Businesses today are utilising High-Performance Computing (HPC) architectures’ parallel processing systems and AIs’ self-learning capabilities to adjust their business operations and do more in less time. Industries from a variety of sectors are speeding up their digital transformation efforts and are now looking into the possibilities of HPC-enabled AI to synchronise data and produce new goods and services.
The revenues from HPC-based AI are expected to grow as enterprises continue to integrate AI into their operations. Furthermore, with the increasing prominence of AI, Big Data, and the need for larger-scale traditional modeling and simulation tasks, the user base of HPC is expanding to include rapidly growing sectors such as automotive, manufacturing, healthcare, and BFSI. These industries are embracing HPC technology to effectively manage vast amounts of data and scale their existing applications.
Manufacturing companies, in particular, can leverage the advantages of high performance compute servicesas they strive to enhance their operations across various stages, from the design process and supply chain management to product delivery. They can streamline processes, transform operations and ensure efficiency in all aspects of business.
Additionally, these enterprises are making use of machine learning (ML) and artificial intelligence (AI) for the purpose of hastening innovation, gettingmarket insights, and coming out with newofferings. Manufacturing enterpriseshave successfully incorporated AI into three critical aspects of their business: operational procedures, the production stage, and post-production. A report by McKinsey’s Global Institute suggests that the manufacturing industry’s investments in AI are projected to result in an estimated annual revenue growth of 18%, outperforming other analysed industries.
To achieve optimal performance and ensure high-quality output, manufacturers are increasingly implementing HPC-driven AI applications to proactively identify issues and enhance the entire product development process, thus improving end-to-end supply chain management. Simultaneously, the adoption of Machine-to-Machine (M2M) communication and telematics solutions in the manufacturing sector has significantly increased the number of data points in the value chain. By leveraging HPC, manufacturers can conduct sophisticated and rapid data analyses, extracting accurate insights from vast datasets. Integrating HPC with AI applications enables network systems to automate real-time adjustments in the value chain, resulting in enhanced product quality, accelerated time-to-market, and a more agile production process.
The manufacturing market for predictive maintenance and machinery inspection applications is experiencing growth due to the substantial use of computer vision cameras in machinery inspection, the adoption of the Industrial Internet of Things (IIoT), and the utilization of big data. By harnessing the power of AI alongside HPC capabilities, enterprises in the manufacturing industry can deploy predictive analytics to optimize supply chain performance, design demand forecast models, and utilize deep learning techniques for enhanced product development. This necessitates high-speed networking architecture and robust storage systems to support and power AI-based programs effectively.
Furthermore, manufacturing companies are increasingly leveraging HPC systems in conjunction with Computer-Aided Engineering (CAE) software for advanced modeling and simulation purposes. There exists a significant interdependence between HPC-powered CAE and AI, where simulations generate vast amounts of data, and AI models repeatedly apply data analytics to produce even higher-quality simulations. It is obvious that combining AI and CAE will hasten product development and raise quality. However, addressing the challenges posed by Big Data and computational requirements can only be achieved through an HPC infrastructure capable of scalability.
In order to handle the ever-increasing volumes of data and intensive machine learning solutions, investing in an HPC-Cloud is essential for faster delivery of results by AI/ML models. A cloud-enabled HPC environment enables companies to scale their computing capabilities, as many AI workloads are currently running in the cloud. Building HPC applications on the cloud empowers companies to incorporate AI, driving innovation and operational enhancements. AI workflows rely on continuous access to data for training, which can be a challenging task to achieve on-premises.
Manufacturing companies today have the flexibility to choose from hybrid and multi-cloud options to establish a seamless and continuous HPC computing environment, integrating on-premises hardware with cloud resources. Embracing the synergy of HPC and AI, manufacturing companies can unlock unprecedented levels of innovation, operational excellence, and competitive advantage, positioning themselves at the forefront of the industry’s digital transformation
The convergence of HPC and AI technologies holds immense potential for the manufacturing industry. Rather than treating AI and HPC as separate entities, organizations in this sector are unifying these two clusters to reduce operational costs and optimize resources. By leveraging the powerful combination of HPC and AI tools, manufacturing companies can achieve high-quality product development, enhance their supply chain management capabilities, analyze growing datasets, minimize forecasting errors, and achieve optimal IT performance.
In conclusion, the manufacturing industry has been able to produce the correct goods and services, speed time to market, and create efficiency at every level of the development process thanks to the integration of AI and HPC capabilities. Manufacturers have tremendous potential to survive and grow in a market that is changing quickly because of this confluence.
