The global analytical instrumentation software market constitutes the application, system, and libraries/database software used with the below listed analytical instrumentation. It includes software offered by key manufacturers, third-party solution providers, and licensing/upgradation charges. System manufacturers will have to partner with other software providers to provide access to instrument control.
Geographic Scope: North America, Europe, Asia-Pacific, and Rest of the World (RoW) are the geographies included in the research.
End-user scope: The end-user segments covered include:
• Pharmaceuticals, biotechnology, and life sciences
• Government and academic research institutions and laboratories
• Environmental safety and agricultural research testing laboratories
• Chemicals and petrochemicals
• Others, including end users such as food and beverage, defense, homeland security, electronics, and semiconductors.
The study period is from 2013-2023, with 2016 as the base year.
The analytical instrumentation software market has been divided into the following segments:
Chromatographs: This includes gas chromatographs, liquid chromatographs, and ion chromatographs
Molecular analysis spectrometers: This includes infrared, ultraviolet-visible, and Raman spectrometers.
Elemental analysis spectrometers: This includes atomic absorption spectrometers, atomic emission spectrometers, and inductively coupled plasma spectrometers
Mass spectrometers: This includes single & tandem quadruple LC-MS, TOF LC-MS, GC-MS, MALDI-TOF, and ICP-MS.
In addition to the market growth analysis, the study highlights the key driving forces as well as the key restraints to growth for the instrumentation software market.
The key questions this study will answer are:
Is the analytical instrumentation software market growing? How long will it continue to grow, and at what rate?
Are the existing competitors well-positioned to meet customers’ needs?
What is the most important requi