FAQs

Frequently Asked Questions

Unlock new AI-powered tools to work, play, and create with unmatched performance. The AI PC, powered by Intel® Core™ Ultra processors, represents a new generation of personal computers with dedicated AI acceleration, including a central processing unit (CPU), a graphic processing unit (GPU), and a neural processing unit (NPU), and the right engines to handle AI workloads more efficiently. With cutting-edge AI capabilities, the AI PC is ready for new applications, such as tools that can act as local AI assistants or save you time by summarizing meeting transcripts and creating drafts. The Intel® Core™ Ultra processor in the AI PC runs the right workloads to balance power and performance for fast and efficient AI experiences.

By pairing Intel® hardware with innovations from Independent Hardware Vendors (IHV) that drive the metamorphosis of sensors, we’re empowering devices like the AI PC to intelligently perceive and respond to surroundings—from facial recognition to adaptive color control. We're reshaping power management and battery technology, creating devices that run longer and adapt power consumption based on individual usage, charting a course toward a more sustainable and user-centric computing future.

AI PCs, featuring Intel® Core™ Ultra processors, are more productive, creative, and secure than regular computers. As AI tools become more pervasive in everyday computer use, you need hardware that keeps up with the advanced software. Intel® Core™ Ultra processors are purpose-built to support new and emerging AI applications, including productivity, creation, and collaboration tools.

When you hear AI, think easier, quicker, better. In the context of personal computers, artificial intelligence assists with tasks that typically require human intelligence, such as solving problems, reasoning, learning, understanding natural language, recognizing patterns, making decisions, and content generation. The benefits of having an AI PC include:

  1. Increased privacy and data security,
  2. Reduced latency,
  3. Online and offline accessibility, and
  4. Customizability and experimentation.

Tera operations per second (TOPS) measures a system’s theoretical peak AI performance, assuming 100% AI accelerator utilization. TOPS highlights the processing potential of neural processing units (NPUs) and graphic processing units (GPUs) for AI tasks.

You may have heard of teraFLOPS or tera floating point operations per second (TFLOPS), a similar peak performance metric based on floating-point operations. Both estimate how well a system handles compute-intensive tasks, TOPS for AI performance and TFLOPS for non-AI supercomputer performance.

TOPS is generally calculated using int8 with the formula:

  • TOPS = # of cores * frequency (Hz) * operations/cycle
  • For example, Lunar Lake will deliver up to 120 TOPS, measured at INT8 without sparsity, across three AI accelerators. This includes up to 48 TOPS from the NPU, up to 67 TOPS from the GPU, and up to 5 TOPS from the CPU.

Intel is focused on fostering an open ecosystem to help developers become more productive and catalyze community innovation. We support open innovation, open platforms, and horizontal competition, and we provide tools to remove code barriers and allow interoperability within existing infrastructure to help developers maximize the value of their investments. Our contributions are part of many layers of the global technology stack, including toolkits optimized for oneAPI, a cross-industry model that supports multiple architectures and vendors. OneAPI allows developers to seamlessly keep up with the explosion of novel computer architectures and work with whichever accelerator and tools they prefer.