Add to ORKGThe goal of deductive design is the systematic construction of a system implementation starting from its behavioural specification according to formal, provably correct rules. We use Gofer/Haskell to formulate a functional model of directional, synchronous and deterministic systems with discrete time. We develop an algebra of slowdown. The associated laws are then employed in deductive hardware design of two systolic circuits, a convolver and a recogniser for regular expressions. The strategy used is applicable to the derivation of other systolic circuits as well
We present an outline of a method for formal derivation of asynchronous VLSI circuits. The proposed ...
Concise algorithms to compute a solution of a system of m linear equations Ax=b with n variables are...
AbstractThe purpose of this paper is to investigate models of computation from a realistic viewpoint...
The goal of deductive design is the systematic construction of a system implementation starting from...
The goal of deductive design is the systematic construction of a system implementation starting from...
The goal of deductive design is the systematic construction of a system implementation starting from...
The goal of deductive design is the systematic construction of a system implementation starting from...
A systematic methodology to synthesize systolic designs is described and used to derive a new design...
A method is presented by which systolic computations can be derived from formal specifications. Thes...
Advancements on analog integrated design have led to new possibilities for complex systems combining...
A novel process algebra is presented; algebraic expressions specify delay-insensitive circuits in te...
[[abstract]]Algorithms which are to be mapped onto interconnecting processing elements in order to d...
In this paper, we show that every systolic array executes a Regular Iterative Algorithm with a stron...
AbstractA variety of problems related to systolic architectures, systems, models and computations ar...
We present new optimal systolic algorithms for the transitive closure problem on ring and linear arr...
We present an outline of a method for formal derivation of asynchronous VLSI circuits. The proposed ...
Concise algorithms to compute a solution of a system of m linear equations Ax=b with n variables are...
AbstractThe purpose of this paper is to investigate models of computation from a realistic viewpoint...
The goal of deductive design is the systematic construction of a system implementation starting from...
The goal of deductive design is the systematic construction of a system implementation starting from...
The goal of deductive design is the systematic construction of a system implementation starting from...
The goal of deductive design is the systematic construction of a system implementation starting from...
A systematic methodology to synthesize systolic designs is described and used to derive a new design...
A method is presented by which systolic computations can be derived from formal specifications. Thes...
Advancements on analog integrated design have led to new possibilities for complex systems combining...
A novel process algebra is presented; algebraic expressions specify delay-insensitive circuits in te...
[[abstract]]Algorithms which are to be mapped onto interconnecting processing elements in order to d...
In this paper, we show that every systolic array executes a Regular Iterative Algorithm with a stron...
AbstractA variety of problems related to systolic architectures, systems, models and computations ar...
We present new optimal systolic algorithms for the transitive closure problem on ring and linear arr...
We present an outline of a method for formal derivation of asynchronous VLSI circuits. The proposed ...
Concise algorithms to compute a solution of a system of m linear equations Ax=b with n variables are...
AbstractThe purpose of this paper is to investigate models of computation from a realistic viewpoint...