Computing, Performance and Communication Systems (CPCS)
Computing, Performance and Communication Systems (CPCS) is a journal dedicated to promoting and accelerating the dissemination of new research findings. There is a vast array of exciting research activities in this field worldwide. The journal aims to provide academicians and scientists around the globe with a platform to share, promote, and discuss various emerging issues and developments in different areas of computing, performance, and communication systems.
Aims & Scope
Computing, Performance and Communication Systems (CPCS) is a journal dedicated to promoting and accelerating the dissemination of new research findings. There is a vast array of exciting research activities in this field worldwide. The journal aims to provide academicians and scientists around the globe with a platform to share, promote, and discuss various emerging issues and developments in different areas of computing, performance, and communication systems.
Aims
- To promote and accelerate the dissemination of new research findings across the fields of computing, performance, and communication systems globally.
- To provide academicians and scientists worldwide with a platform to share, promote, and discuss emerging issues and developments in all areas of computing, performance, and communication systems.
- To foster academic exchange, collaboration, and innovation in interdisciplinary research addressing the evolving challenges of modern computing and communication technologies.
- To advance knowledge and practical solutions for high-performance computing, efficient systems design, and reliable communication networks through rigorous scholarly publication.
Scope
The journal covers a wide range of topics related to computing, performance, and communication systems, including but not limited to:
Computing and High-Performance Systems
- Parallel and distributed computing, including cluster computing, grid computing, and cloud computing architectures
- High-performance computing (HPC) systems, including supercomputing, performance optimization, and benchmarking
- Embedded and real-time computing, including embedded systems design, real-time operating systems, and edge computing
- Computer architecture and systems, including processor design, memory systems, and hardware-software co-design
Communication and Network Systems
- Wireless and mobile communication systems, including 5G or 6G technologies, IoT networks, and ad-hoc networks
- Network performance and quality of service (QoS), including network modeling, traffic analysis, and congestion control
- Network security and reliability, including cryptography, network defense, and fault-tolerant systems
- Data communication protocols and standards, including TCP or IP, routing protocols, and next-generation network architectures