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2022 ◽  
Vol 18 (1) ◽  
pp. 1-27
Author(s):  
Javad Bagherzadeh ◽  
Aporva Amarnath ◽  
Jielun Tan ◽  
Subhankar Pal ◽  
Ronald G. Dreslinski

Monolithic 3D technology is emerging as a promising solution that can bring massive opportunities, but the gains can be hindered due to the reliability issues exaggerated by high temperature. Conventional reliability solutions focus on one specific feature and assume that the other required features would be provided by different solutions. Hence, this assumption has resulted in solutions that are proposed in isolation of each other and fail to consider the overall compatibility and the implied overheads of multiple isolated solutions for one system. This article proposes a holistic reliability management engine, R2D3, for post-Moore’s M3D parallel systems that have low yield and high failure rate. The proposed engine, comprising a controller, reconfigurable crossbars, and detection circuitry, provides concurrent single-replay detection and diagnosis, fault-mitigating repair, and aging-aware lifetime management at runtime. This holistic view enables us to create a solution that is highly effective while achieving a low overhead. Our solution achieves 96% coverage of defect; reduces V th degradation by 53%, leading to a 78% performance improvement on average over 8 years for an eight-core system; and ultimately yields a 2.16× longer mean-time-to-failure (MTTF) while incurring an overhead of 7.4% in area, 6.5% in power, and an 8.2% decrease in frequency.


2022 ◽  
Author(s):  
Wen Jiang ◽  
Denis Feliers ◽  
W. Jim Zheng ◽  
Fangyuan Zhang ◽  
Degeng Wang

Gene expression is time-consuming, and the delay from transcription activation to produced proteins is sequentially longer from bacteria to yeast and to humans. How human cells bypass the delay and attain operational efficiency, i.e., quick proteomic response to signals, is not well understood. The computer has endured the same system latency issue due to much slower information retrieval (hard drive (HD) to memory and to CPU) than CPU execution, and mitigated it via efficient memory management, namely, the spatiotemporal locality principles that control specialized user functions and the permanent caching of core system functions, the operating system (OS) kernel. Thus, in this study, we unified gene expression and HD-memory-CPU information flow as instances of the Shannon information theory, both supporting the respective system operations and consisting of three components: information storage, the execution/decoding step, and the channel for the dynamic storage-to-execution information flow; the gene expression machinery and their regulators, and the OS kernel, were deemed as the respective channels. This abstraction prompted a multi-omic comparative analysis, generating experimental evidence that transcriptome regulation shares the computer memory management principles. First, the temporal locality principle explains the mRNA stabilization-by-translation regulatory mechanism and controls specialized cellular functions. Second, the caching principle explains cytoplasmic mRNA sequestration and the defiance of the locality principle by highly sequestered mRNAs. Third, strikingly, in both systems, the caching principle controls the information channels; similar to permanent caching of OS kernel, basic translation/transcription machinery and their regulators are the top most sequestered mRNAs. Summarily, the locality and the caching principles differentially regulate specialized functions and core system functions, respectively, integrating the complexity of transcriptome regulation with cellular operational latency mitigation.


2021 ◽  
Vol 8 (4) ◽  
pp. 2131-2143
Author(s):  
Ahmad Farisi

Dalam perjalanan 40 tahun berdirinya SMA Negeri 6 Palembang sejak tahun 1981, dibutuhkan sebuah media yang dapat menginventarisir data-data alumni yang telah tersebar sejak angkatan pertama hingga sekarang. Oleh karena itu, studi ini merancang bangun sebuah aplikasi pendataan alumni di SMA Negeri 6 Palembang. Studi ini dilakukan dengan menggunakan metodologi penelitian practism dengan research heuristics pada bidang software engineering yang menjawab rumusan masalah dengan mengembangkan perangkat lunak berdasarkan research perspective yang dilakukan pada tahap pra-penelitian. Sementara itu, pengembangan sistem dilakukan dengan menggunakan metode Kanban pada pendekatan Agile Development Cycle. Pada tahap pra-penelitian, studi ini mengumpulkan data dengan melakukan wawancara kepada pihak SMA Negeri 6 Palembang terkait kebutuhan pengembangan apllikasi. Aplikasi ini dikembangkan pada platform web dengan framework CodeIgniter dan custom core system class yang dibangun secara custom. Aplikasi ini memiliki 2 aktor yang terdiri dari alumni dan admin. Fitur-fitur aplikasi ini adalah pengelolaan alumni yang meliputi data identitas, pendidikan, dan pekerjaan alumni. Studi ini melakukan evaluasi aplikasi dengan menggunakan webuse method. Hasilnya menunjukkan nilai usability 0,79 untuk responden alumni dan nilai usability 0,76 untuk responden admin. Setelah diinterpretasikan, kedua nilai usability tersebut menunjukkan predikat baik.


2021 ◽  
Vol 15 (23) ◽  
pp. 148-163
Author(s):  
Dalia Alshmasi ◽  
Jawaher Alharbi ◽  
Nada Alhothly

The Learning Management System (LMS) is a core system that contributes to support e-learning, managing content, provide learning tools, and facilitate communication between students and teachers. This project aims to measure the impact of Blackboard-based e-learning use. We measure the effect of blackboard use on male students by comparing male and female students ’degrees of online learning (online class preparation) and traditional (face-to-face) learning at Qassim University, using statistical methods and data mining algorithms. We also develop A supportive tool that helps teachers manage some important tasks such as (student attendance, interaction, grades ... etc.). This tool will take student information and push automatic notifications to all concerned people via SMS.


2021 ◽  
Author(s):  
S. Sudhakar ◽  
A. Akashwar ◽  
M. Ajay Someshwar ◽  
T. Dhaneshguru ◽  
M. Prem Kumar

The growing network traffic rate in wireless communication demands extended network capacity. Current crypto core methodologies are already reaching the maximum achievable network capacity limits. The combination of AES with other crypto cores and inventing new optimization models have emerged. In this paper, some of the prominent issues related to the existing AES core system, namely, lack of data rate, design complexity, reliability, and discriminative properties. In addition to that, this work also proposes a biometric key generation for AES core that constitutes simpler arithmetic such as substitution, modulo operation, and cyclic shifting for diffusion and confusion metrics which explore cipher transformation level. It is proved that in AES as compared to all other functions S-Box component directly influences the overall system performance both in terms of power consumption overhead, security measures, and path delay, etc.


2021 ◽  
Vol 23 (1) ◽  
Author(s):  
Raymond Chen ◽  
Andrew Blanchard ◽  
Joseph Kushner ◽  
Brent Harrington ◽  
Jia Liu ◽  
...  

2021 ◽  
Vol 1 (1) ◽  
Author(s):  
Olov Andersson ◽  
Patrick Doherty ◽  
Mårten Lager ◽  
Jens-Olof Lindh ◽  
Linnea Persson ◽  
...  

AbstractA research arena (WARA-PS) for sensing, data fusion, user interaction, planning and control of collaborative autonomous aerial and surface vehicles in public safety applications is presented. The objective is to demonstrate scientific discoveries and to generate new directions for future research on autonomous systems for societal challenges. The enabler is a computational infrastructure with a core system architecture for industrial and academic collaboration. This includes a control and command system together with a framework for planning and executing tasks for unmanned surface vehicles and aerial vehicles. The motivating application for the demonstration is marine search and rescue operations. A state-of-art delegation framework for the mission planning together with three specific applications is also presented. The first one concerns model predictive control for cooperative rendezvous of autonomous unmanned aerial and surface vehicles. The second project is about learning to make safe real-time decisions under uncertainty for autonomous vehicles, and the third one is on robust terrain-aided navigation through sensor fusion and virtual reality tele-operation to support a GPS-free positioning system in marine environments. The research results have been experimentally evaluated and demonstrated to industry and public sector audiences at a marine test facility. It would be most difficult to do experiments on this large scale without the WARA-PS research arena. Furthermore, these demonstrator activities have resulted in effective research dissemination with high public visibility, business impact and new research collaborations between academia and industry.


2021 ◽  
Vol 118 (45) ◽  
pp. e2110474118
Author(s):  
Matteo Visconti di Oleggio Castello ◽  
James V. Haxby ◽  
M. Ida Gobbini

Processes evoked by seeing a personally familiar face encompass recognition of visual appearance and activation of social and person knowledge. Whereas visual appearance is the same for all viewers, social and person knowledge may be more idiosyncratic. Using between-subject multivariate decoding of hyperaligned functional magnetic resonance imaging data, we investigated whether representations of personally familiar faces in different parts of the distributed neural system for face perception are shared across individuals who know the same people. We found that the identities of both personally familiar and merely visually familiar faces were decoded accurately across brains in the core system for visual processing, but only the identities of personally familiar faces could be decoded across brains in the extended system for processing nonvisual information associated with faces. Our results show that personal interactions with the same individuals lead to shared neural representations of both the seen and unseen features that distinguish their identities.


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