AI-enabled chips are revolutionizing computing with their unique architecture and capabilities. These specialized chips, including GPUs, FPGAs, and ASICs, are designed to handle the high data processing requirements of AI workloads. By leveraging parallel processing, large memory capacities, and energy efficiency, AI chips outperform general-purpose chips in tasks such as image recognition, natural language processing, and autonomous vehicles, unlocking new frontiers in artificial intelligence and shaping the future of technology.

“Secure by design” is a proactive approach that emphasizes incorporating security measures into the design process from the outset. By adhering to key principles such as least privilege access, secure default settings, and fail-secure designs, organizations can mitigate risks, reduce vulnerabilities, and create resilient systems. This blog explores the essence of “secure by design” and its importance in the modern cybersecurity landscape.

Azure Health Data Services: Securely connects, stores, and analyzes health data (FHIR and DICOM ), and helps to create secure, scalable, and cost-effective healthcare solutions.

The Principle of Least Privilege (PoLP) is a critical cybersecurity concept that limits user and system access rights to the minimum necessary. On the Internet of Things (IoT) landscape and within organizations, implementing PoLP through role-based access control, network segmentation, and regular audits can significantly reduce security risks, mitigate potential damage, and enhance overall security posture.

Embrace the power of SOAR, a groundbreaking cybersecurity approach that integrates automation, orchestration, and response. Discover how SOAR works with existing security tools, utilizes AI and machine learning, and enhances incident response. Learn about SOAR’s key components, its relationship with SIEM, and the significant advantages it provides organizations in combating cyber threats and strengthening their security posture.

Security Information and Event Management (SIEM) is a vital tool for organizations to monitor and protect their IT infrastructure. SIEM collects, analyzes, and correlates data from various sources to detect threats, ensure compliance, and enable rapid incident response. With advanced features like AI and cloud monitoring, SIEM continues to evolve to meet the growing security challenges faced by modern enterprises.

NVIDIA Drive OS is a sophisticated operating system designed to unlock the full potential of autonomous vehicles. By enabling real-time processing, deep learning integration, and a scalable architecture – Drive OS provides a robust foundation for developers to build safe, intelligent self-driving solutions across industries.

System-on-a-Chip (SoC) integrates all components of a computer or electronic system into a single chip, enabling smaller, cheaper, and more power-efficient devices. This article explores what an SoC is, its architecture and development process, and the benefits it offers in embedded systems, IoT, and consumer electronics.

Advanced Driver-Assistance Systems (ADAS) are the future of smart and safe driving. These ingenious technologies employ cameras, radars, sensors and software to help drivers by automatically detecting hazards and even taking control of the vehicle when required. From adaptive cruise control to auto parking systems, ADAS aims to prevent accidents caused by human errors, which lead to over 90% of crashes today.