In the design of high performance VLSI systems, minimization of clock skew is an increasingly important objective. Additionally, wirelength of clock routing trees should be minimized in order to reduce system power requirements and deformation of the clock pulse at the synchronizing elements of the system. In this paper, we rst present the Deferred-Merge Embedding (DME) algorithm, which embeds any given connection topology to create a clock tree with zero skew while minimizing total wirelength. The algorithm always yields exact zero skew trees with respect to the appropriate delay model. Experimental results show an 8 % to 15 % wirelength reduction over previous constructions in [17] [18]. The DME algorithm may be applied to either the Elmo...
We study the minimum-cost bounded-skewrouting tree (BST) problem under the linear delay model. This ...
Abstract—In ultra-deep submicron very large-scale integration (VLSI) designs, clock network layout p...
this paper we study the BST problem under both the pathlength (linear) and Elmore delay models [Elmo...
In the design of high performance VLSI systems, minimization of clock skew is an increasingly impor-...
In this paper, we propose new approaches for solving the useful-skew tree (UST) routing problem [17]...
In ultra-deep submicron VLSI designs, clock network layout plays an increasingly important role in d...
[[abstract]]An exact zero skew clock routing algorithm using the Elmore delay model is presented. Re...
This paper presents new single-layer, i.e., planar-embeddable, clock tree constructions with exact z...
In ultra-deep submicron VLSI designs, clock network layout plays an increasingly important role on d...
A Zero Skew clock routing methodology has been developed to help design team speed up their clock tr...
In 21st-Century VLSI design, clocking plays crucial roles for both performance and timing convergenc...
We give the first single-layer clock tree construction with exact zero skew according to the Elmore ...
A Zero Skew Clock Routing Methodology has been developed to help design team speed up their clock t...
Delay minimization methods are proposed for zero-skew routings. A delay-time estimation formula is d...
: For engineering tradeoffs in "zero-skew" clock tree routing, for performance-driven Stei...
We study the minimum-cost bounded-skewrouting tree (BST) problem under the linear delay model. This ...
Abstract—In ultra-deep submicron very large-scale integration (VLSI) designs, clock network layout p...
this paper we study the BST problem under both the pathlength (linear) and Elmore delay models [Elmo...
In the design of high performance VLSI systems, minimization of clock skew is an increasingly impor-...
In this paper, we propose new approaches for solving the useful-skew tree (UST) routing problem [17]...
In ultra-deep submicron VLSI designs, clock network layout plays an increasingly important role in d...
[[abstract]]An exact zero skew clock routing algorithm using the Elmore delay model is presented. Re...
This paper presents new single-layer, i.e., planar-embeddable, clock tree constructions with exact z...
In ultra-deep submicron VLSI designs, clock network layout plays an increasingly important role on d...
A Zero Skew clock routing methodology has been developed to help design team speed up their clock tr...
In 21st-Century VLSI design, clocking plays crucial roles for both performance and timing convergenc...
We give the first single-layer clock tree construction with exact zero skew according to the Elmore ...
A Zero Skew Clock Routing Methodology has been developed to help design team speed up their clock t...
Delay minimization methods are proposed for zero-skew routings. A delay-time estimation formula is d...
: For engineering tradeoffs in "zero-skew" clock tree routing, for performance-driven Stei...
We study the minimum-cost bounded-skewrouting tree (BST) problem under the linear delay model. This ...
Abstract—In ultra-deep submicron very large-scale integration (VLSI) designs, clock network layout p...
this paper we study the BST problem under both the pathlength (linear) and Elmore delay models [Elmo...