HCLTech, a leading global technology company, has announced the launch of an Electronic Design Automation (EDA) solution in partnership with NetApp.
This collaboration aims to enable enterprises in the semiconductor industry to accelerate large EDA implementations in the hybrid cloud. The solution is designed to significantly reduce time-to-market, enhance overall quality, and improve the reliability of their products.
With this joint offering, clients can leverage NetApp's Design Anywhere solution to streamline the entire semiconductor design process, from concept to manufacturing, with improved scalability and flexibility. Enterprises can harness the power of the hybrid cloud to efficiently manage growing data volume and workflow complexities.
HCLTech will support clients running large EDA projects by optimizing their IT environments, managing infrastructure orchestration, and scheduling for EDA workloads along with associated services. The EDA solution will be delivered in various consumption models as per client requirements in partnership with NetApp.
This collaboration represents a significant step forward in unlocking the potential of hybrid and multi-cloud environments for enterprises, allowing them to transform operations and build resilience across their digital businesses. By leveraging the cloud, organizations can run EDA workloads without the risks of overprovisioning or capacity shortfalls, making their product development process more flexible and efficient.
Electronic Design Automation (EDA), also referred to as electronic computer-aided design (ECAD), is a category of software tools for designing electronic systems such as integrated circuits and printed circuit boards. These tools work together in a design flow that chip designers use to design and analyze entire semiconductor chips. Since modern semiconductor chips can have billions of components, EDA tools are essential for their design. Specifically, EDA focuses on integrated circuits (ICs) and plays a crucial role in streamlining the design process, improving efficiency, and ensuring the functionality and reliability of electronic systems.
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