AbstractThe focus of this work is hardware/software partitioning verification. The approach uses occam as specification and reasoning language. The partitioned system is derived from the original de- scription of the system by applying transformation rules, all of them proved from the basic laws of occam. The aim of this work is to show how the rewriting system CafeOBJ can be used to automatically prove the partitioning rules, as well as to implement the reduction strategy that guides the application of these rules. In this way, rewriting systems can be regarded as supporting tools for the construction of partitioning environments, whose emphasis is correctness
This thesis is about formal specification and formal verification of software and consists of three ...
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...
The focus of this work is hardware/software partitioning verification. The approach uses occam as sp...
AbstractThe focus of this work is hardware/software partitioning verification. The approach uses occ...
We propose in this paper an algebraic approach to hard-ware/software partitioning in Verilog Hardwar...
This paper addresses fundamental aspects of system modelling and partitioning algorithms in the area...
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...
The OTS/CafeOBJ method can be used to model, specify and verify distributed systems. Specifications ...
AbstractIn this paper we show how rewriting systems, in particular CafeOBJ, can be used to automatic...
CafeOBJ is a language for specifying and verifying a wide variety of software and/or hardware system...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...
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...
This thesis is about formal specification and formal verification of software and consists of three ...
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...
The focus of this work is hardware/software partitioning verification. The approach uses occam as sp...
AbstractThe focus of this work is hardware/software partitioning verification. The approach uses occ...
We propose in this paper an algebraic approach to hard-ware/software partitioning in Verilog Hardwar...
This paper addresses fundamental aspects of system modelling and partitioning algorithms in the area...
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...
The OTS/CafeOBJ method can be used to model, specify and verify distributed systems. Specifications ...
AbstractIn this paper we show how rewriting systems, in particular CafeOBJ, can be used to automatic...
CafeOBJ is a language for specifying and verifying a wide variety of software and/or hardware system...
Since the hardware-software partitioning problem is a key aspect of the codesign of digital electron...
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...
This thesis is about formal specification and formal verification of software and consists of three ...
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...