We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural behaviour. We combined a detailed Hodgkin-Huxley CA3 neuron integrated with a four-state Channelrhodopsin-2 (ChR2) model into reconfigurable silicon hardware. Our architecture consists of a Field Programmable Gated Array (FPGA) with a custom-built computing data-path, a separate data management system and a memory approach based router. Advancements over previous work include the incorporation of short and long-term calcium and light-dependent ion channels in reconfigurable hardware. Also, the developed processor is computationally efficient, requiring only 0.03 ms processing time per sub-frame for a single neuron and 9.7 ms for a fully conne...
Recent neuropsychological research has begun to reveal that neurons encode information in the timing...
Optogenetics confers the ability to precisely control the activity of neural populations with cell t...
This work is a first step towards a long-term goal of understanding computations occurring in the br...
We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural ...
We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural ...
We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural ...
Microelectronic computers have encountered challenges in meeting all of today’s demands for informat...
Neurological diseases can be studied by performing bio-hybrid experiments using a real-time biomimet...
Summarization: Neuromorphic computing is expanding by leaps and bounds through custom integrated cir...
Artificial intelligence enabled by neural networks has enabled applications in many fields (e.g. med...
We engineered light-gated channelrhodopsins (ChRs) whose current strength and light sensitivity enab...
The primary goal of this thesis was to emulate the function of the biological eye in silicon. In bot...
This work has been supported by the European FACETS project. Within this project, we contribute in d...
We present our latest results on silicon photonics neuromorphic information processing based a.o. on...
Bioelectronic medicine is driving the need to design low-power circuits for interfacing biological n...
Recent neuropsychological research has begun to reveal that neurons encode information in the timing...
Optogenetics confers the ability to precisely control the activity of neural populations with cell t...
This work is a first step towards a long-term goal of understanding computations occurring in the br...
We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural ...
We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural ...
We present a reconfigurable neural processor for real-time simulation and prediction of opto-neural ...
Microelectronic computers have encountered challenges in meeting all of today’s demands for informat...
Neurological diseases can be studied by performing bio-hybrid experiments using a real-time biomimet...
Summarization: Neuromorphic computing is expanding by leaps and bounds through custom integrated cir...
Artificial intelligence enabled by neural networks has enabled applications in many fields (e.g. med...
We engineered light-gated channelrhodopsins (ChRs) whose current strength and light sensitivity enab...
The primary goal of this thesis was to emulate the function of the biological eye in silicon. In bot...
This work has been supported by the European FACETS project. Within this project, we contribute in d...
We present our latest results on silicon photonics neuromorphic information processing based a.o. on...
Bioelectronic medicine is driving the need to design low-power circuits for interfacing biological n...
Recent neuropsychological research has begun to reveal that neurons encode information in the timing...
Optogenetics confers the ability to precisely control the activity of neural populations with cell t...
This work is a first step towards a long-term goal of understanding computations occurring in the br...