Optical logic gates are considered as fundamental building blocks for optical computation and they enable logic functions to be performed extremely quickly without the generation of heat and crosstalk. Here, we discuss the design of a multi-functional optical logic gate based on an on-chip ...
Optoelectronic logic gates (OELGs) are promising building blocks for next-generation logic circuits and potential applications in light detection and ranging, machine vision and real-time video analysis. On-chip OELGs operating at telecom wavelengths are highly desirable for integration with the growing...
There are computer programs that will analyze the action of a gate circuit using Boolean algebra. Figure 10.2 shows truth tables for the basic two-input AND, OR, and NOT gates. Of these, the NOT gate is a simple one, with just one input and one output. Its action is that of a ...
“construct” the NAND function using a NAND gate, since there is nothing to do. To make a NOR gate perform the NAND function, we must invert all inputs to the NOR gate as well as the NOR gate’s output. For a two-input gate, this requires three more NOR gates connected as ...
modular neural networkbackpropagationA new BiCMOS dynamic logic family is presented. The logic gates provide a significant speed-up over existing logic families, such as, CMOS, BiCMOS and dynamic CMOS for the same feature size. The proposed logic family provides a high drive capability to drive ...
Uses of Complementary Gates Complementary gates are especially useful in “crowded” circuits where there may not be enough physical room to mount the additional integrated circuit chips necessary to provide both inverted and non-inverted outputs using standard gates and additional inverters. They are ...
"Our neuristors for logic gates were designed with a dual-gate structure, employing 2D materials as channel materials," Zhou said. "Specially, we used different polarities of 2D materials including ambipolar-type, n- and p-type features in the neuristor to generate different logic operations....
We refer to this new architecture as Neural Arithmetic Logic Units with Independent Gates (NALUIG), which can represent numerical values through linear activations. It employs primitive arithmetic operators, managed by learned gates that operate independently of the input, to differentiate weight ...
Security Insights Additional navigation options main BranchesTags Code This branch is up to date withcure-lab/DeepGate:main. Code repository for the paper: DeepGate: Learning Neural Representations of Logic Gates, ACM/IEEE Design Automation Conference (DAC), 2022. ...
we fabricate logic half-adder and parity-checker circuits using a WSe2neuristor and a MoS2neuristor in a two-transistor two-resistor configuration, offering an area saving of 78% compared to circuits based on MoS2gates in a traditional design. We also propose a binary neural network that is ...