计算机 | SCI期刊/国际会议信息5条

计算机体系结构,并行与分布式计算

DUCSAN 2020

International Workshop on Distributed Ubiquitous Computing- Systems, Applications, and Networking

全文截稿: 2019-11-11

开会时间: 2020-03-27

会议难度: ★★

CCF分类: 无

会议地点: Austin, Texas

网址：https://sites.google.com/view/ducsan20

SCOPE:
Researchers are encouraged to submit original research contributions in all major areas that touch distributed and ubiquitous computing with a focus on the system, networking, and application perspectives. We also welcome any original contributions that may cross the boundaries among areas or point in other novel directions of interest to the PerCom and the system and networking research community. In addition to research papers, we also solicit comprehensive surveys, case studies, and demos that explore new directions and approaches and encourage thought-provoking discussion between the two communities.
Topics of interest include, but are not limited to, the following:
1. Distributed systems (e.g., storage, processing, data collection, etc.) to meet the needs of modern applications
2. Applications enabled by fusion of distributed computing and emerging network technologies (e.g., vehicular network, 5G, underwater network, satellite network, etc.)
3. Modern pervasive application use case analysis, e.g., industrial automation, industrial IoT, smart cities, data-driven agriculture, in-body devices, etc.
4. Ubiquitous applications and services enabled by Blockchain (e.g., Blockchain in vehicular networks, IoT, Cyber Physical Systems, etc.)
5. Distributed machine learning and machine learning-assisted distributed systems
6. Reliability, fault-tolerance, and security analysis of distributed pervasive applications
7. Architecture design, requirement analysis and evaluation of distributed pervasive computing systems at scale
8. Distributed data caching and processing in dynamic networks (e.g., mobile ad-hoc networks, vehicular networks, etc.)
9. Testbed, simulators and software tools for prototyping and evaluation of distributed pervasive computing systems

软件工程

ICSA 2020

International Conference on Software Architecture

全文截稿: 2019-12-11

开会时间: 2020-03-16

会议难度: ★★

CCF分类: 无

会议地点: Salvador, BA, Brazil

网址：http://icsa-conferences.org/2020/

ICSA is the premier venue for practitioners and researchers interested in software architecture, in component-based software engineering and in quality aspects of software and how these relate to the design of software architectures. ICSA has a strong tradition as a working conference, where researchers meet practitioners and software architects can explain the problems they face in their day-to-day work and try to influence the future of the field.

计算机综合与前沿

FoNeS - IoT 2020

EAI International Conference on Forthcoming Networks and Sustainability in the IoT Era

全文截稿: 2019-12-13

开会时间: 2020-06-20

会议难度: ★★

CCF分类: 无

会议地点: Antalya, Turkey

网址：http://fones-iot.org

Topics
- Architectures and protocols for wireless sensor networks and wireless multimedia sensor networks
- Internet/Web of Things and Machine-to-Machine (M2M) communications
- Performance evaluation methods for QoS
- Heterogeneous wireless access networks
- IoT and e-health
- Machine-learning approaches for network planning
- Clouds and edge computing
- Network mobility and handover management
- Network security, trust and privacy in a wired/wireless environment
- Routing in wired/wireless environments
- Drones/unmanned aerial vehicles (UAVs) in IoT
- Public Safety Networks and Disaster recovery using wireless communications
- Software-defined wireless networks
- 5G and beyond 5G networks
- Wearable communications and computing
- Energy harvesting and sustainability in smart cities
- Employment of IoT and mobile network technologies for education

计算机科学与技术

Microprocessors and Microsystems

Special Issue on Evolutionary Algorithmic Computational Techniques for VLSI Design and Many-Core Embedded Systems

全文截稿: 2019-12-30

影响因子: 1.049

CCF分类: C类

中科院JCR分区:

  • 大类 : 工程技术 - 4区

  • 小类 : 计算机：硬件 - 4区

  • 小类 : 计算机：理论方法 - 4区

  • 小类 : 工程：电子与电气 - 4区

网址: https://www.journals.elsevier.com/microprocessors-and-microsystems

In the last few decades, evolutionary algorithms (EAs) have moderately established a stronghold as powerful search methods in many complex disciplines ranging from science to engineering. Even though well established as reasonable and powerful search tools, researchers in this area are now facing new challenges of increasing computational needs in today’s applications. The demand and success of EAs consist in the ease of application, majority of the concept and their ability to converge close to the global optimal design. Nevertheless, traditional EAs generally support from extremely slow convergence to locate an accurate enough solution efficiently due to the lack of individual learning potential. This often limits the practicality of EAs on many large-scale real world problems where the computational time is a determining consideration. One of the recent most important and successful areas of research that has spawned from evolutionary computations is the methodology known as memetic algorithms.

Aggressive scaling of semiconductor process technology over the last several decades has resulted in creation of many new products, such as camera, tablets, smart phones and information appliances. The trend is expected to continue for the coming years and create countless opportunities and challenges. Recent developments in semiconductor industry show a rapid increase in chip frequency and design complexity. Introduction of newer technologies is now moving towards a two year cycle as compared to traditional three year cycle. Though technology scaling helps in addressing design complexity and performance trends, it opens up a whole new spectrum of design validation challenges.

The special issue is dedicated to ascertain the prospects, progress and challenges in VLSI Design and Many core embedded systems. The topics of interest are limited to:

· Programming models, tools, languages and compilers to support energy-aware computing

· Energy-efficient memory architectures and technologies

· Architectures and design methods for real time embedded system

· Adaptive system architectures such as reconfigurable systems in hardware and software.

· FPGA implementation

· Embedded System Architectures

· Heterogeneous multi core programming

· Networking Embedded system

· Emergent computer architecture for embedded system

· Software tools and infrastructure for embedded systems

· Programming model and scalable software

计算机科学与技术

Nano Communication Networks

Special Issue on Chip-scale Nanonetworks: Recent Trends, Emerging Technologies, Disruptive Applications

全文截稿: 2020-02-28

影响因子: 2.07

CCF分类: 无

中科院JCR分区:

  • 大类 : 工程技术 - 3区

  • 小类 : 工程：电子与电气 - 3区

  • 小类 : 纳米科技 - 4区

  • 小类 : 电信学 - 3区

网址: https://www.journals.elsevier.com/nano-communication-networks

Recent years have witnessed the emergence of computing architectures that integrate up to a thousand processor cores and memory on a single die as a result of relentless semiconductor device scaling. This opens up a plethora of architectural challenges in terms of efficiency or specialization, among others, and supports the spread of various applications and novel computational paradigms, ranging from massive manycore processing to reconfigurable, quantum, in-memory, or neuromorphic computing.

As a side effect of such wild increase in integration, communication (and not computation) has gradually become the main determinant of performance in nowadays computers. To address this, processors integrate interconnection networks that manage the movement of data in a scalable and cost-effective manner at the chip scale, i.e., for ranges between hundreds of nanometers to a few millimeters. The main challenge is for these chip-scale nanonetworks to provide the efficiency, versatility, scalability and reliability necessary to tackle the growing technological, architectural and workload heterogeneity in this new era of computing.

The special issue seeks contributions addressing the different challenges of chip-scale nanocommunications and networking, putting emphasis on emerging technologies (e.g., wireless, RF interconnects, optics), new approaches (e.g., approximate computing, machine-learning-based design) and disruptive applications (e.g., quantum computers). The editors equally welcome submissions about physical prototypes realizable in the near future and more prospective contributions with clear longer-term potential. While the scope of the special issue revolves around communications and networking aspects, submissions discussing frontier aspects such as memory architectures, 2.5D/3D packages, or application mapping are also welcome.

The special issue solicits high-quality and original contributions on topics including, but not limited to:

· Wireless chip-scale nanonetworks: mmWave-THz channel models, on-chip antenna design, transceiver implementation, MAC protocols, graphene-based wireless designs, wireless manycore architectures, hybrid wired-wireless nanonetworks.

· Nanophotonic chip-scale nanonetworks: integrated nanophotonic component design, laser integration, novel network architectures, thermal-aware design, optical-wireless channel modeling.

· Integrated 2.5D/3D nanonetworks: stacked and monolithic 3D Network-on-Chip (NoC), TSV placement, TSV-aware topologies, thermal-aware routing, multicast and broadcast in 3D NoCs, off-chip communication in interposer-based systems

· Machine learning (ML) and NoC-based systems: Interconnects for ML systems/accelerators, Memory access for the NoC-based ML systems, NoC-based ML algorithm design.

· Communication within quantum computers: qubit mapping, SWAP-aware routing algorithms, qubit shuttling and swapping mechanisms, multi-chip quantum architectures.

· Approximate computing for NoC and NoC-based systems: approximate communication in on-chip networks, approximate computing-communications interplay, adaptive error control.

· NoC in emerging architectures/applications: NoCs for FPGAs, ASICs, heterogeneous systems; neural network accelerators, massive manycore processors, neuromorphic (spike-based) computers, software-defined metamaterials, programmable matter.

· Extreme embedded nano-systems: real-time, mission-critical, intermittent computing, energy-harvesting-based embedded networks.

· Quantum Cellular Automata: integrated communication modules, prototypes, QCA-network-on-chip.

· NoC architecture and implementation: impact of novel technologies to topologies, routing, flow control, QoS management, reliability, security, design methodologies and tools, application mapping. Real and industrial NoC case studies.

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