Searching time operation reduced IPV6 matching through dynamic DNA routing table for less memory and fast IP processing

Hemalatha, M.; Rukmanidevi, S.; Shanker, N. R.

doi:10.1007/s00500-020-05379-5

Cited by 4 publications

(3 citation statements)

References 31 publications

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“…The width and height indicate bandwidth (BW) and the ER. In previous works [9][10][11][12], efforts were devoted to decreasing IL and affecting XTL low; see Figure 1A. The suggested IL does not always lead to a low XTL.…”

Section: Problem Statementmentioning

confidence: 97%

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Making Path Selection Bright: A Routing Algorithm for On-Chip Benes Networks

Zhao,

Li,

2024

Electronics

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Optical interconnects are being discussed as a replacement for conventional electrical interconnects and are expected to be applied for future generations of high-performance supercomputers and data centers. Benes networks have attracted much attention because they require only 2 × 2 optical switches, which reduce the cost of rearrangeable nonblocking. However, optical power imbalances can significantly challenge receiver sensitivity. In this work, insertion loss (IL) fairness has been proposed and applied to the field of switches to achieve a relative balance of optical path data transmission in Benes networks. Fairness can be achieved when the port count is small (4 × 4) if the IL between ports is balanced. When the number of ports is moderate (8 × 8), we must use a suitable algorithm or determine the appropriate operating wavelength to minimize the power imbalance. An efficient two-step algorithm (ETS) has particular advantages in solving the path fairness problem and mitigating the power imbalance. As the number of ports increases, the switch states and topology jointly deteriorate the power imbalance. Finally, the ETS algorithm narrows the dynamic range requirement to 13.66 dB, with a 2 dB improvement. It achieves an extinction ratio of 24 dB and a bandwidth of 375 GHz, which outperforms the conventional 32 × 32 Benes network, respectively.

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Section: Problem Statementmentioning

confidence: 97%

“…One can reroute the existing links to accommodate the new requests. In this context, designing an intelligent routing table for Benes has been a hot topic in recent years in both academia and industry [3,4,[9][10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Making Path Selection Bright: A Routing Algorithm for On-Chip Benes Networks

Zhao,

Li,

2024

Electronics

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“…The characterization and identification of arrhythmias are the major importance of heart diagnosis. The different techniques [5][6][7][8][9][10] used for detecting arrhythmias in the ECG signals need some vital processing phases namely, preprocess, segment, extract, and classify. 11 To detect cardiac arrhythmias, electrocardiogram (ECG) is commonly employed by doctors for identifying the patient condition.…”

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confidence: 99%

Optimal AdaBoost kernel support vector machine for monitoring arrhythmia patients utilizing Internet of Things‐cloud environment

Hemalatha¹

2022

Concurrency and Computation

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Summary In general, heart disease is considered as the most severe disease that results in high mortality rate globally. An arrhythmia is one type of heart disease caused due to asymmetrical heartbeat rhythm rate (i.e., heartbeat will be too slow or too fast). The generation of IoT devices as well as ECG signals is capable of tracking the heart rhythm of the patients consistently. Even though, analyzing ECG signals using cloud‐based techniques achieves a certain accuracy level with high latency. Then by evaluating the ECG signals with fog‐based approaches minimizes the latency but the computing capability is minimum. Therefore, wearable devices and fog devices are linked directly to attain high service quality with minimum latency. To conquer such drawbacks, this article proposes a novel AdaBoost kernel support vector machine‐based remora optimization (AKSVM based RO) algorithm to analyze the ECG signals and to initiate the crisis with minimum time delay. The proposed approach predicts the ECG signals of arrhythmia affected persons from an IoT wearable device. In addition to this, the proposed AKSVM‐RO approach is more feasible to deploy in fog environment. Also, it assists in optimizing the time delay in calling the ambulance service during emergency situations. Finally, the experimental investigations are conducted for various approaches with respect to simulation measures to minimize the latency and accuracy of the proposed system.

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A Memory-Efficient Adaptive Optimal Binary Search Tree Architecture for IPV6 Lookup Address

Vijay¹,

Punithavathani²

2021

Mobile Computing and Sustainable Informatics

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Searching time operation reduced IPV6 matching through dynamic DNA routing table for less memory and fast IP processing

Cited by 4 publications

References 31 publications

Making Path Selection Bright: A Routing Algorithm for On-Chip Benes Networks

Making Path Selection Bright: A Routing Algorithm for On-Chip Benes Networks

Optimal AdaBoost kernel support vector machine for monitoring arrhythmia patients utilizing Internet of Things‐cloud environment

A Memory-Efficient Adaptive Optimal Binary Search Tree Architecture for IPV6 Lookup Address

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