Methods and Mechanisms for Hardware Multitasking: Executing and Synchronizing Fully Relocatable Hardware Tasks in Xilinx FPGAs

机译：硬件多任务处理的方法和机制：在Xilinx FPGA中执行和同步完全可重定位的硬件任务

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This paper presents the details of a novel technique which allows for the implementation and execution of completely relocatable hardware tasks onto dynamically reconfigurable FPGAs. Our novel technique harnesses the internal configuration access port (ICAP) for inter-task communication and synchronization, leading to very little logic overheads. The advantages of this technique include fault-tolerance, as tasks could be relocated freely on the fabric to circumvent damaged resources, and high performance, due to better exploitation of the logic fabric. The work is part of a larger effort in our group which aims to build a fully operational dynamically reconfigurable computer which would satisfy the often conflicting requirements of high performance, fault-tolerance and high level programming.

机译：本文介绍了一种新颖技术的细节，该技术允许将完全可重定位的硬件任务实现并执行到动态可重配置的FPGA上。我们的新技术利用内部配置访问端口（ICAP）进行任务间的通信和同步，从而减少了逻辑开销。由于可以更好地利用逻辑架构，因此该技术的优点包括容错（因为可以将任务自由地重新定位在架构上以规避损坏的资源）和高性能。这项工作是我们小组中一项较大工作的一部分，该小组的目标是构建一个完全可操作的动态可重新配置的计算机，该计算机将满足高性能，容错和高级编程的经常相互冲突的要求。

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《21st International Conference on Field Programmable Logic and Applications》|2011年|p.295-300|共6页
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Iturbe Xabier; Benkrid Khaled; Arslan Tughrul; Torrego Raul; Martinez Imanol;
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中图分类汇编程序;
关键词
Hardware Abstraction; Inter-task Communication and Syncronization; Reconfigurable Computing; Reconfigurable Hardware;

机译：硬件抽象;任务间通信和同步;可重配置计算;可重配置硬件;

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1. Runtime Scheduling, Allocation, and Execution of Real-Time Hardware Tasks onto Xilinx FPGAs Subject to Fault Occurrence [J] . Xabier Iturbe, Khaled Benkrid, Chuan Hong, International journal of reconfigurable computing . 2013,第期

机译：发生故障时在Xilinx FPGA上实时硬件任务的运行时间调度，分配和执行
2. Runtime Scheduling, Allocation, and Execution of Real-Time Hardware Tasks onto Xilinx FPGAs Subject to Fault Occurrence [J] . Iturbe Xabier, Benkrid Khaled, Hong Chuan, International journal of reconfigurable computing . 2013,第6期

机译：发生故障时，实时硬件任务的运行时间调度，分配和执行到Xilinx FPGA上
3. Runtime Scheduling, Allocation, and Execution of Real-Time Hardware Tasks onto Xilinx FPGAs Subject to Fault Occurrence [J] . XabierIturbe, KhaledBenkrid, ChuanHong, International journal of reconfigurable computing . 2013,第6期

机译：发生故障时，实时硬件任务的运行时间调度，分配和执行到Xilinx FPGA上
4. Methods and Mechanisms for Hardware Multitasking: Executing and Synchronizing Fully Relocatable Hardware Tasks in Xilinx FPGAs [C] . Iturbe Xabier, Benkrid Khaled, Arslan Tughrul, International Conference on Field Programmable Logic and Applications . 2011

机译：硬件多任务的方法和机制：在Xilinx FPGA中执行和同步完全可重定位的硬件任务
5. An Improved Public Unclonable Function Design for Xilinx FPGAs for Hardware Security Applications [D] . B., Siva Prashanth. 2018

机译：用于硬件安全应用的Xilinx FPGA的改进的公共不可渗透功能设计
6. A Method of FPGA-Based Extraction of High-Precision Time-Difference Information and Implementation of Its Hardware Circuit [O] . Jian Li, Xinlei Yan, Maojin Li, 2019

机译：基于FPGA的高精度时差信息提取方法及其硬件电路的实现
7. An FPGA Based Software/Hardware Codesign for Real Time Video Processing : A Video Interface Software and Contrast Enhancement Hardware Codesign Implementation using Xilinx Virtex II Pro FPGA [O] . Wang, Jian 2006

机译：用于实时视频处理的基于FPGA的软件/硬件协同设计：使用Xilinx Virtex II Pro FPGA的视频接口软件和对比度增强硬件协同设计实现

Methods and Mechanisms for Hardware Multitasking: Executing and Synchronizing Fully Relocatable Hardware Tasks in Xilinx FPGAs

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