The importance of eective and ecient accounting of layout eects is well-established in High-Level Synthesis (HLS), since it allows more realistic exploration of the de-sign space and the generation of solutions with predictable metrics. This feature is highly desirable in order to avoid unnecessary iterations through the design process. In this paper, we address the problem of layout-driven register-transfer-level (RTL) binding as this step has a direct rele-vance on the nal performance of the design. By producing not only an RTL design but also an approximate physical topology of the chip level implementation, we ensure that the solution will perform at the predicted metric once im-plemented, thus avoiding unnecessary delays in the design ...
International audienceRegister-Transfer Level (RTL) design has been a traditional approach in hardwa...
Behavioral synthesis takes an algorithmic description of the circuit where there is neither clock in...
Increased design complexity and time-to-market pressure in the integrated circuit (IC) industry call...
The importance of effective and efficient accounting of layout effects is well-established in High-L...
We propose a complete procedure for verifying register-transfer logic against its scheduled behavior...
The output of high-level synthesis typically consists of a netlist of generic RTL components and a s...
High-level synthesis tools generate rtl designs from algorithmic behavioral speci cations and cons...
Digital systems continue growing in complexity, but the design and verification productivity has not...
High-level synthesis (HLS) tools greatly reduce the effort required in Register Transfer Level (RTL)...
In modern VLSI design flow, the register-transfer level (RTL) stage is a critical point, where desig...
To increase productivity in designing digital hardware components, high-level synthesis (HLS) is see...
The register transfer abstraction (RTL) has been estab-lished as the industrial standard for ASIC de...
. In this paper, we present an optimized design flow to map Register-Transfer-Level (RTL) netlists o...
High Level Synthesis (HLS) is a process which, starting from a high-level description of an applicat...
Existing heuristics and algorithms used in High-Level Synthesis typically assume a direct mapping of...
International audienceRegister-Transfer Level (RTL) design has been a traditional approach in hardwa...
Behavioral synthesis takes an algorithmic description of the circuit where there is neither clock in...
Increased design complexity and time-to-market pressure in the integrated circuit (IC) industry call...
The importance of effective and efficient accounting of layout effects is well-established in High-L...
We propose a complete procedure for verifying register-transfer logic against its scheduled behavior...
The output of high-level synthesis typically consists of a netlist of generic RTL components and a s...
High-level synthesis tools generate rtl designs from algorithmic behavioral speci cations and cons...
Digital systems continue growing in complexity, but the design and verification productivity has not...
High-level synthesis (HLS) tools greatly reduce the effort required in Register Transfer Level (RTL)...
In modern VLSI design flow, the register-transfer level (RTL) stage is a critical point, where desig...
To increase productivity in designing digital hardware components, high-level synthesis (HLS) is see...
The register transfer abstraction (RTL) has been estab-lished as the industrial standard for ASIC de...
. In this paper, we present an optimized design flow to map Register-Transfer-Level (RTL) netlists o...
High Level Synthesis (HLS) is a process which, starting from a high-level description of an applicat...
Existing heuristics and algorithms used in High-Level Synthesis typically assume a direct mapping of...
International audienceRegister-Transfer Level (RTL) design has been a traditional approach in hardwa...
Behavioral synthesis takes an algorithmic description of the circuit where there is neither clock in...
Increased design complexity and time-to-market pressure in the integrated circuit (IC) industry call...