会议名称(中文): 2015年IEEE第23届国际现场可编程定制计算机器研讨会
会议名称(英文): 2015 IEEE 23rd Annual International Symposium on Field-Programmable Custom Computing Machines (FCCM)
所属学科: 计算数学与科学工程计算,计算机科学理论,计算机系统结构与硬件,计算机应用技术
开始日期: 2015-05-02
结束日期: 2015-05-06
所在国家: 加拿大
所在城市: 加拿大
具体地点: Vancouver, BC, Canada
主办单位: IEEE Computer Society
[ 会务组联系方式 ]
联系人: David Andrews
会议背景介绍: The IEEE Symposium on Field-Programmable Custom Computing Machines is the original and premier forum for presenting and discussing new research related to computing that exploits the unique features and capabilities of FPGAs and other reconfigurable hardware. Over the past two decades, FCCM has been the place to present papers on architectures, tools, and programming models for field-programmable custom computing machines as well as applications that use such systems.
征文范围及要求: Novel research in the general area of reconfigurable computing is also encouraged.
Architectures and Programming Models
Architectures for high performance and/or low power configurable computing
New spatial architectures with immense parallelism but different basic components than FPGAs
System-level architectures for reconfigurable computing in either real-time or non real-time systems
Heterogeneous architectures that integrate a mix of coarse, fine, special purpose, and general-purpose hardware
Implications and effects of new technologies, including nanotechnology on reconfigurable computing (and vice versa)
Security enhancements for reconfigurable computing
Languages and Compilers
New languages and development environments to describe spatial or heterogeneous applications
Tools to make run-time reconfiguration more accessible to application designers
Compilation and CAD techniques for reconfigurable computing systems and other spatial computers
Run-Time Systems and Run-Time Reconfiguration
Operating system techniques to manage run-time reconfiguration of resources in reconfigurable computing or spatial computing systems
Run-time CAD algorithms to support the above techniques or improve fault tolerance/avoidance
Use of reconfigurability to build evolvable or adaptable computing systems
Novel uses of run-time reconfiguration in application-specific systems
Implications of run-time reconfiguration on security
Applications
Applications that use reconfigurability to customize hardware for scientific computation, mobile communications, medical image processing, data and communication security, network infrastructure and other embedded systems. These papers should describe novel use of some particular attribute of the reconfigurable device used, or discuss lessons that will help other users.
Comparison of application implementations on different spatial hardware, such as GPUs, multi-core processors, and FPGAs |
