Subsurface well logs are essential data for both academic research and engineering applications. Traditional paper well logs are inconvenient to handle and difficult to preserve. Several studies in recent years have attempted to build up a digital borehole database. Most of these databases have been single-user systems that had limitations on their efficiency and data sharing potential. The purpose of this study is to eliminate these bottlenecks by developing a database framework for subsurface well logs and geotechnical data, by combining a geographic information system (GIS), a relational database management system, and network techniques.The core elements of our database framework are the Microsoft SQL Server and the MapInfo GIS system. Fortran, Visual Basic, MapBasic and ASP are languages used to develop modules for data management, analysis, and demonstrations. Users can access the database from a desktop GIS system or from WWW browsers via networks.To test the practicability of this system, subsurface drill data in the Taipei Basin was chosen for actual operation. Test result revealed that, users can perform management tasks, queries, and analyses, on both the GIS system and the WWW browsers with high efficiency. The framework proposed in this study unleashes the limitations on data sharing and is proven to be both practical and efficient for data managements and operations, and also has potential for future geologic research and other relevant engineering applications. The URL of the web page on which a demonstration of our results can be seen is http://gis.geo.ncu.edu.tw/query/sgdds.