FPGAs have been growing at a rapid rate in the past few years. Their ever-increasing gate densities and performance capabilities are making them very popular in the design of digital systems. In this paper we discuss the state-of-the-art in FPGA physical design. Compared to physical design in traditional ASICs, FPGAs pose a different set of requirements and challenges. Consequently the algorithms in FPGA physical design have evolved differently from their ASIC counterparts. Apart from allowing FPGA users to implement their designs on FPGAs, FPGA physical design is also used extensively in developing and evaluating new FPGA architectures. Finally, the future of FPGA physical design is discussed along with how it is interacting with the latest FPGA technologies.
机译:单片3D-FPGA的三维物理设计流程,以改善时序收敛和芯片面积
机译:FPGA上基于物理不可克隆功能的身份验证的硬件/软件协同设计
机译:FPGA的模型驱动的物理设计自动化:快速原型设计和传统重用
机译:闪光FPGA上基于振荡器的振荡器的物理不可渗透功能的高效设计
机译:VLSI电路和FPGA物理综合的设计自动化。
机译:使用FPGA的病毒检测的生物传感器的设计模拟和开发
机译:Flash FPGA上基于振荡器的物理不可克隆函数的高效设计
机译:通过确定和应用逻辑到物理设计映射来改进FpGa设计过程
