Add to ORKGAbstract—This paper presents the design of an asynchronous cellular logic array for binary image processing algorithms based on wave propagation/collision in an excitable medium. The array consists of identical logic cells enabling the propagation and detection of wave-front collisions necessary for the object skeletonization. Low power, low area and high processing speed requirements were met by employing the asynchronous dynamic logic approach resulting in a processing time less than 0.45ns/pixel and energy consumption of less than 0.15pJ/pixel. The cell consists of 19 transistors and occupies an area of 7.5×6.3µm2 in 90nm CMOS technology. The proposed array could be used as a coprocessor in pixel-parallel SIMD architectures aiding the fa...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
Digital visual communication applications are evolving towards the incorporation of new functionalit...
In this paper we discuss the functional requirements for building an optical cellular automaton. We ...
Abstract—This paper presents the design and the VLSI imple-mentation of an asynchronous cellular log...
Abstract — This paper presents the idea of an asynchronous cellular pixel-parallel logic array for g...
Abstract—Massively parallel processor-per-pixel single-instruc-tion multiple data arrays are being s...
This paper presents a new processing cell circuit, suitable for use in massively parallel fine-grain...
Key words to describe the work: Asynchronous processing, self-timed logic, wave propagation, skeleto...
Abstract—This paper describes an architecture and implemen-tation of a digital vision chip that feat...
The personal communication systems of the future will augment the mobile phone concept to include mu...
The design of a fine-grain asynchronous VLSI array processor is presented. It demonstrates how async...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
Digital visual communication applications are evolving towards the incorporation of new functionalit...
In this paper we discuss the functional requirements for building an optical cellular automaton. We ...
Abstract—This paper presents the design and the VLSI imple-mentation of an asynchronous cellular log...
Abstract — This paper presents the idea of an asynchronous cellular pixel-parallel logic array for g...
Abstract—Massively parallel processor-per-pixel single-instruc-tion multiple data arrays are being s...
This paper presents a new processing cell circuit, suitable for use in massively parallel fine-grain...
Key words to describe the work: Asynchronous processing, self-timed logic, wave propagation, skeleto...
Abstract—This paper describes an architecture and implemen-tation of a digital vision chip that feat...
The personal communication systems of the future will augment the mobile phone concept to include mu...
The design of a fine-grain asynchronous VLSI array processor is presented. It demonstrates how async...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
A prototype cellular logic array processor (CLAP-4), which has been indigenously constructed using T...
Digital visual communication applications are evolving towards the incorporation of new functionalit...
In this paper we discuss the functional requirements for building an optical cellular automaton. We ...