[1] WANG J L, CHEN T, ZHANG J X. General requirements and key technologies for the ground-based high resolution EO imaging telescope［J］.Opt. Precision Eng., 2008, 16(5): 2-16.(in Chinese)

[2] KEPA K,COBUM D, DAINTY J C,et al.. High Speed Optical Wavefront Sensing with Low Cost FPGAs. ［J］. SPIE,2008,8: 87-93.

[3] LUIS F R R,VIERA T, JOSE V. Gigante, et al.. FPGA adaptive opics system test bench. ［J］. SPIE,2005,5903: 59030D1-9.

[4] BASDEN A G,ASSEMAT F, BUTTERLEY T, et al.. Acceleration of adaptive optics simulations using programmable logic［J］. SPIE,2005,1-6.

[5] GOODSELL S J,FEDRIGO E,DIPPER N A,et al.. FPGA developments for the SPARTA project.［J］. SPIE,2005,5903: 59030G1-12.

[6] GOODSELL S J, GENG D,FEDRIGO E,et al.. FPGA developments for the SPARTA project: Part 2.［J］. SPIE,2006,6272: 6272411-12.

[7] GOODSELL S J,GENG D,YOUNGER E J,et al.. FPGA developments for the SPARTA project: Part 3 ［J］. SPIE,2007,6691: 6691031-12.

[8] RAO CH H, JIANG W H, ZHANG D Y, 61-element adaptive optical system for 1.2 m telescope of Yunnan Observatory［J］.Chinese Journal of Quantum Electronics.2006, 23(3): 295-302(in Chinese)

[9] http: //www.xilinx.com/products/v4qv/lx.htm

[10] ZHEN W J, WANG CH H, JIANG W H. Design and analysis of real-time adaptive optics wave-front processor based on systolic array.［J］. Opto-Electronic Engineering,2008,35(5): 44-49.(in Chinese)