New archaeointensity results from Scandinavia and Bulgaria

A VLSI chip is fabricated by integrating several rectangular circuit blocks on a 2D silicon floor. The circuit blocks are assumed to be placed isothetically and the netlist attached to each block is given. For wire routing, the terminals belonging to the same net are to be electrically interconnected using conducting paths. A staircase channel is an empty polygonal region on the silicon floor bounded by two monotonically increasing (or decreasing) staircase paths from one corner of the floor to its diagonally opposite corner. The staircase paths are defined by the boundaries of the blocks. In this paper, the problem of determining a monotone staircase channel on the floorplan is considered such that the number of distinct nets whose terminals lie on both sides of the channel, is minimized. Two polynomial-time algorithms are presented based on the network flow paradigm. First, the simple two-terminal net model is considered, i.e., each net is assumed to connect exactly two blocks, for which an O(n×k) time algorithm is proposed, where n and k are respectively the number of blocks and nets on the floor. Next, the algorithm is extended to the more realistic case of multi-terminal net problem. The time complexity of the latter algorithm is O((n+k)×T), where T is the total number of terminals attached to all nets in the floorplan. Solutions to these problems are useful in modeling the repeater block placement that arises in interconnect-driven floorplanning for deep-submicron VLSI physical design. It is also an important problem in context to the classical global routing, where channels are used as routing space on silicon.

show abstract

Approximation algorithms for deployment of sensors for line segment coverage in wireless sensor networks

Dash

Bishnu

Gupta

et al. 2012

View full text Add to dashboard Cite

Largest Empty Rectangle among a Point Set

Chaudhuri

Nandy

1999

View full text Add to dashboard Cite

Approximation Algorithms for a Variant of Discrete Piercing Set Problem for Unit Disks

Das

Carmi

et al. 2013

Int. J. Comput. Geom. Appl.

View full text Add to dashboard Cite

In this paper, we consider constant factor approximation algorithms for a variant of the discrete piercing set problem for unit disks. Here a set of points P is given; the objective is to choose minimum number of points in P to pierce the unit disks centered at all the points in P. We first propose a very simple algorithm that produces 12-approximation result in O(n log n) time. Next, we improve the approximation factor to 4 and then to 3. The worst case running time of these algorithms are O(n8 log n) and O(n15 log n) respectively. Apart from the space required for storing the input, the extra work-space requirement for each of these algorithms is O(1). Finally, we propose a PTAS for the same problem. Given a positive integer k, it can produce a solution with performance ratio [Formula: see text] in nO(k) time.

show abstract

Triangular range counting query in 2D and its application in finding k nearest neighbors of a line segment

Goswami

Das

Nandy

2004

Computational Geometry

View full text Add to dashboard Cite

On finding an empty staircase polygon of largest area (width) in a planar point-set

Nandy

Bhattacharya

2003

Computational Geometry

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Subhas C. Nandy

A unified algorithm for finding maximum and minimum object enclosing rectangles and cuboids

Efficient algorithm for placing a given number of base stations to cover a convex region

On Finding a Staircase Channel With Minimum Crossing Nets in a Vlsi Floorplan

Approximation algorithms for deployment of sensors for line segment coverage in wireless sensor networks

Largest Empty Rectangle among a Point Set

Approximation Algorithms for a Variant of Discrete Piercing Set Problem for Unit Disks

Triangular range counting query in 2D and its application in finding k nearest neighbors of a line segment

On finding an empty staircase polygon of largest area (width) in a planar point-set

Contact Info

Product

Resources

About