Thin-film transistor liquid-crystal display(TFT-LCD) uses a layer of liquid crystal molecules placed between two pieces of glass, the upper glass is mainly bound with color filters, while the transistors are embedded in the top of lower glass, when the transistor is turned on, the current which pass through the transistor change the electric field for liquid crystal molecules. With the different variation of electric field, the molecules are rotated for different angles and change the polarity of light. By cooperating with fixed backlight and filters determines the light and dark condition in pixels, finally the light through the color filters produces the image which appears in a panel. In general, external bonding IC chips provide the driving voltages of panel and let the panel shows the correctly picture. In recent years, the driving method of GOA can reduce the numbers of external IC chips and the cost of fabrication effectively in order to realize the slim and low cost display. Therefore, how to achieve the high reliability, low power and multi-function GOA circuit by effective design is the main subject which is being extensively studied. In this thesis, three kinds of GOA circuits are proposed to solve the above issues. The first GOA circuit is proposed to achieve the goal of minimum area. Then, the second GOA circuit is designed to realize the function of polar inversion. Finally, the third GOA circuit is proposed to obtain high reliability and low power circuits for high resolution TFT-LCDs. However, the circuits use amorphous silicon TFT, referred to as a-Si TFTs as the driving devices. Although a-Si TFTs has low mobility, the high uniformity and low cost of a-Si TFTs are the priority consideration for mass production. The three type of GOA circuits provide to different requirement of panel and achieve the goal for high reliability and high resolution TFT-LCDs.