Nanoscale memristor crossbars provide a natural fabric for in-memory computing and have recently been shown to efficiently perform exact logical operations by exploiting the flow of current through crossbar interconnects. In this paper, we extend the flow-based crossbar computing approach to approximate stochastic computing. First, we show that the natural flow of current through probabilistically-switching memristive nano-switches in crossbars can be used to perform approximate stochastic computing. Second, we demonstrate that optimizing the approximate stochastic computations in terms of the number of required random bits leads to stochastic computing using bit-vector stochastic streams of varying bit-widths - a hybrid of the traditional ...
Memristor or RRAM (Resistive Random-Access Memory) based crossbar array architecture is considered a...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
Memristive devices have emerged as compact nonvolatile memory elements which can be used as synapses...
The inevitable variability within electronic devices causes strict constraints on operation, reliabi...
Stochastic Computing (SC) is a computing paradigm that allows for the low-cost and low-power computa...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...
Since the fabrication of nanoscale memristors by HP Labs in 2008, there has been a sustained interes...
Stochastic computing (SC) is an unconventional computing paradigm that operates on stochastic bit st...
We present the design and implementation of a full adder circuit that exploits the natural flow of c...
This paper demonstrates an efficient use of Magnetic Tunnel Junctions as Stochastic Number Generator...
Abstract Biological neural networks outperform current computer technology in terms of power consump...
The recent emerging memristor can provide non-volatile memory storage but also intrinsic computing f...
The rise of data-intensive computational loads has exposed the processor-memory bottleneck in Von Ne...
The key operation in stochastic neural networks, which have become the state-of-the-art approach for...
Memristor or RRAM (Resistive Random-Access Memory) based crossbar array architecture is considered a...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
Memristive devices have emerged as compact nonvolatile memory elements which can be used as synapses...
The inevitable variability within electronic devices causes strict constraints on operation, reliabi...
Stochastic Computing (SC) is a computing paradigm that allows for the low-cost and low-power computa...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...
Since the fabrication of nanoscale memristors by HP Labs in 2008, there has been a sustained interes...
Stochastic computing (SC) is an unconventional computing paradigm that operates on stochastic bit st...
We present the design and implementation of a full adder circuit that exploits the natural flow of c...
This paper demonstrates an efficient use of Magnetic Tunnel Junctions as Stochastic Number Generator...
Abstract Biological neural networks outperform current computer technology in terms of power consump...
The recent emerging memristor can provide non-volatile memory storage but also intrinsic computing f...
The rise of data-intensive computational loads has exposed the processor-memory bottleneck in Von Ne...
The key operation in stochastic neural networks, which have become the state-of-the-art approach for...
Memristor or RRAM (Resistive Random-Access Memory) based crossbar array architecture is considered a...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
Memristive devices have emerged as compact nonvolatile memory elements which can be used as synapses...