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Journals in Hardware and architecture general

Design Studies

  • ISSN: 0142-694X
  • 5 Year impact factor: 4.1
  • Impact factor: 3.2
Design Studies The Interdisciplinary Journal of Design ResearchMission Our mission at Design Studies is to foster contemporary discourse and discoveries in the field of design. We commit to transcend traditional disciplinary boundaries and champion inclusivity in academic contributions. We welcome submissions from a diverse spectrum of individuals and perspectives globally. We invite an engaged community of authors to advance design through research, scholarship and creative practice.Aims Design Studies is a leading international academic journal dedicated to the comprehensive examination and discourse of design.The editorial aim is to publish work that is relevant to a broad audience of researchers, educators, and practitioners. We welcome original scholarly research papers concerned with the process, perspectives and outcomes of designing in all its application areas. Insights into the process of design from experimental or empirical research, the design of objects, environments, and systems and their impacts on society and the environment, and critical theory and analysis should galvanize thought leadership and community.Design Studies fills a unique niche among design publications of its type by publishing articles that strike a balance between theoretical and practical modes of inquiry, to produce critical understandings of design practice and its effects in society through the following distinctive aims.Foster Interdisciplinary Design Discussions: Create a space for interdisciplinary discussions on fundamental design elements, including process, cognition, and philosophy, while emphasising research, theory, and innovative outcomes.Explore Design's Theoretical Evolution: Assess the history and future of design by examining its development and contributing to future practices, focusing on rigorous research approachesCritically Analyse Design Practices: Encourage critical evaluations of design methodologies and outcomes, including ethical, social, and environmental considerations.Embrace Diverse Design Contexts: Examine design within various cultural, socio-economic, organisational and political settings, highlighting its impact on social change, sustainability, and community empowerment.Expand the Design Conversation: Welcome a wide range of contributions, including practical case studies, theoretical explorations, and methodological critiques, to engage in a comprehensive design discourse.Scope Design Studies seeks to expand the boundaries of design knowledge and practice. We invite authors to submit papers that not only challenge traditional norms and methodologies but also promote a forward-thinking and inclusive dialogue within the design community. Our scope encompasses a wide range of design domains, including but not limited to engineering design, industrial design, product design, systems design, innovation, and current design thinking paradigms within the overarching research context.Design Studies welcomes articles on a wide range of topic areas across design's core facets centred on the main aims of the journal.Design Theory • Design Process • Philosophy of Design • Design Conceptualisations and Perspectives • Design ThinkingDesign Research and Methodology • Design Research Methods • Interdisciplinary Design Research • Co-DesignDesign Practice • Practice-led Design Research • Design Innovation • Design JusticeDesign Education • Design Pedagogy • Design Teaching and Learning • Design DialogueDesign Impact • Human Factors in Design • Design Manufacturing and Materials • Product Engineering • Design Sustainability
Design Studies

Future Generation Computer Systems

  • ISSN: 0167-739X
  • 5 Year impact factor: 5.9
  • Impact factor: 6.2
The International Journal of eScienceComputing infrastructures and systems are rapidly developing and so are novel ways to map, control and execute scientific applications which become more and more complex and collaborative. Computational and storage capabilities, databases, sensors, and people need true collaborative tools. Over the last years there has been a real explosion of new theory and technological progress supporting a better understanding of these wide-area, fully distributed sensing and computing systems. Big Data in all its guises require novel methods and infrastructures to register, analyze and distill meaning.FGCS aims to lead the way in advances in distributed systems, collaborative environments, high performance and high performance computing, Big Data on such infrastructures as grids, clouds and the Internet of Things (IoT).The Aims and Scope of FGCS cover new developments in:[1] Applications and application support:Novel applications for novel e-infrastructuresComplex workflow applicationsBig Data registration, processing and analysesProblem solving environments and virtual laboratoriesSemantic and knowledge based systemsCollaborative infrastructures and virtual organizationsMethods for high performance and high throughput computingUrgent computingScientific, industrial, social and educational implicationsEducation[2] Methods and tools:Tools for infrastructure development and monitoringDistributed dynamic resource management and schedulingInformation managementProtocols and emerging standardsMethods and tools for internet computingSecurity aspects[3] Theory:Process specification;Program and algorithm designTheoretical aspects of large scale communication and computationScaling and performance theoryProtocols and their verification
Future Generation Computer Systems

Information Systems

  • ISSN: 0306-4379
  • 5 Year impact factor: 2.9
  • Impact factor: 3
Databases: Their Creation, Management and UtilizationInformation systems are the software and hardware systems that support data-intensive applications. The journal Information Systems publishes articles concerning the design and implementation of languages, data models, process models, algorithms, software and hardware for information systems.Subject areas include data management issues as presented in the principal international database conferences (e.g., ACM SIGMOD/PODS, VLDB, ICDE and ICDT/EDBT) as well as data-related issues from the fields of data mining/machine learning, information retrieval coordinated with structured data, internet and cloud data management, business process management, web semantics, visual and audio information systems, scientific computing, and data science. We welcome systems papers that focus on implementation considerations in massively parallel data management, fault tolerance, and special purpose hardware for data-intensive systems; theoretical papers that either break significant new ground or unify and extend existing algorithms for data-intensive applications; and manuscripts from application domains, such as urban informatics, social and natural science, and Internet of Things, which present innovative, high-performance, and scalable solutions to data management problems for those domains.All papers should motivate the problems they address with compelling examples from real or potential applications. Systems papers must be serious about experimentation either on real systems or simulations based on traces from real systems. Papers from industrial organizations are welcome. Theoretical papers should have a clear motivation from applications and clearly state which ideas have potentially wide applicability.Authors of selected articles that have been accepted for publication in Information Systems are invited by the EiCs to submit the experiment described in their papers for reproducibility validation. The resulting additional reproducibility paper is co-authored by the reproducibility reviewers and the authors of the original publication.As part of its commitment to reproducible science, Information Systems also welcomes experimental reproducible survey papers. Such submissions must: (i) apply a substantial portion of the different surveyed techniques to at least one existing benchmark and perhaps one or more new benchmarks, and (ii) be reproducible (the validation of reproducibility will result in a separate paper following the guidelines of our Reproducibility Editor).In addition to publishing submitted articles, the Editors-in-Chief will invite retrospective articles that describe significant projects by the principal architects of those projects. Authors of such articles should write in the first person, tracing the social as well as technical history of their projects, describing the evolution of ideas, mistakes made, and reality tests. We will make every effort to allow authors the right to republish papers appearing in Information Systems in their own books and monographs.
Information Systems

Microelectronic Engineering

  • ISSN: 0167-9317
  • 5 Year impact factor: 2.5
  • Impact factor: 2.6
Nanotechnology and Processing — Electronics, photonics, MEMS and Life Sciences Affiliated with iMNEsMicroelectronic Engineering is the premier journal focused on the fabrication and characterization of micro/nano-electronic materials, devices and circuits (including novel electronic nanomaterials), as well as the understanding of their working mechanisms, performance, yield, variability, stability, and reliability. The journal also focuses on the techniques that make possible the fabrication and characterization of such devices and circuits, and on the materials involved in them. Occasionally, outstanding papers on simulation of materials properties, device figures-of-merit or compact modeling of circuits and systems may be accepted. The following topics are of special interest:DevicesPhotonic and optoelectronic devices (including, sensors, actuators, phototransistors)Transistors (including ultra-scaled, thin film, organic, ferroelectric)Resistive switching devices (memristors, RRAM, PCRAM, FeRAM, MRAM)Magnetic and spintronic devicesMEMS and NEMS (including power, RF, magnetic, organic)Flexible electronic devices (including wearable, printed, paper)Devices for energy harvesting (piezoelectric, flexoelectric, photovoltaic, solar cells)Bioelectronic devices (molecular detection, biomimetic, diagnosis)Device-level simulations (including variability and reliability)MaterialsWide bandgap semiconductorsDielectrics (low K and high K)Two-dimensional (2D) Materials and related transferring techniquesNanotubes, nanowires, and other nanomaterials and nanostrctures for device fabricationInterconnects, metallization and barrier materialsNew Resist MaterialsSilicon on insulatorsPolymers and flexible substrates, including biocompatible materialsAtomistic simulations of materials propertiesFabrication and characterization processesThin films deposition techniques (CVD, ALD, evaporation, sputtering, MBE, plasma)Lithography (including optical, EUV, electron beam, nanoimpring, particle-assisted, mask less, X-ray optical methods, emerging methods and limits, as well as resists)Pattern transfer (including ion, plasma and wet transfer, as well as transfer of 2D materials)Integration processes (including inkjet printing, 3D printing, 3D integration)Top-down and bottom-up self-assembly processesAnnealing and its effect in the materials (including crystallization, wrinkling, de-wetting)Nanometrology (TEM, SEM, EDX, EELS, STM, AFM and related setups)Circuits and applicationsSensing and actuation, including bio-compatible applicationsSignal souring and transferLogic operations and data processingElectronic memories and information storageArtificial neural networks and neuromorphic computingCompact modeling of electronic circuitsQuantum computingFive different types of articles are considered:Research articles that report regular original research that produces significant advancement.Accelerated Publications (Letters) that feature exciting research breakthroughs.Review Articles that inform readers of the latest research and advances in a topic within the broad field of microelectronic engineering. This includes roadmaps and guides proposing the recommended methods in a specific field.Short / Technical notes intended for original limited investigations or short description of original industrial or industrially-related research and development workNews and Opinions that comment on topical issues or express views on the developments in related fields, or comment on previously published work
Microelectronic Engineering

Microprocessors and Microsystems

  • ISSN: 0141-9331
  • 5 Year impact factor: 2
  • Impact factor: 1.9
Embedded Hardware Design Affiliated with EuromicroMicroprocessors and Microsystems: Embedded Hardware Design (MICPRO) is a journal covering all design and architectural aspects related to embedded systems hardware. This includes different embedded system hardware platforms ranging from custom hardware via reconfigurable systems and application specific processors to general purpose embedded processors. Special emphasis is put on novel complex embedded architectures, such as systems on chip (SoC), systems on a programmable/reconfigurable chip (SoPC) and multi-processor systems on a chip (MPSoC), as well as, their memory and communication methods and structures, such as network-on-chip (NoC).Design automation of such systems including methodologies, techniques, flows and tools for their design, as well as, novel designs of hardware components fall within the scope of this journal. Novel cyber-physical applications that use embedded systems are also central in this journal. While software is not in the main focus of this journal, methods of hardware/software co-design, as well as, application restructuring and mapping to embedded hardware platforms, that consider interplay between software and hardware components with emphasis on hardware, are also in the journal scope.
Microprocessors and Microsystems

Nano Communication Networks

  • ISSN: 1878-7789
  • 5 Year impact factor: 2.5
  • Impact factor: 2.9
The Nano Communication Networks Journal is an international, archival and multi-disciplinary journal providing a publication vehicle for complete coverage of all topics of interest to those involved in all aspects of nanoscale communication and networking. Theoretical research contributions presenting new techniques, concepts or analyses; applied contributions reporting on experiences and experiments; and tutorial and survey manuscripts are published.Nano Communication Networks is a part of the COMNET (Computer Networks) family of journals within Elsevier. The family of journals covers all aspects of networking except nanonetworking, which is the scope of this journal. Created in 2010, NANOCOMNET has four planned issues per year. In early 2016, the journal has been accepted by Thompson Reuters to have SCIE/ISI status, matching the status of the rest of the COMNET family.Topics of interest include but are not limited to:Molecular Communication • Passive Molecular Communication systems, including short-range molecular diffusion, guided molecular diffusion (e.g. circulatory systems communications, microfluidic communications), ion signaling, and pheromone communications. • Active Molecular Communication systems, such as molecular motors, bacteria-based nanonetworks. • Brain networks, neural circuits and nervous systems communications. • Synthetic biology for Molecular Communication development.Electromagnetic Nanoscale Communication • Plasmonic and nanophotonic devices for THz and optical communication based on nanomaterials (e.g., graphene) and metamaterials, including compact signal sources, modulators/demodulators, detectors and antennas and antenna arrays. • Ultra-broadband and Terahertz communications, with applications at the nano-, micro- and macro-scales. • Nanophotonic wired and wireless communications at infra-red, visible and ultra-violet spectrum ranges.Other nanoscale communication paradigms • Nano Communication for bio-therapeutic devices. • Quantum communications. • Ultrasonic communications.Nano communication engineering and networking • Architectures and systems for Nano Communications. • Propagation and channel modeling for Nano Communications. • Information Theory of Nano Communications. • Communication protocols for Nano networks. • Security in Nano Communications. • Energy models for Nano Communications. • Software-Defined Nanonetworks.Nano Communication experimental and simulation platforms • Tools for modeling and simulating Nano Communication Networks. • Wet lab experimental platforms for Molecular Communications. • New fabrication and assembly techniques for Electromagnetic nanoscale devices. • Synthetic Biology toolsets for engineering Molecular Communications (e.g. Openwetware, CRISPR).Applications of Nano Communications and networks • Internet of Nano Things and the Internet of Bio-Nano Things. • Network on Chip including RF and optical interconnects, as well as network architectures and topologies. • Nano-Sensor and Nano-Actuator Networks. • Nanomedicine applications: disease localization, targeted drug delivery, tissue engineering.
Nano Communication Networks

Pervasive and Mobile Computing

  • ISSN: 1574-1192
  • 5 Year impact factor: 3.4
  • Impact factor: 3
Special Issue Proposal Note PMCJ exclusively reviews Special Issue proposal forms submitted here through the designated submission system. Proposals submitted via any other means will not be considered for review. For more information on how to prepare and submit a SI proposal please check https://www.elsevier.com/physical-sciences-and-engineering/computer-science/journals/how-to-prepare-a-special-issue-proposal.Aims and Scope As envisioned by Mark Weiser as early as 1991, pervasive computing systems and services have truly become integral to our daily lives. Tremendous advancements in a multitude of technologies ranging from personalized and embedded smart devices (e.g., smartphones, sensors, wearables, IoT) to ubiquitous connectivity through wireless mobile communications and cognitive networking infrastructures, to advanced computing techniques (including mobile edge/fog/cloud, data analytics and machine learning) and user-friendly middleware services and platforms have significantly contributed to the unprecedented advances in pervasive and mobile computing.Such cutting-edge pervasive technologies and paradigms have led to the convergence of cyber-physical-human systems with applications to smart environments (e.g., smart homes and cities, smart grid, smart transportation, smart health, smart agriculture) with the goal to improve human experience and quality of life without explicit awareness of the underlying communications and computing technologies. Additionally, the huge amount of (real-time) data collected via pervasive devices coupled with advanced data analytic, machine learning and AI (Artificial Intelligence) techniques for reliable prediction and decision-making are making breakthrough research in pervasive computing and applications, such as self-driving cars, predictive maintenance in the industry 4.0 environments, mobile recommendation systems, etc.The Pervasive and Mobile Computing Journal (PMC) is a high-impact, peer-reviewed technical journal that publishes high-quality scientific articles spanning theory and practice, and covering all aspects of pervasive and mobile computing and systems. Topics include, but not limited to: Pervasive Computing and Communications Architectures and ProtocolsPervasive, Mobile and Wearable Computing Systems and ServicesCyber-Physical Systems and Cyber-Physical-Human SystemsSmart Systems and Applications (smart homes, smart cities, smart manufacturing, smart transportation, smart grid, smart health, smart agriculture, etc.)Human-centric Intelligent SystemsCognitive ComputingTrustworthy AI in Pervasive SystemsMachine Learning and Deep Learning in Pervasive and Mobile ComputingFederated, Distributed and Embedded learning, Learning at-the-edge in Pervasive SystemsLearning on Streaming Data and Continual Learning in Pervasive and Mobile SystemsBig Data and Data Analytics in Pervasive Computing SystemsInternet of Things and Social Internet of ThingsInternet of People and Internet of VehiclesEdge, Fog, Mobile Cloud and Opportunistic Computing in Pervasive and Mobile SystemsEnabling Pervasive Communication Technologies (e.g., wireless LANs, cellular, hybrid, ad hoc and cognitive networks)Wireless Sensors Networks and RFID TechnologiesUrban Sensing and Mobile CrowdsensingParticipatory and Social SensingMachine-to-Machine and Device-to-Device CommunicationsPositioning, Localization and Tracking TechnologiesActivity Recognition and TrackingContext-aware ComputingLocation-based Services and ApplicationsPervasive Service Creation, Composition, Discovery, Management, and DeliveryHuman User Interfaces and Interaction ModelsTrust, Reliability, Security, and Privacy in Pervasive and Mobile Computing SystemsPerformance Evaluation of Pervasive and Mobile Computing Systems
Pervasive and Mobile Computing