We propose in this paper an algebraic approach to hard-ware/software partitioning in Verilog Hardware Description Language (HDL). We explore a collection of algebraic laws for Verilog programs, from which we design a set of syntax-based algebraic rules to conduct hardware/software partitioning. The co-specification language and the target hardware and software description languages are specific subsets of Verilog. Through this, we confirm successful verification for the correctness of the partitioning process by an algebra of Verilog. Facilitated by Verilog’s rich features, we have also successfully studied hw/sw partitioning for environment-driven systems.Singapore-MIT Alliance (SMA
We present a software oriented approach to hardware/software codesign by applying traditional compil...
Hardware description languages usually include features which do not have a direct hardware inter...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
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...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware/software co-specification is a critical phase in co-design. Our co-specification process st...
AbstractThe focus of this work is hardware/software partitioning verification. The approach uses occ...
This paper addresses fundamental aspects of system modelling and partitioning algorithms in the area...
We present a software oriented approach to hardware/software codesign by applying traditional compil...
Hardware description languages usually include features which do not have a direct hardware inter...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
We propose in this paper an algebraic approach to hardware/software partitioning in Verilog HDL. We ...
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...
Hardware and software co-design is a design technique which delivers computer systems comprising har...
Hardware/software co-specification is a critical phase in co-design. Our co-specification process st...
AbstractThe focus of this work is hardware/software partitioning verification. The approach uses occ...
This paper addresses fundamental aspects of system modelling and partitioning algorithms in the area...
We present a software oriented approach to hardware/software codesign by applying traditional compil...
Hardware description languages usually include features which do not have a direct hardware inter...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...