In recent years, artificial intelligence and machine learning have been in high demand across a broad range of industries. As a consequence, the cost and complexity of constructing and maintaining these models have increased significantly. Artificial intelligence and machine learning systems are resource-intensive, as they require substantial computation resources and large datasets, and are also difficult to manage effectively due to their complexity.
As a result of this trend, professionals such as data engineers, machine learning engineers, and data scientists are increasingly being tasked with identifying ways to streamline models without compromising performance or accuracy, which in turn will lead to improved outcomes. Among the key aspects of this process involves determining which data inputs or features can be reduced or eliminated, thereby making the model operate more efficiently.
In AI model optimization, a systematic effort is made to improve a model’s performance, accuracy, and efficiency to achieve superior results in real-world applications. The purpose of this process is to improve a model’s operational and predictive capabilities through a combination of technical strategies.
It is the engineering team’s responsibility to improve computational efficiency—reducing processing time, reducing resource consumption, and reducing infrastructure costs—while also enhancing the model’s predictive precision and adaptability to changing datasets by enhancing the mode
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