small delay
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2022 ◽  
Vol 18 (1) ◽  
pp. 1-37
Author(s):  
Arjun Chaudhuri ◽  
Sanmitra Banerjee ◽  
Jinwoo Kim ◽  
Heechun Park ◽  
Bon Woong Ku ◽  
...  

Monolithic 3D (M3D) integration provides massive vertical integration through the use of nanoscale inter-layer vias (ILVs). However, high integration density and aggressive scaling of the inter-layer dielectric make ILVs especially prone to defects. We present a low-cost built-in self-test (BIST) method that requires only two test patterns to detect opens, stuck-at faults, and bridging faults (shorts) in ILVs. We also propose an extended BIST architecture for fault detection, called Dual-BIST, to guarantee zero ILV fault masking due to single BIST faults and negligible ILV fault masking due to multiple BIST faults. We analyze the impact of coupling between adjacent ILVs arranged in a 1D array in block-level partitioned designs. Based on this analysis, we present a novel test architecture called Shared-BIST with the added functionality of localizing single and multiple faults, including coupling-induced faults. We introduce a systematic clustering-based method for designing and integrating a delay bank with the Shared-BIST architecture for testing small-delay defects in ILVs with minimal yield loss. Simulation results for four two-tier M3D benchmark designs highlight the effectiveness of the proposed BIST framework.


2022 ◽  
Author(s):  
Nermeen Maged Okasha ◽  
AbdelHalem A. Zekry ◽  
Fatma A. Newagy

Abstract This paper combines the advantages of both VLC communication and RF communication for car-to-car applications to achieve a higher data rate, more range coverage, smaller delay, and smaller BER. In the proposed scheme, the VLC maximum communication distance is chosen as 100 m per-hop approximately, which can be extended through multi-hop up to the timeout window of 5 hops. In contrast, the RF maximum communication distance is chosen as 200 m per-hop approximately, which is reasonable at the frequency band of 70 GHz to 90 GHz due to the high attenuation at this frequency band. A MATLAB simulation for a car-to-car framework is built to demonstrate and compare the BER, throughput, and delay outcomes at a hybrid VLC and RF communication. Our results show that VLC can achieve up to four times of the RF throughput while maintaining low BER of 10-6 and small delay of 10-4 with respect to RF communication only.


2021 ◽  
Author(s):  
Lakshmaiah Alluri ◽  
Hemant Jeevan Magadum

This Small Delay Tracing Defect Testing detect small delay defects by creating internal signal races. The races are created by launching transitions along simultaneous two paths, a reference path and a test path. The arrival times of the transitions on a ‘convergence’ or common gate determine the result of the race. On the output of the convergence gate, a static hazard created by a small delay defect presence on the test path which is directed to the input of a scan-latch. A glitch detector is added to the scan latch which records the presence or absence of the glitch.


Symmetry ◽  
2021 ◽  
Vol 13 (11) ◽  
pp. 2217
Author(s):  
Khaled S. Al Noufaey

In this study, the dynamics of a diffusive Lotka–Volterra three-species system with delays were explored. By employing the Galerkin Method, which generates semi-analytical solutions, a partial differential equation system was approximated through mathematical modeling with delay differential equations. Steady-state curves and Hopf bifurcation maps were created and discussed in detail. The effects of the growth rate of prey and the mortality rate of the predator and top predator on the system’s stability were demonstrated. Increase in the growth rate of prey destabilised the system, whilst increase in the mortality rate of predator and top predator stabilised it. The increase in the growth rate of prey likely allowed the occurrence of chaotic solutions in the system. Additionally, the effects of hunting and maturation delays of the species were examined. Small delay responses stabilised the system, whilst great delays destabilised it. Moreover, the effects of the diffusion coefficients of the species were investigated. Alteration of the diffusion coefficients rendered the system permanent or extinct.


2021 ◽  
Vol 03 (03) ◽  
pp. 58-68
Author(s):  
Hassan M. BAYRAM ◽  
Bilal A. MUBDIR

Testing and validating modern hardware such as some subsystems in modern vehicles is a little challenging especially before assembling them into the final product. To achieve a valid real-time test, the tested hardware or unit must be placed into its real-time environment which is not possible in some cases. Recently, and with the presence of advanced simulation software applications, the hardware environment could be simulated easily to fulfill the real-time test properly. Simulating an environment in one loop with real physical hardware knowing as Hardware-in-the-loop is used nowadays in various development fields, medical, industrial, research, and education. Amongst the aforementioned, HIL is widely used in control systems applications. In the paper, building a framework to enable hardware in the loop (HIL) simulation with the aid of MATLAB/Simulink is discussed. Over serial communication, and inexpensive data acquisition (DAQ) peripheral has been developed using a microcontroller unit. the development of the framework is discussed to be used as a guide for building it by using any microcontroller. The resultant performance appeal to excellent real-time response with quite a small delay of about 70ms in the worst case.


Author(s):  
Michèle Kail

Abstract This article presents a large scope of issues on early and late language plasticity that increase our understanding of the neurobehavioral dynamics of change, the main property of the learning brain. In their pioneering work, Bates and Kuhl have convincingly demonstrated that plasticity is intrinsic to development. Bates has provided new data on the impressive recovery of language in children with focal brain injury, highlighting that both hemispheres support the early phases of this change, contrary to previous assumptions. The fundamental reorganization of the early phonemic system around the age of 8 months proposed by Kuhl, combining neural commitment and social abilities, has powerful cascading effects for subsequent word learning. Our developmental crosslinguistic research on online sentence processing in monolinguals and simultaneous bilinguals has revealed distinctive linguistic patterns of “cue cost”, a multifactorial concept relevant for capturing the microplasticity of the processing system. Whatever the language, the shift around the age of 9 towards the canonical adult pattern indicates an efficient adaptive processing occurring with a small delay in bilinguals. Most salient, from childhood, bilinguals exhibit specific cue cost patterns with interactions. In older French adults, cue cost variability is mediated by processing speed which preserves online syntactic abilities but reveals plasticity limits in Alzheimer’s patients.


Author(s):  
Alexey Eremin ◽  
Emiko Ishiwata ◽  
Tetsuya Ishiwata ◽  
Yukihiko Nakata

AbstractIn this paper we study a system of delay differential equations from the viewpoint of a finite time blow-up of the solution. We prove that the system admits blow-up solutions, no matter how small the length of the delay is. In the non-delay system every solution approaches to a stable unit circle in the plane, thus time delay induces blow-up of solutions, which we call “delay-induced blow-up” phenomenon. Furthermore, it is shown that the system has a family of infinitely many periodic solutions, while the non-delay system has only one stable limit cycle. The system studied in this paper is an example that arbitrary small delay can be responsible for a drastic change of the dynamics. We show numerical examples to illustrate our theoretical results.


2021 ◽  
Vol 23 (06) ◽  
pp. 1055-1060
Author(s):  
Pampapathi Yanna ◽  
◽  
Dr. Nithin M ◽  
Jeetpal Singh Chhabra ◽  
◽  
...  

The existing fault models like stuck-at, small delay defect, transition, and bridge fault models and their associated patterns are becoming less efficient, as the technology moves to increasingly smaller geometries. It is because traditional defect models target the faults only on IC gate boundaries, and the interconnects between the cells, but a significant population of defects (perhaps up to 50%) occurs within the cells or gates which are not specifically targeted by existing ATPG fault models. In this paper, a new ATPG methodology known as the Cell-aware test is implemented explicitly to target the defects caused by cell-internal open and short faults and improve the manufacturing test quality by minimizing the test escapes. This work explains how a Cell-Aware ATPG method performs a characterization on the GDSII data of library cell`s to produce a CAT library view (UDFM), test Pattern generation, and comparison between Traditional and Cell-Aware ATPG. The Cell-Aware ATPG is implemented using Tessent Testkompress, traditional ATPG is also developed to study and analyze both ATPG methodologies comparatively. Experiment results show a significant improvement in faults being targeted at an expense of an increase in pattern count and run-time. Obtained 71.28% and 59.38% test coverage for UDFM static and UDFM delay respectively. Achieved significant improvement in the test escapes with Cell-Aware Patterns when compared to traditional ATPG patterns.


2021 ◽  
Vol 46 (1) ◽  
pp. 1-30
Author(s):  
Antoine Amarilli ◽  
Pierre Bourhis ◽  
Stefan Mengel ◽  
Matthias Niewerth

We consider the information extraction framework known as document spanners and study the problem of efficiently computing the results of the extraction from an input document, where the extraction task is described as a sequential variable-set automaton (VA). We pose this problem in the setting of enumeration algorithms, where we can first run a preprocessing phase and must then produce the results with a small delay between any two consecutive results. Our goal is to have an algorithm that is tractable in combined complexity, i.e., in the sizes of the input document and the VA, while ensuring the best possible data complexity bounds in the input document size, i.e., constant delay in the document size. Several recent works at PODS’18 proposed such algorithms but with linear delay in the document size or with an exponential dependency in size of the (generally nondeterministic) input VA. In particular, Florenzano et al. suggest that our desired runtime guarantees cannot be met for general sequential VAs. We refute this and show that, given a nondeterministic sequential VA and an input document, we can enumerate the mappings of the VA on the document with the following bounds: the preprocessing is linear in the document size and polynomial in the size of the VA, and the delay is independent of the document and polynomial in the size of the VA. The resulting algorithm thus achieves tractability in combined complexity and the best possible data complexity bounds. Moreover, it is rather easy to describe, particularly for the restricted case of so-called extended VAs. Finally, we evaluate our algorithm empirically using a prototype implementation.


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