We propose a new generation of VLSI processor for pattern recognition based on Associative Memory architecture, optimized for on-line track finding in high-energy physics experiments. We describe the architecture, the technology studies and the prototype design of a new R&D Associative Memory project: it maximizes the pattern density on ASICs, minimizes the power consumption and improves the functionality for the Fast Tracker (FTK) proposed to upgrade the ATLAS trigger at LHC. Finally we will focus on possible future applications inside and outside High Physics Energy (HEP)
The Associative Memory (AM) system of the Fast TracKer (FTK) processor has been designed to perform ...
The Associative Memory (AM) system of the Fast Tracker (FTK) processor has been designed to perform ...
The trigger system of the ATLAS experiment at LHC will extend its rejection capabilities during oper...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
Experiments at the LHC hadron collider search for extremely rare processes hidden in much larger bac...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
he Fast TracKer (FTK) is an extremely powerful and very compact processing unit, essential for effic...
In high energy physics experiments, the most interesting processes are very rare and hidden in an ex...
An important step in the ATLAS upgrade program is the installation of a tracking processor, the Fast...
The increased energy of the interaction in ATLAS experiment need to process a lot of data\nat a high...
The associative memory (AM) system of fast tracker (FTK) processor has been designed for the trackin...
The Associative Memory (AM) system of the Fast Tracker (FTK) processor has been designed to perform ...
The Associative Memory (AM) system of the Fast TracKer (FTK) processor has been designed to perform ...
The Associative Memory (AM) system of the Fast Tracker (FTK) processor has been designed to perform ...
The trigger system of the ATLAS experiment at LHC will extend its rejection capabilities during oper...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
Experiments at the LHC hadron collider search for extremely rare processes hidden in much larger bac...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
he Fast TracKer (FTK) is an extremely powerful and very compact processing unit, essential for effic...
In high energy physics experiments, the most interesting processes are very rare and hidden in an ex...
An important step in the ATLAS upgrade program is the installation of a tracking processor, the Fast...
The increased energy of the interaction in ATLAS experiment need to process a lot of data\nat a high...
The associative memory (AM) system of fast tracker (FTK) processor has been designed for the trackin...
The Associative Memory (AM) system of the Fast Tracker (FTK) processor has been designed to perform ...
The Associative Memory (AM) system of the Fast TracKer (FTK) processor has been designed to perform ...
The Associative Memory (AM) system of the Fast Tracker (FTK) processor has been designed to perform ...
The trigger system of the ATLAS experiment at LHC will extend its rejection capabilities during oper...