GESTE was introduced in 2001, the result of eight years of research work under the guidance of Prof.Liu Bin, the inventor of this product. Professor Liu designed the basic architecture of GESTE and led a team to realize this design. After years of hard work by some very talented engineers, GESTE emerged as a valuable test system based upon years of developed intellectual property. It is now used widely by those in the defense industry within China.
GESTE has addressed the need for a system test tool in China and has helped several institutions improve their embedded software through the use of thorough test methods. With GESTE, vendors are given the confidence to know that their products meet the highest standards of quality and can release these products with pride.
Features of the GESTE
test process management
graphically create the simulation model
test model code is automatically generated from this graphical representation
compiling and debugging simulation model code
test script editor
test process monitor
real time testing
customized test data collection
post test data analysis
logging management
ability to extend it feature set with 3rd party software (integrated with MatLab and Codetest)
GESTE performance
GESTE can perform system test operations on real time embedded software with time constraints that are less than 1ms
General ability
GESTE can simulate several interactive devices simultaneously, supporting concurrent multiple interfaces. It performs system test operations with great time precision and hardware-in-loop testing to all embedded software
Flexibility
GESTE provides an open simulation modeling environment allowing the developer to create test scenarios for just about any embedded software product. An easy to use general test script language permits developers to quickly create test cases. GUESTE also allows the user to add unique hardware drivers to accommodate specific hardware interfaces and it supports the development for simulation model code as well.
Easy to use.
GESTE provides a graphical interface allowing the user to create a simulation model. It then automatically generates model code based upon this graphical representation. A test script editor is included to modify test cases based upon this generated model code. When tests are executed, the user can graphically monitor the test progress and collected test data can be analyzed using the tools provided.
|