Nvidia GeForce RTX 3090 Founders Edition

Unleash the Ultimate Gaming Experience

The is the pinnacle of gaming graphics cards, delivering unparalleled performance and visual fidelity for the most demanding gamers. Built on the revolutionary Ampere architecture, it features cutting-edge technologies that elevate gameplay to new heights.

Ampere Architecture: A Quantum Leap

The Ampere architecture underpins the RTX 3090’s exceptional performance. It employs advanced features such as:

• 2nd Generation RT Cores: Up to twice the ray tracing performance of the previous generation, enabling stunningly realistic graphics.
• 3rd Generation Tensor Cores: Up to eight times the AI performance, powering advanced deep learning algorithms and enhancing gaming experiences.
• Enhanced CUDA Cores: Thousands of improved CUDA cores deliver massive parallel processing power for accelerated gaming and content creation.

Specifications at a Glance

Specification	Value
GPU Processor	GA102
CUDA Cores	10496
Memory	24GB GDDR6X
Memory Speed	19.5 Gbps
Memory Bus Width	384-bit
Clock Speed	1.4 GHz (Base)
Boost Clock	1.7 GHz (Gaming)
Power Consumption	350W
Ports	3x DisplayPort 1.4a, 1x HDMI 2.1

Unrivaled Performance

The RTX 3090 Founders Edition delivers exceptional performance in both traditional rasterized games and ray-traced titles. Its raw power enables:

• Ultra-high Frame Rates: Experience smooth and responsive gameplay at maximum settings in even the most demanding games.
• Ray Tracing Dominance: Enjoy breathtaking graphics with realistic lighting, reflections, and shadows in games that support ray tracing.
• AI-Enhanced Gaming: Leverage deep learning algorithms for improved image quality, anti-aliasing, and other enhancements.

Immersive Gaming Experience

The RTX 3090 Founders Edition offers a truly immersive gaming experience, featuring:

• NVIDIA Reflex: Reduces system latency for faster responsiveness and smoother gameplay.
• NVIDIA Broadcast: Enhances audio and video quality for live streaming and video conferencing.
• NVIDIA G-SYNC Compatibility: Synchronizes the monitor’s refresh rate with the GPU for tear-free and stutter-free visuals.

Founders Edition Design

The Founders Edition distinguishes itself with its sleek aluminum and magnesium alloy construction. Its dual-axial cooling system ensures optimal airflow and keeps the GPU running cool and quiet.

Conclusion

The is the ultimate choice for gamers who demand the best in performance, visual fidelity, and gaming experience. Its groundbreaking Ampere architecture, unparalleled specifications, and immersive features elevate gameplay to new heights.

Frequently Asked Questions (FAQ)

Q: What is the recommended power supply for the RTX 3090 Founders Edition?
A: A high-quality 750W power supply is recommended for optimal performance.

Q: Is it possible to overclock the RTX 3090 Founders Edition?
A: Yes, overclocking is possible, but it is not officially supported by Nvidia.

Q: How long is the warranty period for the RTX 3090 Founders Edition?
A: The warranty period is typically 3 years from the date of purchase.

Q: What games can I expect to play at 4K with the RTX 3090 Founders Edition?
A: The RTX 3090 Founders Edition can handle most modern games at 4K with high frame rates and ray tracing enabled.

Q: Is the RTX 3090 Founders Edition compatible with virtual reality headsets?
A: Yes, the RTX 3090 Founders Edition is fully compatible with all major virtual reality headsets.

Explore Nvidia’s GeForce RTX 3090 Founders Edition

NVIDIA Titan RTX

The NVIDIA Titan RTX is a high-end graphics card designed for professionals and enthusiasts. It is based on the Turing architecture and features 24GB of GDDR6 memory, 576 Tensor Cores, and 72 RT Cores. The Titan RTX is capable of delivering exceptional performance in demanding applications such as 3D modeling, video editing, and scientific computing.

Key Features:

• 24GB of GDDR6 memory
• 576 Tensor Cores
• 72 RT Cores
• Boost clock speed of up to 1770 MHz
• 10.2 TFLOPs of performance
• DisplayPort 1.4, HDMI 2.0b, and USB-C connectivity

Applications:

• 3D modeling and rendering
• Video editing and compositing
• Scientific computing
• Machine learning and artificial intelligence
• Virtual reality and augmented reality

Nvidia Quadro RTX 6000

The Nvidia Quadro RTX 6000 is a high-performance graphics card designed for professional workstation use. It features:

• NVIDIA Turing architecture: Delivers up to 40% faster performance than previous-generation Quadro cards.
• 12GB GDDR6 memory: Provides ample memory bandwidth for demanding applications.
• 2,944 CUDA cores: Enables efficient parallel processing for complex graphics computations.
• VR Ready: Supports virtual reality experiences with low latency and high performance.
• Advanced cooling system: Keeps the card cool under heavy workloads.
• Certifications: Compatible with leading professional software applications such as Adobe Premiere Pro and Autodesk Maya.

The Quadro RTX 6000 is an ideal choice for professionals in fields such as manufacturing, oil and gas exploration, media and entertainment, and healthcare. It provides the performance and features necessary for creating realistic and immersive graphics, simulations, and data visualizations.

ARM Cortex-A78

The ARM Cortex-A78 is a high-performance CPU core designed by ARM Holdings for use in mobile devices and other embedded systems. It is the successor to the Cortex-A77 and was announced in May 2020.

The Cortex-A78 is based on the ARMv8-A architecture and features a number of improvements over its predecessor, including:

• 5% higher performance per clock cycle
• Improved branch prediction
• Larger caches
• Support for new instructions

The Cortex-A78 is intended to be used in devices that require high performance, such as gaming smartphones and laptops. It is also expected to be used in automotive and industrial applications.

Key Features:

• Performance: Up to 5% higher performance per clock cycle than the Cortex-A77
• Efficiency: Improved branch prediction and larger caches
• New Instructions: Support for new instructions, including SVE2
• Security: ARM TrustZone technology for enhanced security

ARM Cortex-X1

The ARM Cortex-X1 is a high-performance, out-of-order superscalar processor core designed by ARM Holdings. It is the first core in the ARM Cortex-X series, which is designed for use in high-performance computing (HPC) and artificial intelligence (AI) applications.

The Cortex-X1 features a wide range of features that make it well-suited for HPC and AI workloads. These features include:

• A wide superscalar pipeline with up to 12 execution units
• Two dedicated floating-point units and two vector processing units
• A large, low-latency cache hierarchy
• Support for ARM’s Scalable Vector Extension (SVE)

The Cortex-X1 is available in a variety of configurations, depending on the target application. These configurations include:

• A single-core configuration for use in high-performance edge devices
• A multi-core configuration for use in servers and other HPC applications
• A cluster configuration for use in AI applications

The Cortex-X1 is a powerful and efficient processor core that is well-suited for HPC and AI workloads. It is expected to be used in a wide range of applications, from high-performance smartphones to supercomputers.

ARM Cortex-R52

The ARM Cortex-R52 is a 32-bit RISC processor designed for embedded systems requiring high performance, low power consumption, and deterministic real-time operation. Key features include:

• Dual-issue superscalar pipeline for high instruction throughput
• Single-cycle hardware divide for efficient numeric processing
• Memory protection unit (MPU) for secure memory access
• Advanced debug features for efficient software development
• Low power consumption with multiple power modes
• Scalable core architecture for customization to specific application requirements

Intel Core i9-12900K

The Intel Core i9-12900K is a high-performance desktop processor that offers cutting-edge computing capabilities. It features:

• Hybrid Architecture: Combines powerful Performance cores (P-cores) with efficient Efficient cores (E-cores) to optimize workload distribution.
• 8 Performance Cores: Delivers blazing-fast performance for demanding applications like gaming and video editing.
• 8 Efficient Cores: Handles background tasks efficiently to enhance multitasking performance.
• Clock Speeds: Up to 5.2 GHz turbo boost on P-cores and 3.8 GHz on E-cores for exceptional speed.
• DDR5 Memory Support: Supports the latest DDR5 memory for increased bandwidth and performance.
• PCIe Gen 5: Features PCIe Gen 5 lanes for lightning-fast data transfer speeds.
• Integrated Graphics: Includes Intel Xe graphics for basic display needs or as a temporary solution.
• Overclocking Support: Unlock even higher performance with Intel Adaptive Boost Technology.

Intel Core i7-12700K

The Intel Core i7-12700K is a high-performance desktop processor released in 2021. It features:

• Hybrid Architecture: Combines 8 performance cores (P-cores) with 4 efficient cores (E-cores), allowing for both demanding tasks and background workloads.
• Clock Speeds: P-cores boost up to 5.0 GHz, while E-cores reach 3.8 GHz, providing ample power for gaming, content creation, and productivity tasks.
• 12 Threads: Supports Hyper-Threading on both P-cores and E-cores, allowing for 12 simultaneous threads to be processed.
• 25MB Cache: A generous cache size of 25MB (12MB L3 for P-cores, 13MB L3 for E-cores) reduces latency and improves performance.
• PCIe 5.0 and DDR5 Support: Offers connectivity options for the latest high-speed storage and memory devices.
• Integrated Graphics: Includes Intel UHD Graphics 770 for basic display output or as a backup in case of dedicated GPU failure.

Intel Core i5-12600K

The Intel Core i5-12600K is a high-performance desktop processor released in 2021. It features:

• Hybrid Architecture: Combines performance ("P") cores for single-threaded tasks and efficient ("E") cores for multi-threaded workloads.
• 10 Cores and 16 Threads: Consists of 6 P-cores and 4 E-cores, providing a balance of speed and efficiency.
• Turbo Boost Max Technology 3.0: Dynamically overclocks the fastest P-core up to 4.9GHz for maximum performance.
• Intel UHD Graphics 770: Includes integrated graphics capable of handling basic multimedia tasks.
• LGA 1700 Socket: Requires a compatible motherboard with the latest socket type.
• DDR4/DDR5 Memory Support: Supports both DDR4 and DDR5 memory, allowing for flexible memory configurations.

The Core i5-12600K is a compelling option for gamers, content creators, and users seeking a balance of high performance and value in a desktop system.

AMD Ryzen 9 5950X

The AMD Ryzen 9 5950X is a high-performance desktop processor based on the Zen 3 architecture. It features:

• 16 cores and 32 threads
• Base clock speed of 3.4 GHz, boost clock speed of 4.9 GHz
• 64 MB of L3 cache
• Support for PCIe 4.0 and DDR4-3200 memory
• TDP of 105W

The 5950X is designed for demanding workloads such as gaming, content creation, and engineering simulations. It offers exceptional performance and efficiency compared to previous-generation Ryzen processors.

AMD Ryzen 7 5800X

The AMD Ryzen 7 5800X is a high-performance processor designed for gaming, content creation, and other demanding applications.

Key Features:

• 8 cores and 16 threads
• Zen 3 microarchitecture
• Base clock speed of 3.8 GHz and a boost clock speed of 4.7 GHz
• 32MB of L3 cache
• Unlocked multiplier for overclocking
• AM4 socket compatibility
• Supports PCIe 4.0 and DDR4 memory

Performance:

The Ryzen 7 5800X delivers exceptional performance in both single-threaded and multi-threaded workloads. In gaming, it offers high frame rates and smooth gameplay. For content creation, it provides quick rendering and editing speeds.

Overclocking:

The unlocked multiplier allows users to overclock the Ryzen 7 5800X for even higher performance. With proper cooling, it can reach speeds above 5 GHz.

Value:

The Ryzen 7 5800X offers a great value for its performance and features. It provides similar performance to more expensive Intel processors at a more affordable price.

AMD Ryzen 5 5600X: A Mid-Range CPU Powerhouse

The AMD Ryzen 5 5600X is a six-core, twelve-thread processor based on the Zen 3 microarchitecture. With a base clock of 3.7 GHz and a boost clock of 4.6 GHz, it offers exceptional performance for mid-range PCs. Key features include:

• Zen 3 architecture: Provides significant performance improvements in both single-threaded and multi-threaded workloads.
• 32MB of L3 cache: Boosts cache performance and reduces latency.
• Precision Boost 2 technology: Optimizes clock speeds for maximum performance while maintaining efficiency.
• Factory unlocked: Allows overclocking for users seeking even higher performance.
• DDR4 support: Compatible with high-speed DDR4 memory for faster system responsiveness.
• Low power consumption: Efficient operation with a TDP of 65W, making it suitable for compact and portable builds.

Central Processing Unit for Gaming

The central processing unit (CPU) is the brain of a gaming computer, responsible for executing instructions and managing all aspects of gameplay. For gaming, a CPU with a high core count, clock speed, and cache memory is essential for smooth and responsive performance.

Key Features:

• Core Count: The number of cores a CPU has determines how many processes it can handle simultaneously. More cores are better for gaming, as they allow for better multitasking and improved frame rates.
• Clock Speed: Measured in gigahertz (GHz), clock speed indicates how fast a CPU can execute instructions. Higher clock speeds result in faster processing and better gaming performance.
• Cache Memory: Cache memory is a high-speed buffer that stores frequently accessed data, reducing the time it takes for the CPU to access data from the main memory. Larger caches improve gaming performance by minimizing data retrieval times.

Recommended Requirements:

For modern AAA games, a CPU with at least 6 cores, a clock speed of 3.5GHz or higher, and a cache memory of 12MB or more is recommended. Consider a CPU with 8 or more cores and a clock speed of 4GHz or higher for optimal gaming performance.

Central Processing Unit for Video Editing

The central processing unit (CPU) plays a crucial role in video editing by handling the complex computations required to process and manipulate video footage. Here are some key considerations when choosing a CPU for video editing:

• Core count: More cores allow for faster processing of parallel tasks, which is essential for rendering and applying effects to multiple video clips simultaneously.
• Clock speed: A higher clock speed enables faster processing of individual instructions. However, it can also generate more heat and consume more power.
• Cache size: A larger cache allows the CPU to store frequently accessed data and instructions, reducing the need to retrieve them from the slower main memory.
• Architecture: Different CPU architectures offer varying levels of performance and efficiency for specific video editing applications. For example, Intel’s "Core i" series is known for its high performance in multithreaded tasks.
• Power consumption: CPUs can consume significant power, especially during intensive video editing tasks. Consider the energy efficiency of the CPU to optimize performance while minimizing power consumption.

Central Processing Unit for 3D Rendering

A central processing unit (CPU) is a critical component for 3D rendering as it handles complex calculations required for generating images.

• Multi-core CPUs: CPUs with multiple cores allow for parallel processing, improving rendering speeds.
• Cache size: Larger cache sizes reduce the time required to access frequently used data, resulting in faster rendering.
• Clock speed: Higher clock speeds allow the CPU to perform more calculations per second, speeding up rendering.
• Floating-point performance: 3D rendering involves extensive floating-point calculations, so CPUs with strong floating-point performance are essential.
• Thread count: More threads enable the CPU to handle multiple tasks simultaneously, improving overall efficiency.

Choosing the right CPU for 3D rendering requires careful consideration of factors such as core count, cache size, clock speed, and floating-point performance to ensure optimal rendering speeds and image quality.