Abstract — An FPGA implementation of a fine grain general-purpose SIMD processor array is presented. The processor architecture has a compact processing element which is encapsulated into two configurable logic blocks (CLBs) and is then replicated to form an array. A 32 × 32 processing element array is implemented on a low-cost Xilinx XC5VLX50 FPGA using four-neighbour connectivity with the possibility to scale up using a larger FPGA. The processor array operates at a frequency of 150 MHz and executes a peak of 153.6 GOPS (bit-serial operations). Binary and 8-bit greyscale image processing is performed and demonstrated. I
Objective: The prospective need of SIMD (Single Instruction and Multiple Data) applications like vid...
A high-performance single-instruction, multiple-data (SIMD) processor based on a full-custom VLSI ch...
This paper describes an FPGA and distributed RAM architecture for an image pixel processor implement...
Abstract- This paper targets data-parallel applications which are also computa tion-intensive. It pr...
In a context of high performance, low technology access cost and application code reusability object...
Vision chips are microelectronic devices which combine image sensing and processing on a single sili...
International audienceA high-speed analog VLSI image acquisition and low-level image processing syst...
With the arrival of large Field Programmable Gate Arrays (FPGAs) it is possible to build an entire c...
The goal of this thesis was to create a processor using VHDL that could be used for educational purp...
ABSTRACT: This paper discusses issues related to the efficiency of silicon implementations of cellul...
Abstract—Significant advances in the field of configurable computing have enabled parallel processin...
International audienceA high speed analog VLSI image acquisition and low-level image processing syst...
A new smart-sensor VLSI circuit intended for focal-plane processing of grey-scale images is presente...
Abstract A high speed analog VLSI image acquisition and low-level image processing system is present...
Single-Instruction Multiple-Data (SIMD) processing arrays share many architectural features. In both...
Objective: The prospective need of SIMD (Single Instruction and Multiple Data) applications like vid...
A high-performance single-instruction, multiple-data (SIMD) processor based on a full-custom VLSI ch...
This paper describes an FPGA and distributed RAM architecture for an image pixel processor implement...
Abstract- This paper targets data-parallel applications which are also computa tion-intensive. It pr...
In a context of high performance, low technology access cost and application code reusability object...
Vision chips are microelectronic devices which combine image sensing and processing on a single sili...
International audienceA high-speed analog VLSI image acquisition and low-level image processing syst...
With the arrival of large Field Programmable Gate Arrays (FPGAs) it is possible to build an entire c...
The goal of this thesis was to create a processor using VHDL that could be used for educational purp...
ABSTRACT: This paper discusses issues related to the efficiency of silicon implementations of cellul...
Abstract—Significant advances in the field of configurable computing have enabled parallel processin...
International audienceA high speed analog VLSI image acquisition and low-level image processing syst...
A new smart-sensor VLSI circuit intended for focal-plane processing of grey-scale images is presente...
Abstract A high speed analog VLSI image acquisition and low-level image processing system is present...
Single-Instruction Multiple-Data (SIMD) processing arrays share many architectural features. In both...
Objective: The prospective need of SIMD (Single Instruction and Multiple Data) applications like vid...
A high-performance single-instruction, multiple-data (SIMD) processor based on a full-custom VLSI ch...
This paper describes an FPGA and distributed RAM architecture for an image pixel processor implement...