Systems | Development | Analytics | API | Testing

Unreal Engine 5 is a cutting-edge game engine with real-time rendering capabilities, an extensive asset marketplace (Fab), and advanced features (such as Nanite and Lumen) that enable teams to create hyper-realistic characters and photorealistic digital environments. Unreal Engine's ability to create immersive stories and experiences has made it valuable to a wide range of industries—including gaming, media and entertainment, architecture, automotive design, and more.

Organizations are increasingly adopting AI to make quick decisions, understand data, and automate processes. However, this innovation comes at the cost of navigating complex data and AI compliance regulations. While AI regulations are still evolving worldwide, existing privacy laws and regulatory frameworks already apply to AI implementations. These laws, such as GDPR, CCPA, and HIPAA, create a complicated landscape for businesses.

Databricks helps companies process large-scale data, and Databricks data masking ensures high-quality, compliant data. If your organization relies on data for AI/ML or analytics, it’s essential to ensure you are implementing a robust, compliant data masking strategy. Let’s explore how data masking works natively in Databricks. Then, we’ll go over challenges teams might run into in using native masking capabilities.

MISRA C:2025 has just been published! What does this mean for organizations that rely on MISRA guidance for developing safety-critical systems? In this blog, we give an overview of the new release and what it means for your team.

Microsoft Fabric combines data engineering, warehousing, real-time analytics, and BI into a single environment to help organizations streamline data workflows and derive insights from large, diverse datasets. For teams leveraging Fabric, data masking is an essential method for safeguarding sensitive data, ensuring compliance, and maintaining data quality throughout analytics pipelines.

Software has become a core component of modern vehicles, so much that software defined vehicles (SDVs) are transforming the automotive market, bringing key features to the software rather than the hardware of the vehicle. But developing high-quality code for software defined vehicle architecture is challenging.