Hardware and software co-design is a design technique which delivers computer systems comprising hardware and software components. A critical phase of the co-design process is to decompose a program into hardware and software. This paper proposes an algebraic partitioning algorithm whose correctness is verified in program algebra. The authors introduce a program analysis phase before program partitioning and develop a collection of syntax-based splitting rules. The former provides the information for moving operations from software to hardware and reducing the interaction between components, and the latter supports a compositional approach to program partitioning
This paper presents a new partitioning method for software oriented hardware /software codesign. It ...
Abstract: It has been proved that the hardware/software partitioning problem is NP-hard. Currently w...
Hardware/software (HW/SW) partitioning is one of the crucial steps of co-design systems. It determin...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
We propose in this paper an algebraic approach to hard-ware/software partitioning in Verilog Hardwar...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
Partitioning a system's functionality among interacting hardware and software components is an impor...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
This paper addresses fundamental aspects of system modelling and partitioning algorithms in the area...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...
This paper presents a new partitioning method for software oriented hardware /software codesign. It ...
Abstract: It has been proved that the hardware/software partitioning problem is NP-hard. Currently w...
Hardware/software (HW/SW) partitioning is one of the crucial steps of co-design systems. It determin...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
We propose in this paper an algebraic approach to hard-ware/software partitioning in Verilog Hardwar...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
Partitioning a system's functionality among interacting hardware and software components is an impor...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
This paper addresses fundamental aspects of system modelling and partitioning algorithms in the area...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...
This paper presents a new partitioning method for software oriented hardware /software codesign. It ...
Abstract: It has been proved that the hardware/software partitioning problem is NP-hard. Currently w...
Hardware/software (HW/SW) partitioning is one of the crucial steps of co-design systems. It determin...