Software-hardware Co-design Of The Electrochemical Instruments Upper And Lower Based On MDA

Science start with calculation, then new mechanisms and test methods came up with the combination of modern electric technology. With the development of modern scientific instruments, certain research works also achieve significant breakthrough. Finally, those breakthroughs becoming the essential foundation on the way to solve new problems occurred in modern science. Instruments used for electrochemistry analysis are productive and applicable. Electrochemical signal can be used directly without precision machine and optics system, it is convenient and economical for domestic market. At present, this instrument has been well applied to many fields like chemistry, public safety, biological treatment, and science of material, environment and life. Nowadays, new electrochemistry detector and functional combination instrument with high sensitivity, quick response, long life span and provide online dynamic detection is desperately need for technology production.The new developed electrochemical instruments combined with others, will inevitably bring more complexity to the whole business, as well as extend R&D cycle and require more capital investment. Those problems now becoming the biggest barrier for further development of electrochemical instruments which cannot be neglected any more.This article has provided one solution based on Model Driven Architecture(MDA), specifically to the co-development of hardware and software of upper and lower computer in electrochemical instruments. Visualized modeling tools could set up a more suitable PSM model, and generate target code by the ANTLR technology. Then the co-development is finished.This solution has enable the consistency of communication protocol frame between different platforms combination, and highlighting the design. Therefore, accelerating the speed of code generation updating, verify the credibility of new models, and speciality is no longer compulsive. In this way, developers could devote more concentration on the research works, which highly promote the efficiency, shorten time cycle and maintenance intervals.This mode will be used on EC-SPR electrochemical instruments developed by CIAC...