Can memristors learn?
Abstract not provided.
Publications
Resistive Memory for Neuromorphic Algorithm Acceleration
Abstract not provided.
Adaptive Neural Algorithms: The What Why and How
Abstract not provided.
Biologically-Inspired Computing at Sandia
Abstract not provided.
A Signal Processing Approach for Cyber Data Classification with Deep Neural Networks
Procedia Computer Science
Recent cyber security events have demonstrated the need for algorithms that adapt to the rapidly evolving threat landscape of complex network systems. In particular, human analysts often fail to identify data exfiltration when it is encrypted or disguised as innocuous data. Signature-based approaches for identifying data types are easily fooled and analysts can only investigate a small fraction of network events. However, neural networks can learn to identify subtle patterns in a suitably chosen input space. To this end, we have developed a signal processing approach for classifying data files which readily adapts to new data formats. We evaluate the performance for three input spaces consisting of the power spectral density, byte probability distribution and sliding-window entropy of the byte sequence in a file. By combining all three, we trained a deep neural network to discriminate amongst nine common data types found on the Internet with 97.4% accuracy.
Quantification of Neural Computation
Abstract not provided.
How to model the whole brain?
Abstract not provided.
Review of "Cross Neural" Research Effort
Abstract not provided.
Using High Performance Computing to Examine the Processes of Neurogenesis Underlying Pattern Separation and Completion of Episodic Information
Adult neurogenesis in the hippocampus region of the brain is a neurobiological process that is believed to contribute to the brain's advanced abilities in complex pattern recognition and cognition. Here, we describe how realistic scale simulations of the neurogenesis process can offer both a unique perspective on the biological relevance of this process and confer computational insights that are suggestive of novel machine learning techniques. First, supercomputer based scaling studies of the neurogenesis process demonstrate how a small fraction of adult-born neurons have a uniquely larger impact in biologically realistic scaled networks. Second, we describe a novel technical approach by which the information content of ensembles of neurons can be estimated. Finally, we illustrate several examples of broader algorithmic impact of neurogenesis, including both extending existing machine learning approaches and novel approaches for intelligent sensing.
Regulation and Function of Adult Neurogenesis. From Genes to Cognition
Physiological Reviews
Adult neurogenesis in the hippocampus is a notable process due not only to its uniqueness and potential impact on cognition but also to its localized vertical integration of different scales of neuroscience, ranging from molecular and cellular biology to behavior. Our review summarizes the recent research regarding the process of adult neurogenesis from these different perspectives, with particular emphasis on the differentiation and development of new neurons, the regulation of the process by extrinsic and intrinsic factors, and their ultimate function in the hippocampus circuit. Arising from a local neural stem cell population, new neurons progress through several stages of maturation, ultimately integrating into the adult dentate gyrus network. Furthermore, the increased appreciation of the full neurogenesis process, from genes and cells to behavior and cognition, makes neurogenesis both a unique case study for how scales in neuroscience can link together and suggests neurogenesis as a potential target for therapeutic intervention for a number of disorders.
Development Characterization and Modeling of a TaOx ReRAM for a Neuromorphic Accelerator
Abstract not provided.
Development characterization and modeling of a TaOx ReRAM for a neuromorphic accelerator
This report discusses aspects of neuromorphic computing and how it is used to model microsystems.
Neuromorphic Computing at Sandia
Abstract not provided.
Are new neurons in humans important?
Abstract not provided.
Revisiting a Model: Continually Reassessing the Computational Role of Adult Neurogenesis
Abstract not provided.
Memristors as Synapses in Artificial Neural Networks: Biomimicry Beyond Weight Change
Abstract not provided.
Neurogenesis inspired computing
Abstract not provided.
Computational modeling of human adult neurogenesis - information theoretic analysis of biologically realistic dentate gyrus networks
Abstract not provided.
Neurons to algorithms LDRD final report
Over the last three years the Neurons to Algorithms (N2A) LDRD project teams has built infrastructure to discover computational structures in the brain. This consists of a modeling language, a tool that enables model development and simulation in that language, and initial connections with the Neuroinformatics community, a group working toward similar goals. The approach of N2A is to express large complex systems like the brain as populations of a discrete part types that have specific structural relationships with each other, along with internal and structural dynamics. Such an evolving mathematical system may be able to capture the essence of neural processing, and ultimately of thought itself. This final report is a cover for the actual products of the project: the N2A Language Specification, the N2A Application, and a journal paper summarizing our methods.
Adult neurogenesis and scale: how important are large scale neural simulations?
Abstract not provided.
Neurons to Algorithms (N2A)
Abstract not provided.
Large scale modeling of neurogenesis
Abstract not provided.
Adult Hippocampal Neurogenesis: Memory Resolution Pattern Separation or Both?
Abstract not provided.
Adult Neurogenesis: Implications on Human And Computational Decision Making
Abstract not provided.
How neurogenesis and the scale of the dentate gyrus affect the resolution of memories
Abstract not provided.
Results 151–175 of 184