Modern computation based on von Neumann architecture is now a mature cutting-edge science. In the von Neumann architecture, processing and memory units are implemented as separate blocks interchanging data intensively and continuously. This data transfer is responsible for a large part of the power consumption. The next generation computer technology is expected to solve problems at the exascale with 10$^{18}$ calculations each second. Even though these future computers will be incredibly powerful, if they are based on von Neumann type architectures, they will consume between 20 and 30 megawatts of power and will not have intrinsic physically built-in capabilities to learn or deal with complex data as our brain does. These needs can be addr...
This talk will provide a historical overview of developments in neurophysiology since the 17th centu...
Morabito FC, Andreou AG, Chicca E. Neuromorphic Engineering: From Neural Systems to Brain-Like Engin...
An introduction to the APL Materials Special Issue on “Emerging Materials in Neuromorphic Computing,...
Modern computation based on von Neumann architecture is now a mature cutting-edge science. In the vo...
Modern computation based on the von Neumann architecture is today a mature cutting-edge science. In ...
Since its invention the modern day computer has shown a significant improvement in its performance a...
Neuromorphic engineering attempts to understand the computational properties of neural processing sy...
Neuromorphic Computing Technology (NCT) is becoming a reality in Europe thanks to a coordinated effo...
Compared with von Neumann’s computer architecture, neuromorphic systems offer more unique and novel ...
Neuromorphic systems are gaining increasing importance in an era where CMOS digital computing techni...
Neuromorphic computing, an emerging non-von Neumann computing mimicking the physical structure and s...
In the face of increasingly large computational demands and the impending halt to Moore's law, the s...
Understanding how the brain manages billions of processing units connected via kilometers of fibers ...
A sustainable computing scenario demands more energy-efficient processors. Neuromorphic systems mimi...
This book aims to convey the most recent progress in hardware-driven neuromorphic systems based on s...
This talk will provide a historical overview of developments in neurophysiology since the 17th centu...
Morabito FC, Andreou AG, Chicca E. Neuromorphic Engineering: From Neural Systems to Brain-Like Engin...
An introduction to the APL Materials Special Issue on “Emerging Materials in Neuromorphic Computing,...
Modern computation based on von Neumann architecture is now a mature cutting-edge science. In the vo...
Modern computation based on the von Neumann architecture is today a mature cutting-edge science. In ...
Since its invention the modern day computer has shown a significant improvement in its performance a...
Neuromorphic engineering attempts to understand the computational properties of neural processing sy...
Neuromorphic Computing Technology (NCT) is becoming a reality in Europe thanks to a coordinated effo...
Compared with von Neumann’s computer architecture, neuromorphic systems offer more unique and novel ...
Neuromorphic systems are gaining increasing importance in an era where CMOS digital computing techni...
Neuromorphic computing, an emerging non-von Neumann computing mimicking the physical structure and s...
In the face of increasingly large computational demands and the impending halt to Moore's law, the s...
Understanding how the brain manages billions of processing units connected via kilometers of fibers ...
A sustainable computing scenario demands more energy-efficient processors. Neuromorphic systems mimi...
This book aims to convey the most recent progress in hardware-driven neuromorphic systems based on s...
This talk will provide a historical overview of developments in neurophysiology since the 17th centu...
Morabito FC, Andreou AG, Chicca E. Neuromorphic Engineering: From Neural Systems to Brain-Like Engin...
An introduction to the APL Materials Special Issue on “Emerging Materials in Neuromorphic Computing,...