Noise Mitigation with Delay Pulses in the IBM Quantum Experience

The multilevel per cell technology and continued scaling down process technology significantly improves the storage density of NAND flash memory but also brings about a challenge in that data reliability degrades due to the serious noise. To ensure the data reliability, many noise mitigation technologies have been proposed. However, they only mitigate one of the noises of the NAND flash memory channel. In this paper, we consider all the main noises and present a novel neural network-assisted error correction (ANNAEC) scheme to increase the reliability of multi-level cell (MLC) NAND flash memory. To avoid using retention time as an input parameter of the neural network, we propose a relative log-likelihood ratio (LLR) to estimate the actual LLR. Then, we transform the bit detection into a clustering problem and propose to employ a neural network to learn the error characteristics of the NAND flash memory channel. Therefore, the trained neural network has optimized performances of bit error detection. Simulation results show that our proposed scheme can significantly improve the performance of the bit error detection and increase the endurance of NAND flash memory.

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Acoustic meta-silencer: Toward enabling ultrawide-band air-permeable noise barrier

Journal of Vibration and Control ◽

10.1177/10775463211001183 ◽

2021 ◽

pp. 107754632110011

Author(s):

Mohammad Javad Khodaei ◽

Amin Mehrvarz ◽

Reza Ghaffarivardavagh ◽

Nader Jalili

Keyword(s):

Heat Transfer ◽

Design Methodology ◽

Heat Transfer Performance ◽

Transmission Loss ◽

Design Parameters ◽

Transfer Performance ◽

Noise Mitigation ◽

Acoustic Cavity ◽

Road Map ◽

Noise Barrier

In this article, we have first presented a metasurface design methodology by coupling the acoustic cavity to the coiled channel. The geometrical design parameters in this structure are subsequently studied both analytically and numerically to identify a road map for silencer design. Next, upon tuning the design parameters, we have introduced an air-permeable noise barrier capable of sound silencing in the ultrawide band of the frequency. It is has been shown that the presented metasurface can achieve +10 dB sound transmission loss from 170 Hz to 1330 Hz (≈3 octaves). Furthermore, we have numerically studied the ventilation and heat transfer performance of the designed metasurface. Enabling noise mitigation by leveraging the proposed metasurface opens up new possibilities ranging from residential and office noise reduction to enabling ultralow noise fan, propellers, and machinery.

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An improved novel quantum image representation and its experimental test on IBM quantum experience

Scientific Reports ◽

10.1038/s41598-021-93471-7 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Jie Su ◽

Xuchao Guo ◽

Chengqi Liu ◽

Shuhan Lu ◽

Lin Li

Keyword(s):

Image Processing ◽

Information Processing ◽

Quantum Information ◽

Quantum Information Processing ◽

Image Representation ◽

Reference Value ◽

Vertical Position ◽

Quantum Image ◽

Quantum Image Representation ◽

Ibm Quantum Experience

AbstractQuantum image representation (QIR) is a necessary part of quantum image processing (QIP) and plays an important role in quantum information processing. To address the problems that NCQI cannot handle images with inconsistent horizontal and vertical position sizes and multi-channel image processing, an improved color digital image quantum representation (INCQI) model based on NCQI is proposed in this paper. The INCQI model can process color images and facilitate multi-channel quantum image transformations and transparency information processing of images using auxiliary quantum bits. In addition, the quantum image control circuit was designed based on INCQI. And quantum image preparation experiments were conducted on IBM Quantum Experience (IBMQ) to verify the feasibility and effectiveness of INCQI quantum image preparation. The prepared image information was obtained by quantum measurement in the experiment, and the visualization of quantum information was successfully realized. The research in this paper has some reference value for the research related to QIP.

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Rejuvenation Mechanism of Asphalt Mixtures Modified with Crumb Rubber

CivilEng ◽

10.3390/civileng2020020 ◽

2021 ◽

Vol 2 (2) ◽

pp. 370-384

Author(s):

Hossein Noorvand ◽

Kamil Kaloush ◽

Jose Medina ◽

Shane Underwood

Keyword(s):

Tensile Strength ◽

Dynamic Loading ◽

Creep Compliance ◽

Asphalt Mixture ◽

Crumb Rubber ◽

Indirect Tensile Strength ◽

Laboratory Evaluation ◽

Strength Testing ◽

Noise Mitigation ◽

Indirect Tensile

Asphalt aging is one of the main factors causing asphalt pavements deterioration. Previous studies reported on some aging benefits of asphalt rubber mixtures through laboratory evaluation. A field observation of various pavement sections of crumb rubber modified asphalt friction courses (ARFC) in the Phoenix, Arizona area indicated an interesting pattern of transverse/reflective cracking. These ARFC courses were placed several years ago on existing jointed plain concrete pavements for highway noise mitigation. Over the years, the shoulders had very noticeable and extensive cracking over the joints; however, the driving lanes of the pavement showed less cracking formation in severity and extent. The issue with this phenomenon is that widely adopted theories that stem from continuum mechanics of materials and layered mechanics of pavement systems cannot directly explain this phenomenon. One hypothesis could be that traffic loads continually manipulate the pavement over time, which causes some maltenes (oils and resins) compounds absorbed in the crumb rubber particles to migrate out leading to rejuvenation of the mastic in the asphalt mixture. To investigate the validity of such a hypothesis, an experimental laboratory testing was undertaken to condition samples with and without dynamic loads at high temperatures. This was followed by creep compliance and indirect tensile strength testing. The results showed the higher creep for samples aged with dynamic loading compared to those aged without loading. Higher creep compliance was attributed to higher flexibility of samples due to the rejuvenation of the maltenes. This was also supported by the higher fracture energy results obtained for samples conditioned with dynamic loading from indirect tensile strength testing.

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