The NON-VON Supercomputer is a highly parallel tree-structured computer that is being Implemented at Columbia University. In this paper, we demonstrate that tree architectures with their favorable characteristics for VLSI Implementation, and fast global broadcast, lend themselves easily and naturally to the representation and manipulation of Images represented by hierarchical data structures A description of NON-VON architecture IS presented With an emphasis on the special architectural features that will be used m our Image understanding algorithms. We adopt a variation of the quad tree data structure, called the binary Image tree, to represent images in the NON-VON tree We show how Images are loaded in the NON-VON tree, and present the a...
Proceedings of: Second International Workshop on Sustainable Ultrascale Computing Systems (NESUS 201...
AbstractThe design is described of a parallel version of Tarjan's algorithm for the determination of...
The classic connected components labelling algorithm requires two passes through an image. This pape...
This paper examines the applicability of fine-grained tree-structured SIMD machines, which are amena...
In this paper, we examine the implementation of two middle-level image understanding tasks on fine-g...
NON-VON is a highly parallel, non-von Neumann supercomputer, portions of which are now being impleme...
Abstract-An algorithm is presented to perform connected component labeling of images of arbitrary di...
Taking advantage of the topological and isotopic properties of binary digital images, we present her...
This paper presents efficient and portable implementations of two useful primitives in image pro...
In this paper the problem of Connected Components Labeling (CCL) in binary images using Graphic Proc...
Component trees are region-based representations that encode the inclusion relationship of the thres...
Connected component labeling (CCL) of binary images is one of the fundamental operations in real ti...
The design is described of a parallel version of Tarjan's algorithm for the determination of equival...
This paper provides a new approach to labeling the connected components of an n x n image on a scan ...
Component trees are important data structures for computation of connected attribute filters. Though...
Proceedings of: Second International Workshop on Sustainable Ultrascale Computing Systems (NESUS 201...
AbstractThe design is described of a parallel version of Tarjan's algorithm for the determination of...
The classic connected components labelling algorithm requires two passes through an image. This pape...
This paper examines the applicability of fine-grained tree-structured SIMD machines, which are amena...
In this paper, we examine the implementation of two middle-level image understanding tasks on fine-g...
NON-VON is a highly parallel, non-von Neumann supercomputer, portions of which are now being impleme...
Abstract-An algorithm is presented to perform connected component labeling of images of arbitrary di...
Taking advantage of the topological and isotopic properties of binary digital images, we present her...
This paper presents efficient and portable implementations of two useful primitives in image pro...
In this paper the problem of Connected Components Labeling (CCL) in binary images using Graphic Proc...
Component trees are region-based representations that encode the inclusion relationship of the thres...
Connected component labeling (CCL) of binary images is one of the fundamental operations in real ti...
The design is described of a parallel version of Tarjan's algorithm for the determination of equival...
This paper provides a new approach to labeling the connected components of an n x n image on a scan ...
Component trees are important data structures for computation of connected attribute filters. Though...
Proceedings of: Second International Workshop on Sustainable Ultrascale Computing Systems (NESUS 201...
AbstractThe design is described of a parallel version of Tarjan's algorithm for the determination of...
The classic connected components labelling algorithm requires two passes through an image. This pape...