In conventional design, higher levels of synthesis produce a netlist, from which layout synthesis builds a mask specification for manufacturing. Timing anal ysis is built into a feedback loop to detect timing violations which are then used to update specifications to synthesis. Such iteration is undesirable, and for very high performance designs, infeasible. The problem is likely to become much worse with future generations of technology. To achieve a non-iterative design flow, early synthesis stages should use wire planning to distribute delays over the functional elements and interconnect, and layout synthesis should use its degrees of freedom to realize those delays
This paper presents a design flow for timed asynchronous circuits. It introduces lazy transitions sy...
This research is situated in the design of integrated circuits (ICs). ICs are virtually everywhere. ...
Meeting timing constraint is one of the most important issues for modern design automation tools. Th...
In conventional design, higher levels of synthesis produce a netlist, from which layout synthesis bu...
A shift is proposed in the design of VLSI circuits. In conventional design, higher levels of synthes...
The design scale of Integrated Circuits (ICs) is increasing exponentially according to Moore's law, ...
This paper describes a method for incorporating layout parameters to better meet performance contrai...
We propose a new methodology based on incremental logic restructuring for post-layout performance im...
[[abstract]]As feature sizes shrink to deep sub-micron, the performance of VLSI chips becomes domina...
This paper deals with an improvement of design timing characteristics by modification at the high ab...
We present new concepts to integrate logic synthesis and physical design. Our methodology uses gener...
This research is situated in the design of integrated circuits (ICs). ICs are virtually everywhere. ...
Behavioral synthesis takes an algorithmic description of the circuit where there is neither clock in...
For the last several technology generations, VLSI designs in new technology nodes have had to confro...
A physical design flow consists of producing a production-worthy layout from a gate-level netlist su...
This paper presents a design flow for timed asynchronous circuits. It introduces lazy transitions sy...
This research is situated in the design of integrated circuits (ICs). ICs are virtually everywhere. ...
Meeting timing constraint is one of the most important issues for modern design automation tools. Th...
In conventional design, higher levels of synthesis produce a netlist, from which layout synthesis bu...
A shift is proposed in the design of VLSI circuits. In conventional design, higher levels of synthes...
The design scale of Integrated Circuits (ICs) is increasing exponentially according to Moore's law, ...
This paper describes a method for incorporating layout parameters to better meet performance contrai...
We propose a new methodology based on incremental logic restructuring for post-layout performance im...
[[abstract]]As feature sizes shrink to deep sub-micron, the performance of VLSI chips becomes domina...
This paper deals with an improvement of design timing characteristics by modification at the high ab...
We present new concepts to integrate logic synthesis and physical design. Our methodology uses gener...
This research is situated in the design of integrated circuits (ICs). ICs are virtually everywhere. ...
Behavioral synthesis takes an algorithmic description of the circuit where there is neither clock in...
For the last several technology generations, VLSI designs in new technology nodes have had to confro...
A physical design flow consists of producing a production-worthy layout from a gate-level netlist su...
This paper presents a design flow for timed asynchronous circuits. It introduces lazy transitions sy...
This research is situated in the design of integrated circuits (ICs). ICs are virtually everywhere. ...
Meeting timing constraint is one of the most important issues for modern design automation tools. Th...