What Is a Graphics Processing Unit (GPU)? Definition and Examples A Graphics Processing Unit (GPU) is a specialized electronic circuit or chip designed to accelerate the creation and rendering of images, video, and animations for display. Originally developed to improve graphics performance for video games and video editing, GPUs are now widely used for other compute‑intensive tasks such as machine learning, scientific simulations, and cryptocurrency mining because of their ability to perform many calculations in parallel. How a GPU works
* Graphics are typically represented as geometric primitives (polygons) and transformed into pixel data through a process called rendering.
* GPUs perform stages such as vertex transformations, lighting calculations, rasterization, texture mapping, and pixel shading to convert 3D scene data into a 2D image.
* Unlike CPUs, GPUs have thousands of smaller cores organized for parallel processing, enabling them to execute many simultaneous calculations—ideal for workloads that can be parallelized (graphics, neural network operations, matrix math).
Brief history
* The first widely available GPU is generally credited to Nvidia’s GeForce 256 (1999), which integrated transform and lighting engines and moved many graphics tasks off the CPU.
* Over time GPUs evolved from gaming and video‑editing tools into general-purpose parallel processors used in AI, high-performance computing, and data centers.
* Recent advances in GPU architecture and software ecosystems have broadened their role beyond graphics into areas that require massive parallel computation.
GPUs vs CPUs
* CPUs (Central Processing Units) are optimized for low-latency, sequential processing and complex single‑threaded tasks. They have relatively few powerful cores.
* GPUs are optimized for high throughput and parallelism, with many more (but simpler) cores that can run thousands of threads concurrently.
* In many systems, CPUs handle control logic and serial tasks while GPUs accelerate parallel workloads such as rendering, simulations, and machine learning training/inference.
Special considerations
* GPU vs graphics card: “GPU” refers to the chip or processor. A “graphics card” (or video card) is the physical board that houses one or more GPUs plus memory, cooling, power regulation, and display outputs.
* Integrated vs discrete GPUs:
* Integrated GPUs are built into the CPU or motherboard and share system memory, offering low power and cost but limited performance.
* Discrete GPUs are separate cards with dedicated memory and power, providing much higher performance for gaming, content creation, and compute workloads.
* Modern systems commonly use discrete GPUs for demanding graphics or compute tasks, while integrated GPUs suffice for everyday use and low‑end machines.
GPUs and cryptocurrency mining
* Cryptocurrency mining involves performing many repetitive cryptographic calculations; GPUs’ parallelism made them attractive for mining certain coins.
* High demand from miners has led to supply shortages and price spikes at times, affecting availability for gamers and professionals.
* For some currencies (notably Bitcoin), miners shifted to specialized hardware (ASICs) because of better cost efficiency, but GPUs remain common for mining many other cryptocurrencies.
Examples of GPU companies
* Nvidia: Pioneered the modern GPU with early GeForce products and remains a major supplier of discrete GPUs used in gaming, professional graphics, datacenters, and AI acceleration.
* AMD: Competes in both consumer and professional GPU markets (including products from its ATI acquisition). AMD supplies GPUs for gaming, workstations, and integrated solutions.
FAQs
* What is the difference between a GPU and VGA?
* A GPU is the processor that renders graphics. VGA (Video Graphics Array) originally referred to a video connector and a display standard; today “VGA” often denotes a type of video output port, not the GPU itself.
* How do you overclock a GPU?
* Overclocking increases GPU clock speeds to gain performance. Typical steps: ensure adequate cooling, update drivers, use a trusted overclocking tool (e.g., Afterburner), increase clocks and voltage in small increments, and run stability/benchmark tests. Overclocking can shorten hardware life and void warranties, so proceed cautiously.
* What is GPU scaling?
* GPU scaling adjusts how an image is stretched or fitted to a display’s resolution, often to preserve aspect ratio or scale lower‑resolution content up to a monitor’s native resolution.
Key takeaways
* A GPU is a processor specialized for parallel computation, originally for graphics but now used broadly for compute‑heavy tasks.
* GPUs accelerate workloads by performing many operations in parallel, complementing CPUs in modern systems.
* Major GPU vendors include Nvidia and AMD; GPUs can be discrete cards or integrated into system chips, and demand from applications like gaming, AI, and cryptocurrency has shaped supply and pricing.
Explore More Resources
What Is A Graphics Processing Unit (Gpu) Definition And Examples
Highlights Active
Select text to highlight
Notes Active
Floating & Selection Notes
Flashcards
AI-generated study cards
Interactive Study Tools
Highlights
Select any text and click Highlight. Saved in your profile as yellow highlights.
Selection Notes
Select text and click Add Note. Add specific comments to text. Saved as green highlights.
General Notes & Auto-Quote
Open the Floating Notes Panel (bottom right).
- Type general notes for the article.
- Auto-Quote: Select text while panel is open to instantly copy it as a quote (Blue Highlight).
- PDF Download: Download all notes and highlights in a single PDF.
Please Login to use these features and save your progress.
✨ AI Flashcards
What are Flashcards?
AI-generated study cards that help you learn and memorize key concepts from article sections. Each flashcard has a question on the front and an answer on the back.
How It Works
- Generate Button: Click the "Generate Flashcards" button next to any section heading in the article.
- AI Processing: Our AI analyzes the section content and creates relevant Q&A flashcards.
- Caching: Previously generated flashcards are cached for instant access (no cooldown).
- Cooldown: New generations have a 3-5 minute cooldown to encourage reading before generating more.
Using Flashcards
- Panel Opens: Flashcards appear in a left-side panel when generated.
- Stacked View: Cards are displayed one at a time in a stack format.
- Flip Cards: Click any card to flip it and see the answer.
- Navigation: Use Previous/Next buttons to move through cards in each section.
- Multiple Sections: Each article section can have its own set of flashcards.
Tips
- Read the section first before generating flashcards for better understanding.
- Use flashcards for active recall - try to answer before flipping.
- You can generate flashcards for different sections at any time.
- On desktop, you can use flashcards and notes panels simultaneously.
- On mobile, only one panel can be open at a time.
Please Login to generate and use flashcards.