Reliable laser programmable gate array technology

Zhuo Gao, Ji Luo, Hu Huang, Wei Zhang, J. Bernstein
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引用次数: 0

Abstract

Field-programmable gate arrays have become popular ever since their introduction. Compared to other digital circuit implementation media, they have lower non-recurring engineering (NRE) cost and rapid turnaround with the penalties of reduced speed and larger size. Thus better FPGA programmable switch technology is desired in order to gain speed and density advantages. In this paper, laser-induced MakeLink/spl trade/ technology is proposed as a programmable switch element. The electrical resistance is as low as 0.8 /spl Omega/ to 11 /spl Omega/, depending on the size of the link, which is 2-3 orders smaller than that of NMOS transistor in a SRAM based FPGA. Thus the speed improvement for laser field-programmable gate array (LFPGA) is significant. Other features of laser-induced vertical links technology, such as small size and radiation hardness, can also greatly improve the FPGA performance. The cluster-based LFPGA with 128 by 64 basic logic elements (BLE) is laid out under a 0.5 /spl mu/m commercialized technology. The chip size is about 138 mm/sup 2/.
可靠的激光可编程门阵列技术
现场可编程门阵列自从推出以来就变得很受欢迎。与其他数字电路实现介质相比,它们具有较低的非重复工程(NRE)成本和快速的周转,但代价是速度降低和尺寸增大。因此,为了获得速度和密度优势,需要更好的FPGA可编程开关技术。本文提出了激光诱导MakeLink/spl贸易/技术作为一种可编程开关元件。根据链路的大小,电阻低至0.8 /spl Omega/至11 /spl Omega/,比基于SRAM的FPGA中的NMOS晶体管的电阻小2-3个数量级。因此,激光现场可编程门阵列(LFPGA)的速度提升具有重要意义。激光诱导垂直链路技术的其他特点,如体积小、辐射硬度高,也可以大大提高FPGA的性能。基于集群的LFPGA具有128 × 64基本逻辑元件(BLE),采用0.5 /spl mu/m的商业化技术。芯片尺寸约为138mm /sup /。
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