AbstractHardware-based pattern recognition for fast triggering on particle tracks has been successfully used in high-energy physics experiments for some time. The CDF Silicon Vertex Trigger (SVT) at the Fermilab Tevatron is an excellent example. The method used there, developed in the 1990's, is based on algorithms that use a massively parallel associative memory architecture to identify patterns efficiently at high speed. However, due to much higher occupancy and event rates at the LHC, and the fact that the LHC detectors have a much larger number of channels in their tracking detectors, there is an enormous challenge in implementing fast pattern recognition for a track trigger, requiring about three orders of magnitude more associative me...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
Hardware-based pattern recognition for fast triggering on particle tracks has been successfully used...
Extremely fast pattern recognition capabilities are necessary to find and fit billions of tracks at ...
Future particle physics experiments looking for rare processes will have no choice but to address th...
The authors describe a VLSI processor for pattern recognition based on content addressable memory (C...
Perspectives for precise and fast track reconstruction in future hadron collider experiments are add...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
Modern experiments search for extremely rare processes hidden in much larger background levels. As t...
A fast hardware based track trigger for high luminosity upgrade of the Large Hadron Collider (HL- LH...
Experiments at the LHC hadron collider search for extremely rare processes hidden in much larger bac...
We present a pipeline of associative memory boards for track finding, which satisfies the requiremen...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
Hardware-based pattern recognition for fast triggering on particle tracks has been successfully used...
Extremely fast pattern recognition capabilities are necessary to find and fit billions of tracks at ...
Future particle physics experiments looking for rare processes will have no choice but to address th...
The authors describe a VLSI processor for pattern recognition based on content addressable memory (C...
Perspectives for precise and fast track reconstruction in future hadron collider experiments are add...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
We propose a new generation of VLSI processor for pattern recognition based on Associative Memory ar...
Modern experiments search for extremely rare processes hidden in much larger background levels. As t...
A fast hardware based track trigger for high luminosity upgrade of the Large Hadron Collider (HL- LH...
Experiments at the LHC hadron collider search for extremely rare processes hidden in much larger bac...
We present a pipeline of associative memory boards for track finding, which satisfies the requiremen...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...
We describe a VLSI processor for pattern recognition based on Content Addressable Memory (CAM) archi...
We propose a new generation of VLSI processors for pattern recognition, based on associative memory ...