-...
High-level synthesis is a powerful tool for increasing productivity in digital hardware design. Howe...
The breakdown of Dennard scaling has led to the rapid growth of specialized hardware accelerators to...
The rate of increase in computing performance has been slowing due to the end of processor frequency...
High level synthesis (HLS) is an important enabling technology for the adoption of hardware accelera...
High-Level Synthesis tools have been increasingly used within the hardware design community to bridg...
High-Level Synthesis (HLS) tools automatically transform a high level specification of a circuit int...
With increasing FPGA chip density, it is possible to implement more sophisticated algorithms on FPGA...
This paper presents a novel High-Level Synthesis (HLS) and optimization approach targeting FPGA arch...
ISBN : 978-0-7695-5074-9International audienceThis paper presents a new methodology for hardware acc...