ASRock Radeon RX 7900 GRE Steel Legend Review: Powerful 4K Gaming and AI Capabilities

ASRock has recently launched the ASRock Radeon RX 7900 GRE Steel Legend graphics card, boasting a striking all-white design, eye-catching triple-fan RGB lighting, and a reinforced metal frame and backplate for enhanced bend resistance. This model delivers robust 4K FSR accelerated gaming performance, essential for any gaming setup. Moreover, it integrates seamlessly with the ASRock AI QuickSet software, providing the innovative Stable Diffusion image generation feature, transforming gaming rigs into powerful AI PCs.


  • Graphics Core: AMD Radeon RX 7900 GRE
  • Interface: PCIe 4.0 x16
  • GPU Clock: Boost up to 2333 MHz
  • Compute Units: 80 CU
  • Ray Acceleration Units: 80
  • AI Acceleration Units: 160
  • Stream Processors: 5120 SP
  • Memory: 16GB GDDR6
  • Memory Interface: 256-bit
  • Output Interface: 3 x DisplayPort 2.1, 1 x HDMI 2.1
  • Power Input: 2 x 8-pin
  • Recommended Power Supply: 800W
  • Dimensions: 304 x 131 x 56mm
  • Thickness: 2.8 Slot

The ASRock Radeon RX 7900 GRE Steel Legend is not only a visual marvel but also a powerhouse, designed to cater to the demands of next-generation gaming and AI-driven applications, making it a versatile addition to any high-performance PC.

ASRock RX 7900 GRE Steel Legend: A Sleek, White GPU with Enhanced Cooling and Robust Features

The ASRock Radeon RX 7900 GRE Steel Legend 16GB OC is capturing attention with its eye-catching white appearance and three transparent striped fan blades featuring RGB lighting. It includes a 0dB fan technology that stops the fans in low-load situations to maintain silence. The design is fortified with a metal frame and metal backplate, ensuring the graphics card remains resistant to bending under gravity.

In overclocking mode, the RX 7900 GRE Steel Legend boosts the GPU clock up to 2333 MHz. It features 80 compute units (CU), 80 ray tracing (RA) acceleration units, 160 AI acceleration units, and 5120 stream processors (SP). This powerhouse is paired with 16GB GDDR6 memory and includes a 64MB Infinity Cache at its core.

The dimensions of the card are 304mm in length, occupying 2.8 slots in thickness. It requires two PCIe 8-pin power connectors and is recommended to be used with a power supply of 800W or greater. For connectivity, it offers three DisplayPort 2.1 and one HDMI 2.1 video ports, supporting up to four external displays.

This graphics card is not only a visual standout but also robustly built and packed with advanced features to meet the demands of high-resolution gaming and cutting-edge AI applications.

The packaging of the ASRock Radeon RX 7900 GRE Steel Legend graphics card is as striking as the card itself. It prominently features a futuristic, robotic design that complements the Steel Legend’s advanced technology theme. The box design emphasizes its standout features like 16GB of memory and OC Edition, highlighting its overclocking capabilities. Notable graphics and icons on the packaging, such as Radeon Boost, Raytracing, and Radeon Anti-Lag, clearly communicate the high-end specifications and gaming-oriented enhancements of this model.

The packaging incorporates a bold AI QuickSet badge, signifying the card’s integration with advanced AI-driven software enhancements, making it a great choice for users interested in AI applications. The Steel Legend logo is displayed prominently, maintaining the branding and aesthetic continuity with the ASRock lineup, while the background’s geometric patterns add a modern and tech-savvy look to the product. This packaging not only protects the valuable hardware inside but also serves as an excellent marketing tool, enticing gamers and tech enthusiasts with its visual appeal and detailed feature highlights.

The back of the ASRock Radeon RX 7900 GRE Steel Legend graphics card packaging provides a comprehensive overview of the card’s specifications and key features. Here’s a detailed breakdown:

Key Specifications and Features:

  • CPU: AMD Radeon™ RX 7900 GRE
  • Memory: 16GB GDDR6 on a 256-Bit Memory Bus
  • Outputs: 3x DisplayPort™ 2.1, 1x HDMI™ 2.1
  • Compute Units: 80 AMD RDNA™ 3 Compute Units with RT (Ray Tracing) & AI Accelerators
  • Infinity Cache: 64MB
  • Display Technologies: AMD Radeon™ Display Engine, HDR support
  • Gaming Technologies: Radeon™ Anti-Lag, FidelityFX™ (including Super Resolution and HDR technologies), DirectX® 12 Ultimate
  • Optimizations: Vulkan® Optimized, Microsoft® DirectStorage
  • Software: AMD Software: Adrenalin Edition™

Advanced Features for Enhanced Performance:

  • Triple Fan Design: Highlights the three cooling fans, optimized for efficient airflow.
  • Stylish Metal Backplate: Enhances durability with a cool, solid feel.
  • Striped Axial Fan: Demonstrates ASRock’s new fan design that improves airflow.
  • Ultra-Fit Heatpipe: Uses tightly fitted heat pipes to optimize heat transfer between critical components.
  • 0dB Silent Cooling: Emphasizes the technology that stops the fans under low-load conditions to reduce noise.
  • Polychrome SYNC: Details the support for built-in ARGB LEDs, allowing for synchronized lighting effects.

The visual layout of this information makes it easy for consumers to understand the card’s capabilities at a glance, focusing on how it can enhance their gaming, content creation, and AI application experiences. It clearly targets tech-savvy users looking for a high-performance graphics solution with robust support for the latest technological advancements.

The ASRock Radeon RX 7900 GRE Steel Legend in white is a visually captivating piece of hardware. The graphics card’s design features an all-white facade that provides a sleek and modern aesthetic, making it a standout component in any gaming setup. It’s equipped with three semi-transparent 9.5cm striped fan blades, which include RGB lighting, adding a vibrant splash of color that can be customized to enhance the visual appeal of your gaming rig.

The side of the card proudly displays the “Steel Legend” branding along with the “RADEON” logo, which not only reinforces the card’s identity but also aligns with the branding seen on other high-performance components from ASRock. This model blends high-tech functionality with striking design elements, such as:

  • Bold White Color Scheme: This not only makes the card visually unique but also allows it to stand out in a market where most high-end graphics cards are traditionally black or dark in color.
  • RGB Lighting: Adds a customizable element for gamers who like to synchronize their PC’s aesthetic, enhancing the overall gaming experience with dynamic lighting effects.
  • Semi-Transparent Fan Blades: These not only serve a functional purpose by providing effective cooling but also add a layer of depth to the card’s design, making the RGB effects even more striking.

This combination of advanced cooling technology, aesthetic customization through RGB, and a robust build makes the ASRock Radeon RX 7900 GRE Steel Legend an excellent choice for gamers and enthusiasts looking to push their systems to the limit while maintaining style and visual coherence in their setups.

This close-up image of the ASRock Radeon RX 7900 GRE Steel Legend graphics card showcases the intricate design of the semi-transparent striped fan blades. These blades are not only aesthetically pleasing but also engineered to enhance airflow and cooling efficiency, crucial for maintaining optimal performance during intense gaming sessions.

Features Highlighted by the Fan Design:

  • Efficient Airflow: The unique stripe pattern on the fan blades is designed to optimize air movement across the heatsink, improving the thermal management of the graphics card.
  • Aesthetic Appeal: The semi-transparency of the blades allows for a more dynamic visual effect when combined with the RGB lighting, creating an appealing glow that enhances the card’s visual impact inside a PC case.
  • Quiet Operation: The design likely contributes to quieter operation by reducing turbulence, a common issue with denser, opaque fan blades.

The focus on both function and style in the fan design reflects ASRock’s commitment to delivering high-performance gaming hardware that also complements the visual aesthetics of modern gaming rigs. This approach ensures that gamers do not have to compromise between performance and style, making the ASRock Radeon RX 7900 GRE Steel Legend a top choice for those looking to build a high-end gaming system.

This image beautifully captures the side profile of the ASRock Radeon RX 7900 GRE Steel Legend graphics card, showcasing several key design elements that enhance both its functionality and aesthetic appeal.

Key Design Features:

  • Steel Legend Branding: The side prominently features the “Steel Legend” branding, which is boldly presented in a contrasting black and pink design on a metallic badge. This enhances the visual appeal and brand recognition, making it stand out in a build.
  • Radeon Branding: The “Radeon” logo is also visible, signifying the powerful AMD technology underpinning the graphics card. This branding is strategically placed for visibility through side-viewing PC case windows, catering to enthusiasts who value brand synergy in their setups.
  • Heatsink and Cooling Structure: The visible parts of the heatsink and cooling structure indicate robust thermal management capabilities. The intricate fin design helps to dissipate heat effectively, crucial for maintaining performance during intense computing tasks.
  • Color Scheme and Build Quality: The white color scheme with silver accents provides a clean, modern look that is less common in the market dominated by darker colors. This choice can be particularly appealing for builders looking for a unique or themed aesthetic. The construction appears solid, emphasizing durability and quality.

These design details not only serve functional purposes, such as effective cooling and brand alignment, but also enhance the visual dynamics of the graphics card, making it a desirable component for gamers and PC enthusiasts who are keen on both performance and style.

The detailed close-up of the ASRock Radeon RX 7900 GRE Steel Legend graphics card provides an excellent view of its power configuration and additional features, emphasizing its design for high performance and user convenience.

Key Features Highlighted in the Image:

  • Dual PCIe 8-Pin Power Connectors: The card requires two PCIe 8-pin connectors, indicative of its high power demand, typical for high-end graphics cards that provide substantial graphical processing power for gaming, rendering, and AI tasks.
  • LED On/Off Switch: This practical feature allows users to easily control the RGB lighting on the card without needing software intervention. It’s a convenience for users who prefer a more subtle appearance or wish to minimize distractions while working or gaming.
  • Robust Cooling System: The heatsink visible in the image shows an extensive array of thin metal fins, which greatly increase the surface area for heat dissipation. This design is critical for maintaining optimal temperatures and ensuring stable performance under load.
  • Additional Metal Frame: The extra metal frame around the edges of the circuit board provides additional support to the heatsink, enhancing the structural integrity of the card. This is especially beneficial in preventing bending or warping due to the weight of the cooler, which is essential for maintaining long-term reliability and performance.
  • Design and Build Quality: The design ensures that the card not only performs well but also fits securely in a variety of PC setups. The attention to detail in providing both functional and aesthetic features, like the easy-to-access power connectors and LED switch, reflects ASRock’s commitment to quality and user satisfaction.

These features illustrate the ASRock Radeon RX 7900 GRE Steel Legend’s capability to handle demanding applications while offering user-friendly options, making it a top choice for enthusiasts seeking a blend of performance, control, and durability in their gaming and professional environments.

This image offers a detailed look at the robust construction and thoughtful design of the ASRock Radeon RX 7900 GRE Steel Legend graphics card. It showcases the metal frame securely fastened to the mounting bracket, a feature that plays a critical role in reinforcing the overall structural integrity and durability of the card.

Key Design and Construction Details:

  • Metal Frame Reinforcement: The metal frame that extends along the side of the card is bolted to the mounting bracket, providing substantial support for the hefty heatsink and cooling assembly. This reinforcement helps prevent sagging and bending over time, which is particularly important for maintaining the longevity and reliability of the card under continuous heavy use.
  • Thermal Management: The visible fins and parts of the heatsink assembly underline the card’s advanced thermal management capabilities. The design ensures efficient heat dissipation, which is crucial for maintaining optimal performance and preventing thermal throttling during intense gaming sessions or while running demanding applications.
  • Aesthetic and Functional Integration: The white metal frame not only enhances the card’s visual appeal but also complements the overall white theme, creating a cohesive and attractive look. The integration of form and function is evident, as the structural elements also contribute to the card’s aesthetic identity.
  • Accessibility and Maintenance: The design suggests easy accessibility for maintenance. The secure but accessible assembly allows for easier cleaning and potential upgrades or replacements of thermal pads or paste, ensuring that the card can be kept in peak condition.

This focus on durability, combined with superior cooling solutions, makes the ASRock Radeon RX 7900 GRE Steel Legend a smart choice for users who require high-performance graphics capabilities in environments that demand both visual flair and technical robustness. The card’s construction ensures that it not only performs well but also lasts through rigorous use, aligning with the expectations of gamers and professional users alike.

An interesting aspect of the ASRock Radeon RX 7900 GRE Steel Legend graphics card’s design: the provision of locking holes at the front. These locking holes are integral to enhancing the security and stability of the card within a computer case.

Purpose and Benefits of Locking Holes:

  • Enhanced Security: The locking holes allow for the graphics card to be securely fastened to the case or other mounting frameworks. This is particularly useful in environments where the computer might be moved often, such as in gaming tournaments or for systems that are transported between locations.
  • Reduced Mechanical Stress: By securely anchoring the card, these locking holes help distribute the mechanical stress caused by the weight of the card more evenly. This is crucial for preventing the graphics card from sagging or putting excessive pressure on the motherboard slot, which can lead to physical damage over time.
  • Improved Thermal Performance: Secure mounting can also aid in better alignment with case airflow strategies, ensuring that cooling is optimized. This can be crucial for maintaining performance and longevity, as effective cooling directly impacts the thermal state of the graphics card.
  • Aesthetic and Alignment: For enthusiasts who pride themselves on precision and cleanliness in their setups, these locking holes ensure that the card remains perfectly aligned within the case, contributing to a neat and organized internal appearance.

This design detail underscores ASRock’s commitment to providing not just powerful and visually appealing hardware but also practical solutions that cater to the needs of serious gamers and PC builders. The inclusion of locking holes demonstrates a thoughtful approach to user experience, focusing on durability, functionality, and maintenance ease.

The image beautifully showcases the back of the ASRock Radeon RX 7900 GRE Steel Legend graphics card, highlighting its stylish white metal backplate designed with the distinctive Steel Legend aesthetic. This backplate is not only visually appealing but also plays a crucial role in the overall functionality and protection of the card.

Key Features of the Metal Backplate:

  • Aesthetic Appeal: The backplate features a modern, geometric camouflage pattern that is both visually striking and perfectly aligns with the Steel Legend branding. This design adds a sleek, aggressive look to the card, making it stand out in any high-end gaming rig.
  • Durability and Protection: The sturdy metal backplate provides robust physical protection, preventing the PCB (Printed Circuit Board) from bending under the weight of the card. This is especially important for high-end graphics cards that are frequently handled or installed in various systems.
  • Enhanced Cooling: While the primary role of a backplate is protective, it also aids in passive cooling. The metal can help dissipate heat away from the PCB, contributing to the overall thermal management of the card. This is vital for maintaining optimal performance and longevity.
  • Structural Integrity: The backplate adds extra rigidity to the card, ensuring that it remains stable and secure within the PC case. This stability is crucial for preventing damage during transport or operation.
  • Connectivity Options: Highlighted at the rear are the connectivity options, which include three DisplayPort 2.1 ports and one HDMI 2.1 port. These options provide flexibility for multiple display setups and support the latest standards for high resolution and refresh rates, making the card suitable for advanced gaming, VR applications, and professional multimedia work.

The backplate’s design and functionality exemplify ASRock’s commitment to quality, combining top-notch aesthetics with practical features that enhance the user experience and the card’s performance. This makes the ASRock Radeon RX 7900 GRE Steel Legend a well-rounded choice for gamers and professionals looking for a reliable, high-performance graphics solution.

This image clearly displays the output section of the ASRock Radeon RX 7900 GRE Steel Legend graphics card, which is designed to cater to a variety of display setups and high-resolution multimedia requirements. Here’s a detailed breakdown of the connectivity options provided:

Connectivity Options:

  • Three DisplayPort 2.1 Ports: These ports are the primary choice for high-resolution, high-refresh-rate gaming monitors. DisplayPort 2.1 supports resolutions up to 8K and higher refresh rates, making it ideal for advanced gaming setups and professional applications that require precise color and detail.
  • One HDMI 2.1 Port: HDMI 2.1 is essential for compatibility with a broader range of displays, including TVs and monitors that may not support DisplayPort. It supports up to 10K resolution, enhanced refresh rates, and features such as Dynamic HDR, making it well-suited for both gaming and high-definition video playback.

Additional Features:

  • Ventilation Design: The bracket’s cut-out pattern isn’t just for aesthetics; it also serves to enhance airflow, helping to expel hot air from the card and maintain optimal operating temperatures.
  • Robust Build Quality: The durable metal used in the bracket underscores the card’s premium build quality, ensuring it can withstand the rigors of installation and long-term use.
  • Screw Mounting Points: Visible screw mounts provide secure attachment to the case, which is vital for stability, especially given the card’s substantial size and weight.

The configuration of these ports allows for flexibility in multi-monitor setups, making the ASRock Radeon RX 7900 GRE Steel Legend a versatile choice for users who need a powerful graphics solution capable of driving multiple high-resolution displays for gaming, content creation, or general productivity.

ASRock RX 7900 GRE Steel Legend Review: Optimized Cooling with Nickel-Plated Heat Pipes and Sturdy Design

An insightful view into the disassembled ASRock Radeon RX 7900 GRE Steel Legend graphics card, showcasing the intricacies of its build and the thoughtful engineering behind its design.

Key Components and Design Features:

  • Circuit Board: The standard-sized PCB is meticulously engineered to support the high-end components and robust power delivery necessary for optimal performance. The layout is designed to ensure electrical efficiency and minimize heat generation.
  • Metal Frame and Mounting Bracket: The metal frame that secures to the PCIe bracket significantly enhances the structural stability of the card. This is crucial for supporting the weight of the large heatsink, ensuring that the card remains securely mounted in the slot without sagging or stressing the motherboard.
  • Heatsink and Cooling System: The heatsink shown is substantial, featuring a large surface area with multiple heat pipes that efficiently transfer heat away from the GPU and other critical components. This system is essential for maintaining thermal performance under load, ensuring that the card operates within safe temperature ranges even during intense gaming sessions.
  • Metal Backplate: The backplate not only adds to the card’s aesthetic but also serves a functional purpose by providing passive cooling. It helps to dissipate heat away from the VRAM located on the back of the PCB, enhancing the overall thermal management of the card.
  • Thermal Pads and Paste: Visible in the image are the thermal pads and paste that facilitate effective heat transfer from the GPU and memory modules to the heatsink. Proper application and maintenance of these materials are vital for long-term thermal performance and reliability.
  • Design Aesthetics: Even in its disassembled state, the attention to detail in the design is apparent, with aesthetics that match performance. The Steel Legend branding is prominently featured on the backplate, reinforcing the card’s identity as part of this elite series.

This level of detail in the construction of the ASRock Radeon RX 7900 GRE Steel Legend reflects a commitment to quality that appeals to gamers and tech enthusiasts who demand high performance, durability, and visual appeal in their hardware. The robust design ensures that the card is not only capable of delivering top-tier graphics performance but also built to last.

An intricate view of the ASRock Radeon RX 7900 GRE Steel Legend graphics card, focusing on the powerful Navi 31 GPU and its accompanying components. This setup is a showcase of cutting-edge technology, emphasizing the capabilities of the card for high-performance computing and gaming.

Key Components and Features:

  • Navi 31 GPU: At the heart of the card is AMD’s Navi 31 GPU, which belongs to their RDNA 3 architecture. This GPU is designed to deliver exceptional performance, particularly in 4K gaming, due to its advanced architecture that includes enhanced ray tracing capabilities and increased power efficiency. The Navi 31 is known for its significant leap in performance compared to its predecessors, making it highly suitable for the most demanding gaming and creative applications.
  • GDDR6 Memory: Surrounding the GPU are eight chips of GDDR6 memory, totaling 16GB as previously noted. GDDR6 is the current standard for high-end graphics cards, offering higher speeds and greater bandwidth than its predecessor, GDDR5. This memory setup ensures that the card can handle complex textures and large datasets efficiently, which is critical for modern gaming, real-time rendering, and AI tasks.
  • Power Delivery and Regulation Components: The image also shows a sophisticated array of power delivery components, including VRMs (Voltage Regulator Modules) and capacitors. These components are critical for providing stable and efficient power to the GPU and memory, which is crucial for maintaining performance under load and extending the lifespan of the card.
  • Circuit Layout: The PCB layout is densely packed with components, indicating a high level of engineering designed to maximize performance within the physical constraints of the card. This layout is optimized to reduce electrical noise and heat generation, further enhancing the card’s performance and stability.
  • Cooling and Structural Design: While not visible in this image, the card’s design integrates a robust cooling system and a sturdy frame, as mentioned in previous descriptions. These are crucial for supporting the powerful components visible here.

This detailed look at the ASRock Radeon RX 7900 GRE Steel Legend’s internals highlights the advanced technology and engineering that make it a top choice for gamers and professionals seeking high-performance graphics capabilities. It combines AMD’s latest GPU technology with high-speed memory and robust power management to deliver exceptional performance and reliability.

The sophisticated cooling system of the ASRock Radeon RX 7900 GRE Steel Legend graphics card, highlighting the nickel-plated copper base that utilizes five heat pipes to distribute heat efficiently across the heatsink.

Detailed Analysis of the Cooling System:

  • Nickel-Plated Copper Base: The use of nickel-plated copper for the base of the heatsink is a strategic choice due to copper’s high thermal conductivity. Nickel plating helps prevent corrosion over time and maintains the copper’s excellent heat transfer capabilities. The base sits directly on the GPU, where it absorbs the maximum amount of heat, which is then transferred away by the heat pipes.
  • Five Heat Pipes: These heat pipes are critical components in the cooling system. They work by efficiently transporting heat away from the copper base to the heatsink fins located at various points across the card. Heat pipes are a highly effective way to manage thermal loads, especially in high-performance graphics cards like this one, where managing heat is crucial to maintaining optimal performance and preventing thermal throttling.
  • Heatsink Fins: The image shows the heatsink fins that the heat pipes feed into. These fins are designed to maximize surface area for heat dissipation. The layout and spacing of the fins are optimized to allow for adequate airflow, which is further enhanced by the card’s fans during operation.
  • Overall Cooling Efficiency: This cooling solution is engineered to handle the significant heat output of the Navi 31 GPU and other components like memory and power delivery modules. Effective heat dissipation ensures that the card runs at optimal temperatures, thus maintaining performance and extending the lifespan of the card.
  • Aesthetic Integration: Even the cooling components of the ASRock Radeon RX 7900 GRE Steel Legend are designed with aesthetics in mind, featuring a clean, metallic look that complements the card’s overall white and silver color scheme. This not only serves a functional purpose but also ensures that the card will look impressive in any custom PC build.

This detailed focus on cooling technology in the ASRock Radeon RX 7900 GRE Steel Legend underscores its capability to deliver top-tier performance consistently. This is crucial for gamers and professionals who demand the most from their hardware in scenarios that range from intense gaming sessions to demanding computational tasks.

The front section of the heatsink fins on the ASRock Radeon RX 7900 GRE Steel Legend graphics card, providing a closer look at how the card manages thermal dissipation—a crucial factor for maintaining performance stability and longevity.

Analysis of the Heatsink Design:

  • Dense Fins Layout: The closely packed fins increase the surface area available for heat dissipation. This design is critical for effectively spreading out the heat absorbed from the GPU and other components, allowing it to be cooled more efficiently by the passing airflow generated by the card’s fans.
  • Material and Construction: Typically, these fins are made from aluminum, a material chosen for its excellent balance between thermal conductivity and lightweight properties. Aluminum can quickly absorb and release heat, which is vital for rapid thermal management during intense computing tasks.
  • Heat Pipe Integration: The image shows how the heat pipes are integrated into the fin structure. These pipes run through the base of the heatsink and extend through the fins, carrying heat from the GPU core to be evenly distributed across the entire heatsink. This method ensures an efficient thermal transfer process, crucial for keeping temperatures within safe operating limits.
  • Airflow Optimization: The spacing between the fins is designed to optimize airflow. This spacing allows air to pass through the heatsink with minimal resistance while maximizing the amount of air that comes into direct contact with the fins, enhancing the cooling effect.
  • Robustness and Durability: The screws visible at the corners of the heatsink secure the entire assembly together, ensuring that the structure remains stable and durable over time, even under the mechanical stresses of transport or intense operation.

The design and engineering of this heatsink represent a critical component of the overall thermal management strategy for the ASRock Radeon RX 7900 GRE Steel Legend. By effectively managing heat, the card can perform at peak efficiency without the risk of overheating, thus preserving the integrity and performance of its internal components over its operational lifespan. This focus on advanced cooling technology highlights the card’s suitability for high-performance gaming, creative tasks, and other demanding applications.

Enhance Your Gaming Experience with ASRock Tweak: Customizable Modes and RGB Lighting on the RX 7900 GRE Steel Legend

The screenshot demonstrates the ASRock Tweak software, which is a utility designed for users to monitor and adjust settings on their ASRock Radeon RX 7900 GRE graphics card. This tool offers flexibility and control over the card’s performance, with various modes and customization options that enhance user experience, whether for gaming, content creation, or general productivity.

Key Features of ASRock Tweak:

  • OC Mode: This setting is designed for users looking to push their graphics card to its performance limits. Overclocking can increase the GPU and memory clocks beyond the factory settings to achieve higher frame rates and better performance in games and applications.
  • Silent Mode: Ideal for times when minimal noise is desired, Silent Mode adjusts the fan speed and possibly down-tunes the GPU clock to reduce noise output, which is particularly useful during light usage or multimedia consumption.
  • User Mode: This mode provides advanced users the capability to fine-tune various parameters such as the GPU clock, memory clock, and power limit. This customization allows for a tailored balance between performance, temperature, and power consumption, depending on the user’s specific needs.
  • Monitoring Tools: The software displays real-time information about the GPU, including:
  • GPU and Memory Clocks: Showing the current operating frequencies of the GPU and memory.
  • GPU Usage and Temperature: Indicating how much of the GPU’s capacity is being utilized and the current temperature, which helps in monitoring thermal performance and ensuring the GPU is not overheating.
  • Fan Speed: Displaying the current RPM of the cooling fans, which is crucial for users who want to balance cooling efficiency with noise.
  • Memory Usage: Showing how much of the GPU’s memory is being used, which is useful for understanding workload demands.
  • Power Limit: Indicating the current power consumption as a percentage of the maximum allowed, which helps in managing the energy efficiency of the card.

The ASRock Tweak software is a powerful tool that enhances the adaptability and monitoring capabilities of the Radeon RX 7900 GRE Steel Legend, allowing users to not only push their hardware to its limits but also manage its operation responsibly and efficiently. This kind of software support is crucial for making the most out of high-performance hardware in a variety of use cases.

The ASRock Polychrome SYNC software, which is a utility designed to control and customize the RGB lighting on ASRock components, including the Radeon RX 7900 GRE Steel Legend graphics card. This tool allows users to personalize the aesthetic of their gaming setup to match their style or mood, enhancing the visual appeal of their hardware.

Features of ASRock Polychrome SYNC:

  • Diverse Lighting Modes: The software offers a wide array of lighting modes such as Rainbow, Static, Breathing, Strobe, Cycling, Random, Wave, Spring, Stack, Cram, Scan, Neon, and Water. Each mode provides a different visual effect, allowing users to choose the one that best suits their preferences or current needs.
  • Customizable Speed and Intensity: Users can adjust the speed of the lighting effects to create a dynamic appearance that can be either subtle or assertive, depending on the selected mode. The sliders for red, green, and blue (RGB) allow for fine-tuning of the colors, enabling users to create a custom palette that perfectly matches their gaming rig’s theme.
  • Easy Navigation and Control: The interface is user-friendly, featuring a straightforward layout that makes it easy for users to switch between different modes and adjust settings like color intensity and effect speed. This ease of use is crucial for allowing gamers and PC enthusiasts to quickly set up their preferred lighting without hassle.
  • Synchronization Capabilities: One of the key features of Polychrome SYNC is its ability to synchronize lighting across multiple ASRock devices that support Polychrome SYNC, creating a cohesive and attractive lighting scheme throughout the user’s entire setup. This synchronization enhances the overall ambiance and can contribute to a more immersive gaming experience.
  • Visual Feedback: The color wheel and preview section provide immediate visual feedback on adjustments, making it easier for users to achieve the desired effect without needing to guess how changes to settings will look.

The ASRock Polychrome SYNC software is a powerful tool for users who value customization and aesthetics alongside performance in their gaming hardware. It allows for a high degree of personalization, enabling users to enhance the visual dynamics of their setups with vibrant colors and dynamic lighting effects, tailored precisely to their liking. This enhances the enjoyment and satisfaction derived from both gaming and everyday computer use.

The RGB lighting effects on the ASRock Radeon RX 7900 GRE Steel Legend graphics card. The visual appeal of the RGB lighting combined with the card’s triple-fan setup illustrates not only functional aspects like cooling but also emphasizes the aesthetic enhancements that appeal to many gamers and computer enthusiasts.

Highlights of the RGB Lighting Features:

  • Vibrant Color Display: Each fan sports distinct colors, demonstrating the range and vibrancy of the RGB lighting capabilities. This allows users to customize the look of their setup to reflect personal style or match other components within their PC.
  • Dynamic Visual Effects: The lighting seems to be set to a dynamic mode where each fan cycles through different colors and patterns, creating a captivating visual display that enhances the overall look of the gaming rig.
  • Integrated Lighting Control: With software like ASRock’s Polychrome SYNC, users can synchronize these lighting effects across multiple compatible devices, creating a cohesive and immersive environment. This synchronization can extend to the motherboard, memory, and even case lighting, providing a unified theme throughout the setup.
  • Cooling System Visibility: The translucent fan blades not only allow the RGB lighting to shine through but also let users observe the cooling system in action, which adds an extra layer of interaction with the hardware’s performance aspects.
  • Aesthetic and Performance Balance: The image perfectly encapsulates how modern gaming hardware like the ASRock Radeon RX 7900 GRE Steel Legend marries performance with aesthetics. The effective cooling system ensures optimal performance by maintaining lower temperatures, while the customizable RGB lighting enhances the user experience by offering visual customization.

This combination of high-end performance hardware with extensive customization options through RGB lighting is what makes modern gaming PCs stand out, providing both the functionality gamers need and the customization they desire.

ASRock AI QuickSet: Revolutionizing AI Integration with Easy Setup for Stable Diffusion and More on AMD GPUs

ASRock’s introduction of the AI QuickSet software tool represents a significant advancement for gamers and tech enthusiasts interested in exploring the world of artificial intelligence. This tool simplifies the setup and optimization process for popular AI applications like Stable Diffusion, nod-ai/SHARK, and Whisper Desktop, making it accessible across both Windows and Linux platforms.

Key Features of ASRock AI QuickSet:

  • Simplified Installation: AI QuickSet streamlines the typically complex setup process involved with AI applications. Users often face challenges when installing AI models and frameworks like TensorFlow or PyTorch, along with necessary libraries and runtime environments. This software minimizes these hurdles, particularly for those new to such technologies.
  • Optimization for AMD GPUs: The tool is designed to work seamlessly with ASRock’s AMD Radeon RX 7000 series graphics cards. This optimization ensures that users can leverage the full computational power of their hardware for AI tasks, which is crucial for applications that are heavily dependent on GPU performance.
  • Minimum System Requirements: AI QuickSet requires at least 32GB of system memory, which reflects the heavy resource demands of AI processing. There are no specific restrictions on processors or motherboards, which broadens the accessibility for various users looking to upgrade their existing systems.
  • Integration of Leading AI Tools:
  • Stable Diffusion: Well-known for generating images from textual descriptions, Stable Diffusion via AI QuickSet uses the SD1.5 model, allowing users to input commands and let the GPU process and create images. This functionality is especially appealing for creatives and content creators.
  • nod-ai/SHARK: Utilizes the Stable Diffusion model but is developed with the Vulkan API to enhance GPU-accelerated AI text-to-image generation. This makes it suitable for creating complex visuals from simple text inputs.
  • Whisper Desktop: Incorporates OpenAI’s Whisper ASR model to provide efficient and accurate audio transcription, converting speech from videos into text transcripts. This tool is particularly useful for video editors and content producers who need to generate subtitles or written records of dialogues.

User Experience:

  • Convenience: The automated installation process concludes with desktop shortcuts for easy access, enabling users to start leveraging AI functionalities without navigating through complex software setups.
  • Versatility: The inclusion of tools for both image and audio processing broadens the appeal of AI QuickSet, attracting a wide range of users from different fields.

ASRock’s AI QuickSet is a pioneering step towards democratizing AI technology for personal use, particularly in multimedia applications. It provides an efficient and user-friendly platform for harnessing the capabilities of advanced AI models, enhancing both the productivity and creativity of its users.

Comprehensive Performance Review: ASRock RX 7900 GRE Tackles Gaming, Creative Software, and Ray Tracing at High Resolutions

The test setup described aims to evaluate the comprehensive performance capabilities of a high-end PC system, particularly focusing on creative software applications and gaming performance at high resolutions and settings. Here’s a breakdown of the testing components and their relevance to the tasks:

Test Platform Components

  • Processor: Intel Core i7-14700K
  • This CPU is part of Intel’s 13th generation and offers excellent multi-core performance crucial for creative tasks in Photoshop (PS), Lightroom (LR), and Blender. Its capability also ensures swift processing in gaming scenarios.
  • Motherboard: ASRock Z790 Taichi
  • A top-tier motherboard that supports advanced features like PCIe 4.0, providing a stable and fast platform for high-performance gaming and creative tasks.
  • Memory: Crucial DDR5 Pro 16GB*2-5600
  • Fast DDR5 memory is vital for both creative applications and gaming. The high bandwidth and speed enhance the overall system responsiveness and multitasking capabilities.
  • System Drive: Solidigm P44 Pro 1TB PCIe 4.0 SSD
  • A speedy SSD is crucial for quick load times in games and efficient handling of large files in creative applications. PCIe 4.0 compatibility ensures high data transfer rates, reducing downtime in loading screens and file rendering.
  • Cooler: 360mm AIO
  • Effective cooling is essential, particularly when the CPU is under heavy load during gaming or rendering tasks. A 360mm AIO cooler helps maintain optimal temperatures, preventing thermal throttling and ensuring sustained performance.
  • Power Supply: Seasonic VERTEX GX-1000
  • A robust 1000W power supply unit is necessary to support the high power demands of the GPU and other system components, especially under peak load during intense gaming sessions.
  • Operating System: Windows 11 Pro 23H2
  • The latest OS ensures compatibility with the newest software and hardware, offering optimizations for both gaming and professional creative software.

Testing Focus Areas

Creative Software Testing:

  • Photoshop, Lightroom, and Blender: These applications will test the system’s CPU, GPU, and memory performance, focusing on tasks such as rendering times, filter application speeds, and real-time editing capabilities.

Gaming Performance:

  • 1440p and 2160p Resolutions with Max Settings: High-resolution gaming tests will push the limits of the graphics card, evaluating its ability to handle detailed graphics in eSports and AAA titles.
  • Ray Tracing and FSR Tests: These will specifically assess the GPU’s capabilities in handling advanced visual effects and resolution scaling technologies, which are critical for modern gaming experiences.

This test platform is well-equipped to provide detailed insights into the performance of top-tier hardware in both professional and gaming environments, allowing for a thorough assessment of how well the system can handle various high-demand tasks across different disciplines.

The screenshot from GPU-Z provides a detailed overview of the AMD Radeon RX 7900 GRE graphics card’s specifications, emphasizing its capabilities as a high-performance component suitable for both gaming and professional applications.

Key Specifications Highlighted in GPU-Z:

  • GPU Model: AMD Radeon RX 7900 GRE with a Navi 31 GPU chip, which is fabricated on a 5nm process. This advanced manufacturing process enables higher efficiency and better performance due to the increased transistor density.
  • Core Details:
  • Shader Units: 5120 units, which are essential for rendering graphics. The higher number of shaders contributes to more robust processing power for complex visual tasks in games and professional software.
  • ROPs/TMUs: The card features 80 ROPs and 320 TMUs, indicating strong capabilities in rendering pixels and texturing, respectively, which are crucial for high-resolution and texture-rich environments in modern games.
  • Clock Speeds:
  • Boost Clock: 2530 MHz, which is the peak speed the GPU can achieve under load. This high boost clock enhances the GPU’s ability to handle demanding scenarios, ensuring smoother gameplay and faster rendering times.
  • Default Clock: 1972 MHz, providing a robust base performance from which the boost clock can provide additional power when needed.
  • Memory Configuration:
  • Type: GDDR6, supplied by Samsung, known for its high performance and reliability.
  • Size: 16384 MB (16 GB), which is ample for modern gaming, allowing for detailed textures and large data buffers required by AAA titles and intensive professional applications.
  • Bus Width: 256-bit interface, which strikes a balance between cost and performance, providing a decent bandwidth to support the high-resolution textures in games and large datasets in creative tasks.
  • Bandwidth: 576 GB/s, enabling fast data transfer rates that reduce loading times and improve overall system responsiveness.
  • Technologies Supported:
  • DirectX 12 Ultimate: Ensures support for the latest multimedia and gaming applications, including features like ray tracing and variable rate shading.
  • Vulkan, OpenCL, and OpenGL 4.6: These are crucial for a wide range of applications, from gaming to professional graphics work.
  • Power and Efficiency:
  • Typical Board Power (TBP): 228W, which is relatively efficient for a card with such high performance, reflecting the benefits of the 5nm manufacturing process.

This comprehensive data showcases the AMD Radeon RX 7900 GRE as a powerful option for users needing high-end graphical processing capabilities. Whether for gaming at the highest settings, engaging in VR, or handling intense graphical tasks in creative professions, this card provides the necessary specifications to deliver exceptional performance.

The results from the UL Procyon Photo Editing Benchmark provide a quantitative measure of how well the combination of an AMD Radeon RX 7900 GRE graphics card and an Intel Core i7-14700K processor performs in tasks specifically related to photo editing using Adobe Photoshop and Lightroom Classic. This benchmark focuses on testing the performance of hardware configurations under real-world scenarios that are common in professional photo editing workflows.

Analysis of Benchmark Scores

  • Overall Score: 8637
  • This score is indicative of a high-performance system capable of handling intensive photo editing tasks efficiently. It reflects the combined computational power of the AMD Radeon RX 7900 GRE and the Intel Core i7-14700K processor.
  • Image Retouching Score: 8847
  • The Image Retouching test, which focuses on using Photoshop for detailed photo edits, shows the system excelling in tasks that may involve complex layer manipulations, adjustments, and various retouching actions. A score of 8847 suggests that the system provides quick responsiveness and reduced processing times for operations that are typically resource-intensive.
  • Batch Processing Score: 8432
  • The Batch Processing test evaluates performance in Lightroom Classic, specifically in handling and processing large volumes of photos simultaneously. A score of 8432 is excellent, indicating that the system can manage high-resolution images and apply adjustments without significant delays. This is crucial for photographers who need to process large image sets efficiently.

Implications for Users

For professionals in photography and graphic design, these scores suggest that the AMD Radeon RX 7900 GRE and Intel Core i7-14700K setup is well-suited to demanding editing environments. The high scores in both individual tests indicate that this system can handle complex edits and large batch processes, which are common in professional settings.

This benchmarking information is valuable for:

  • Photographers and graphic designers looking for hardware that can reduce the time spent on photo processing.
  • IT decision-makers in creative industries who need to ensure that the workstations they procure can handle the demands of modern photo editing workflows.
  • Tech enthusiasts who appreciate knowing the capabilities of their hardware in specific applications.

Ultimately, these results help in making informed decisions when selecting hardware for a build intended for professional creative work, ensuring both efficiency and productivity in photo editing tasks.

The PugetBench results for DaVinci Resolve provide valuable insights into the performance of a system equipped with an Intel Core i7-14700K processor and AMD Radeon RX 7900 GRE graphics card, particularly in tasks related to high-resolution video editing and effects processing.

Breakdown of PugetBench Scores:

  • Standard Overall Score: 3183
  • This overall score is a comprehensive measure of the system’s ability to handle various tasks within DaVinci Resolve, which is a demanding video editing software popular among professionals for its extensive support for color correction, visual effects, and audio post-production.
  • 4K Media Score: 215
  • This score reflects the system’s performance in handling 4K video formats, such as H.264 150mbps 8-bit, ProRes 422, and RED. A score of 215 indicates that the system is capable but may face challenges with more demanding 4K formats or when multitasking within complex timelines.
  • GPU Effects Score: 134
  • The GPU Effects score measures how well the GPU handles OpenFX and other GPU-accelerated effects. A score of 134 suggests that while the system can manage GPU-related tasks, there may be room for improvement in optimizing performance for more intensive effects workloads.
  • Fusion Score: 606
  • Fusion is DaVinci Resolve’s module for advanced visual effects and motion graphics. A score of 606 is quite robust, indicating that the system performs well with complex compositing, 3D workflow, and other visual effects tasks that are highly reliant on both GPU and CPU processing power.

Analysis and Recommendations:

Given the scores, it’s evident that while the setup performs admirably in many respects, there are specific areas where it might struggle under extreme workloads, especially with higher resolution media and intensive GPU effects. Users involved in heavy-duty video editing might consider the following:

  • Upgrading GPU: For professionals focusing on GPU-intensive tasks or working regularly with higher resolution media, considering a GPU upgrade or optimizing GPU settings for better performance might help.
  • Memory Expansion: Increasing the system’s memory beyond 48GB may provide additional headroom for handling larger projects more efficiently, especially useful in reducing rendering times and improving playback smoothness.
  • Storage Solutions: Implementing faster storage solutions or enhancing existing ones could also improve performance, particularly in managing large video files and speeding up project load times.
  • System Tuning: Fine-tuning the system settings and preferences in DaVinci Resolve, such as adjusting the GPU processing mode and exploring different R3D GPU modes, might yield better performance.

This configuration proves capable for professional video editing tasks, but as with any specialized application, balancing the system’s capabilities with the specific demands of one’s typical workflows is key to achieving optimal performance.

The Blender Benchmark results for the AMD Radeon RX 7900 GRE along with an Intel Core i7-14700K CPU provide an insightful glimpse into how well this system can handle various demanding 3D tasks within Blender, a comprehensive and open-source 3D creation suite.

Analysis of Blender Benchmark Results:

  • Samples Per Minute Performance:
  • Monster Scene: 1324.057850 samples per minute. This scene likely involves complex lighting and textures, making it computationally intensive. The high sample rate here indicates that the system is particularly adept at handling heavy rendering tasks, delivering good performance under load.
  • Junkshop Scene: 752.746302 samples per minute. This scene may involve a moderate level of complexity with an emphasis on shading and detail. The performance dip compared to the Monster scene suggests that the GPU handles moderately complex scenes efficiently, though not as briskly as simpler or more optimized scenes.
  • Classroom Scene: 675.674381 samples per minute. This score, the lowest among the three, indicates a struggle with highly complex scenes possibly due to intricate lighting or large textures, which require significant computational resources.

Implications for Professional Use:

These results are quite telling for professionals considering this setup for 3D rendering and animation work:

  • High Performance in Varied Conditions: The system shows strong performance across different levels of scene complexity. It demonstrates the ability to handle a range of tasks from high to moderate complexity, which is crucial for professionals working across different stages of 3D production.
  • Optimization Opportunities: While the performance is impressive, especially in the Monster scene, there might be room for optimization in scenes like the Classroom where the complexity can bottleneck performance. Users might need to adjust render settings or optimize scene assets for better performance.
  • System Suitability: Given the overall good performance in these benchmarks, the AMD Radeon RX 7900 GRE, combined with the Intel Core i7-14700K, proves to be a solid choice for professionals in 3D modeling, animation, and rendering. It can handle intensive Blender operations, making it suitable for both freelance artists and studios.
  • Workflow Considerations: Depending on the typical project complexity, users may consider system enhancements such as additional memory or a more powerful GPU if regularly working with exceptionally high-detail scenes to ensure smoother workflows and shorter render times.

This benchmark underscores the capability of the AMD Radeon RX 7900 GRE and Intel Core i7-14700K in handling diverse and demanding 3D tasks, confirming their suitability for professional creative work in Blender and similar 3D applications.

Exploring AI Image Generation: ASRock RX 7900 GRE’s Performance with Stable Diffusion on UL Procyon Benchmark

The results from the UL Procyon AI Image Generation Benchmark using Stable Diffusion 1.5 and Stable Diffusion XL versions showcase the performance of the AMD Radeon RX 7900 GRE with the Intel Core i7-14700K CPU in AI-driven tasks. These benchmarks provide insights into how well the system can handle AI image generation tasks, which are increasingly popular in various creative and technological fields.

Benchmark Analysis:

  • Stable Diffusion 1.5 (FP16) Test Results:
  • Overall Score: 1384
  • Time Taken: 72.229 seconds for the entire batch of images.
  • Image Generation Speed: 4.514 seconds per image.
  • This test indicates that the system is quite efficient at handling image generation tasks at a lower resolution (512 pixels), making it suitable for applications where quick turnaround of images is necessary, such as generating thumbnails or concept art.
  • Stable Diffusion XL (FP16) Test Results:
  • Overall Score: 1255
  • Time Taken: 478.045 seconds for the entire batch.
  • Image Generation Speed: 29.878 seconds per image.
  • The longer image generation time in this test, which likely involves a higher resolution of 1024 pixels, demonstrates that while the system can handle more detailed and complex image generation tasks, it does so at a significantly slower pace. This could impact workflows that require high-resolution outputs or where time constraints are critical.

System Performance in AI Image Generation:

The differing performance levels in these tests can be attributed to several factors:

  • Resolution and Complexity: Higher resolutions significantly increase the computational load. The RX 7900 GRE, while powerful, shows limitations when handling intensive, high-resolution AI image generation.
  • AI Inference Engine: The tests utilize the ONNX Runtime with DirectML, which is optimized for Windows platforms and is compatible with AMD hardware. The choice of inference engine can significantly affect performance, and in this case, it appears to handle lower resolutions more efficiently than higher ones.
  • GPU and CPU Synergy: The combination of the RX 7900 GRE and the i7-14700K is potent but may require optimization in settings or perhaps additional system resources (like more RAM or faster storage) to improve performance in more demanding tasks.

Recommendations for Users:

For users engaging in AI image generation, especially those using applications like Stable Diffusion:

  • Optimize Hardware Configuration: Consider upgrading components or optimizing software settings for better performance with high-resolution tasks.
  • Batch Processing Considerations: For faster processing times, users might need to adjust batch sizes or manage resolution settings according to the urgency of the task.
  • Explore Different AI Engines: Testing different AI inference engines might yield better performance, as some may be more optimized for AMD hardware than others.

In conclusion, while the AMD Radeon RX 7900 GRE equipped system performs admirably in AI image generation tasks, there are noticeable differences in how it handles different resolutions, which users should consider when setting up their workflows or choosing hardware for specific applications.

ASRock RX 7900 GRE Dominates in 3DMark Benchmarks: Detailed Analysis of Fire Strike, Time Spy, and Ray Tracing Performance

The results from the 3DMark Fire Strike benchmarks provide a comprehensive overview of the performance capabilities of the AMD Radeon RX 7900 GRE graphics card across different resolutions, namely 1080p (Fire Strike), 1440p (Fire Strike Extreme), and 2160p (Fire Strike Ultra). These tests are essential for assessing the GPU’s prowess under the load of DirectX 11 gaming scenarios.

Detailed Benchmark Scores:

  • Fire Strike (1080p):
  • Overall Score: 47,267
  • Graphics Score: 56,704
  • Physics Score: 48,821
  • Combined Score: 20,588
  • This high score at 1080p demonstrates that the RX 7900 GRE excels at this resolution, providing more than sufficient power for most modern games, easily pushing beyond 200+ FPS in games like Battlefield V on Ultra settings.
  • Fire Strike Extreme (1440p):
  • Overall Score: 27,243
  • Graphics Score: 28,180
  • Physics Score: 48,810
  • Combined Score: 14,249
  • At 1440p, the card still delivers impressive performance, suitable for high-detail gaming at this resolution, maintaining above 190 FPS in demanding settings, which is exceptional for gaming enthusiasts seeking high frame rates on higher resolution displays.
  • Fire Strike Ultra (2160p):
  • Overall Score: 14,650
  • Graphics Score: 14,334
  • Physics Score: 48,749
  • Combined Score: 7,777
  • At 4K resolution, the scores understandably drop, reflecting the increased demands of rendering at this high resolution. However, the performance is still robust, capable of handling many modern games at 4K with good frame rates, likely above 60 FPS in most titles and over 200 FPS in optimized scenarios like Battlefield V.

Analysis and Implications:

These scores from the 3DMark Fire Strike series benchmarks indicate that the AMD Radeon RX 7900 GRE is an excellent choice for gamers and professionals who require a GPU capable of high performance across various resolutions:

  • 1080p Gaming: Ideal for esports where high frame rates are crucial.
  • 1440p Gaming: Balances detail and performance, suitable for most current AAA titles with high settings.
  • 2160p Gaming: Capable of delivering good performance in Ultra HD, though gamers may need to adjust settings in the most demanding titles to maintain smooth frame rates.

The consistency in the Physics score across all resolutions indicates that the CPU performance remains stable and is not a bottleneck in these scenarios, supporting the GPU in delivering its best performance. This makes the AMD Radeon RX 7900 GRE a strong contender for building a high-end gaming or professional visualization system that requires robust graphical processing capabilities.

3DMark Fire Strike
3DMark Fire Strike Extreme

The 3DMark Time Spy results provide a detailed insight into the gaming performance of the AMD Radeon RX 7900 GRE, particularly highlighting its capabilities under the DirectX 12 API at different resolutions. These benchmarks are particularly relevant for gamers looking to understand how well their system can handle current and future AAA titles under different settings.

Breakdown of 3DMark Time Spy Results:

  • Time Spy (1440p):
  • Overall Score: 21,825
  • Graphics Score: 22,361
  • CPU Score: 19,216
  • This high overall and graphics score indicates that the Radeon RX 7900 GRE excels in managing DirectX 12 tasks at 1440p, offering exceptional performance that translates into very high frame rates in demanding games like Battlefield V at 1440p Ultra settings, where it achieves 200+ FPS. The strong CPU score reflects the processor’s ability to keep up with the GPU, ensuring balanced performance.
  • Time Spy Extreme (2160p):
  • Overall Score: 10,674
  • Graphics Score: 10,477
  • CPU Score: 11,948
  • The scores reflect a decrease in performance as the resolution increases to 4K, which is expected due to the greater demand placed on the GPU. However, the GPU still performs commendably, maintaining high frame rates well above 60 FPS in most titles and even exceeding 200 FPS in optimized game settings like those of Battlefield V. The CPU score remains robust, indicating no bottleneck and good system balance.

Performance Analysis:

These results underscore the AMD Radeon RX 7900 GRE’s strong performance in high-end gaming scenarios:

  • 1440p Gaming: At this resolution, the GPU is in its element, providing ample power for ultra-high settings in all but the most demanding games. Gamers can expect smooth, visually stunning gameplay with very high frame rates, enhancing gaming experiences where speed and visual detail are paramount.
  • 2160p Gaming: Even at 4K, the card holds its own, suggesting it is more than capable of handling current-generation games at high settings. Gamers looking to future-proof their systems for 4K gaming will find the RX 7900 GRE a compelling choice, though for some extremely demanding settings, slight tweaks might be necessary to optimize performance.


Overall, the AMD Radeon RX 7900 GRE provides excellent performance for DirectX 12 gaming across various resolutions, confirmed by its strong showing in the 3DMark Time Spy benchmarks. For gamers and professionals alike, this card offers a blend of high performance and future readiness, making it a solid investment for those seeking to experience the latest in gaming technology or engaging in intensive graphic design and video editing tasks.

3DMark Time Spy
3DMark Time Spy Extreme

The results from the 3DMark Speed Way and AMD FSR (FidelityFX Super Resolution) feature tests provide critical insights into the AMD Radeon RX 7900 GRE’s performance in handling ray tracing and upscaling technologies, crucial for modern gaming experiences.

3DMark Speed Way Benchmark Analysis

  • Speed Way Score: 4,315
  • This benchmark is specifically developed to test ray tracing capabilities under the DirectX 12 API, showcasing how well a GPU can manage complex lighting and reflection effects in real-time. A score of 4,315 indicates a commendable ability to process full ray tracing scenarios at playable frame rates, achieving around 43.15 FPS in high-detail settings.

AMD FSR Feature Test Analysis

  • Without FSR: 35.00 FPS
  • This frame rate is reflective of the native resolution performance under heavy graphical demands without any upscaling or optimization technologies enabled.
  • With FSR 2: 94.73 FPS
  • Enabling FSR 2 dramatically improves performance by upscaling lower resolution images to higher resolutions while attempting to maintain the quality of a native high-resolution display. This upscaling results in a performance increase of about 170.7%, boosting frame rates from 35 FPS to 94.73 FPS.

Implications and Recommendations

  • Gaming at High Resolutions and Settings:
  • The results demonstrate that the AMD Radeon RX 7900 GRE is highly capable of gaming at high resolutions with ray tracing enabled, particularly when enhanced with FSR technology. Gamers can enjoy much higher frame rates with FSR turned on, making the latest games more accessible at higher settings even on demanding resolutions.
  • FSR Performance:
  • The significant improvement in frame rates with FSR 2 enabled highlights the effectiveness of AMD’s upscaling technology in enhancing gaming performance without the need for hardware upgrades. This makes the Radeon RX 7900 GRE a strong option for gamers looking to maximize their system’s performance without compromising on visual quality.
  • Technology Utilization:
  • For gamers and developers, leveraging AMD’s FSR technology can greatly enhance performance, especially in ray-traced environments. This upscaling technology is crucial for maintaining higher frame rates in visually intensive games.
  • Future-Proofing:
  • Considering the performance benefits demonstrated, the Radeon RX 7900 GRE combined with technologies like FSR provides a future-proof setup that can handle upcoming games that increasingly demand more from GPUs, particularly with the growing prevalence of ray tracing.

In summary, the AMD Radeon RX 7900 GRE, particularly when combined with FSR 2, represents a powerful solution for handling the demanding graphics of modern games, offering both excellent ray tracing performance and significant improvements in frame rates with upscaling technologies.

3DMark Speed Way
3DMark FSR

ASRock RX 7900 GRE Shines in eSports Gaming: Stellar FPS Performance Across Popular Titles at High Resolutions

The performance chart for the ASRock RX 7900 GRE Steel Legend illustrates how the graphics card handles several popular eSports titles at both 1440p and 2160p resolutions with maximum graphical settings. This information is crucial for gamers who prioritize high frame rates for a competitive advantage in fast-paced games.

Analysis of Gaming Performance at Different Resolutions:

  • Counter-Strike 2 (CS2):
  • 1440p: 205 FPS
  • 2160p: 96 FPS
  • The performance drop at 4K resolution is noticeable but still maintains FPS close to 100, which is generally considered playable for competitive gaming, although some players might prefer higher for a smoother experience.
  • Apex Legends:
  • 1440p: 278 FPS
  • 2160p: 168 FPS
  • Apex Legends performs exceptionally well at 1440p and remains quite solid at 2160p, ensuring fluid gameplay even in intense situations.
  • League of Legends (LoL):
  • 1440p: 494 FPS
  • 2160p: 377 FPS
  • Given LoL’s less demanding nature, the GPU pushes extremely high frame rates, making the game exceedingly smooth at either resolution.
  • Rainbow Six Siege:
  • 1440p: 461 FPS
  • 2160p: 250 FPS
  • Similar to LoL, Rainbow Six Siege also achieves very high FPS, significantly beyond the needs for competitive play, ensuring quick rendering of moving images and rapid response times.

Implications for Gamers:

  • High Frame Rate Importance: For competitive eSports titles, maintaining a high frame rate is crucial as it impacts the responsiveness of gameplay and can provide a competitive edge. The RX 7900 GRE shows excellent capability in maintaining high FPS, especially at 1440p.
  • Resolution Choices: While 1440p offers exceptionally high frame rates well above 200 FPS across all titles, providing smooth and responsive gameplay, the performance at 2160p, although lower, still exceeds the 60 FPS standard required for smooth gameplay in most titles. Gamers equipped with 4K displays will enjoy greater detail without sacrificing too much in terms of fluidity.
  • Graphics Card Suitability: The AMD Radeon RX 7900 GRE is evidently a strong contender for serious gamers who are interested in both high-resolution visuals and competitive performance. It supports the latest graphical standards and is capable of delivering a premium gaming experience.


The AMD Radeon RX 7900 GRE Steel Legend is an optimal choice for gamers who are looking for a blend of high performance at both QHD and UHD resolutions. Its ability to handle demanding eSports titles at such high frame rates ensures that it can meet the needs of competitive gamers and enthusiasts alike, offering the flexibility to play at high settings without compromising on performance. This makes the GPU a solid investment for those looking to future-proof their gaming setup or for those who enjoy visually intensive and competitive gaming environments.

ASRock RX 7900 GRE Excels in AAA Gaming: Impressive Frame Rates at 1440p and 2160p Across Top Titles Without Ray Tracing or FSR

The gaming performance data for the ASRock RX 7900 GRE Steel Legend highlights its capabilities in handling a variety of AAA titles at high resolutions and maximum detail settings. The graphics card’s performance across 1440p and 2160p resolutions without ray tracing or FSR acceleration offers a clear insight into its raw rendering power in graphically intensive scenarios.

Analysis of Game-Specific Performance:

Games and Frame Rates at 2160p (Ultra High Settings, No Ray Tracing or FSR):

  • F1® 22: 87 FPS
  • Shadow of the Tomb Raider: 86 FPS
  • Horizon Zero Dawn: 65.3 FPS
  • Borderlands 3: 76.8 FPS
  • Assassin’s Creed Valhalla: 78 FPS
  • Red Dead Redemption 2: 73 FPS
  • God of War: 78 FPS

Games and Frame Rates at 1440p:

  • F1® 22: 151 FPS
  • Shadow of the Tomb Raider: 173 FPS
  • Horizon Zero Dawn: 143 FPS
  • Borderlands 3: 161 FPS
  • Assassin’s Creed Valhalla: 127 FPS
  • Red Dead Redemption 2: 117 FPS
  • God of War: 117 FPS

Key Insights:

  • Performance at 1440p: The GPU excels at this resolution, achieving frame rates well above the 100 FPS mark in most of the tested games. This level of performance ensures smooth gameplay with high detail, making it ideal for gamers seeking a premium experience at this resolution.
  • Performance at 2160p: At 4K, the frame rates are predictably lower due to the increased demand on the GPU. However, the RX 7900 GRE still maintains admirable performance, with most games hovering close to or above 70 FPS. Such performance is commendable for 4K gaming on a single GPU setup, providing a satisfactory experience without the need for resolution scaling or other performance-enhancing technologies.
  • High-Demand Games: Even in the most graphically intensive games like “Red Dead Redemption 2,” “God of War,” and “Assassin’s Creed Valhalla,” the card manages to deliver near or above 70 FPS at 2160p. This is particularly notable as these games are known for their high demand on system resources.

Recommendations for Gamers:

  • Resolution Choice: For gamers targeting the best balance between visual fidelity and performance, 1440p is the sweet spot with this GPU, as it offers high frame rates with excellent detail. However, for those prioritizing higher resolutions and owning 4K displays, the RX 7900 GRE still provides a robust performance.
  • Future-proofing: Given the strong performance at 2160p, the RX 7900 GRE is a solid choice for gamers planning to future-proof their systems. While not every game may run at the ideal 100+ FPS at 4K, the performance is adequate for a very smooth and visually stunning gaming experience.
  • Settings Adjustments: For the most demanding titles at 4K, slight adjustments in game settings may be required to achieve the smoothest gameplay. Disabling ultra-demanding options or slightly lowering shadow detail can often increase FPS without significantly impacting visual quality.

In conclusion, the ASRock RX 7900 GRE Steel Legend demonstrates its capability to handle modern AAA games at high settings across both 1440p and 2160p resolutions. It offers gamers a flexible and powerful option capable of delivering high-quality gaming experiences.

ASRock RX 7900 GRE Performance in Ray-Traced Gaming: Stellar Results with FSR Acceleration Across Leading DXR Titles

The data gives an in-depth look at the performance of the ASRock RX 7900 GRE Steel Legend with FidelityFX Super Resolution (FSR) enabled, across a variety of AAA games featuring ray tracing (DXR) at 1440p and 2160p resolutions. This is particularly useful for evaluating how effective AMD’s FSR technology is in enhancing frame rates in ray tracing scenarios, where performance traditionally takes a hit due to the demanding nature of ray-traced graphics.

Analysis of FSR Impact on Ray Tracing Games:

Game Performance at 2160p with FSR:

  • Avatar: The Game: 109 FPS
  • Far Cry 6: 104 FPS
  • The performance in “Avatar” and “Far Cry 6” with FSR enabled shows that the technology significantly boosts frame rates, achieving excellent results even at 4K resolution.

Average Performance across Eight Ray Tracing Titles:

  • 2160p: Average 66.2 FPS
  • 1440p: Average 98.1 FPS
  • The average FPS at 4K indicates that while FSR enhances performance, the demanding nature of DXR at such high resolutions still challenges current hardware, limiting average frame rates to slightly above 60 FPS. However, at 1440p, the average increases substantially, demonstrating more comfortable gameplay performance nearing the 100 FPS mark.

Specific Games and Settings Overview:

  • Diablo IV and Hogwarts Legacy are mentioned alongside other high-profile titles, reflecting a variety of different gaming engines and graphical demands.
  • Spider-Man: Miles Morales and Marvel’s Guardians of the Galaxy likely also benefit from FSR, helping maintain higher frame rates without sacrificing too much on visual quality.

Considerations for Gamers:

  1. FSR Utility: For gamers playing at 4K with ray tracing enabled, turning on FSR is almost essential to maintain higher frame rates. This is especially true in new and visually demanding titles where native rendering might push hardware limits.
  2. Balancing Resolution and Quality: Gamers may need to balance resolution and ray tracing effects depending on the title and desired visual fidelity. While 2160p offers stunning visuals, 1440p may be a more practical choice for consistent performance in games with extensive ray tracing.
  3. Future of RDNA Architecture: The current performance at 2160p suggests that while AMD’s RDNA 3 architecture handles ray tracing better than previous generations, there is still room for optimization or hardware advancements to further enhance DXR performance without external aids like FSR.
  4. Game Developers and FSR: As more developers integrate FSR 3 into their games, it’s likely that gamers will see even better performance improvements across a wider range of titles, making high-end gaming more accessible on existing hardware.


The RX 7900 GRE, especially with FSR technology, represents a powerful solution for gamers looking to enjoy the latest ray tracing games at high resolutions. The combination of AMD’s hardware and FSR technology facilitates a high-quality gaming experience, even under demanding graphical conditions. This makes the RX 7900 GRE a strong competitor in the high-end GPU market, suitable for gamers who prioritize both performance and visual fidelity.

ASRock RX 7900 GRE Steel Legend: Efficiency Meets Performance in Thermal and Power Consumption Tests

The thermal performance and power consumption of the ASRock RX 7900 GRE Steel Legend graphics card under different stress conditions, including gaming and synthetic benchmarks. Analyzing this data helps assess the card’s efficiency and cooling capabilities, which are crucial for maintaining performance and longevity.

Temperature and Power Consumption Analysis:

  • Cyberpunk 2077:
  • Temperature: 66.0°C
  • Power: 250.2W
  • Playing “Cyberpunk 2077,” a graphically demanding AAA title, pushes the card towards its TBP (Total Board Power) limit, showing that the game utilizes the GPU’s capabilities extensively, yet the temperature remains well within a safe operational range.
  • Furmark 4K:
  • Temperature: 67.0°C
  • Power: 238.0W
  • Furmark is known for its rigorous stress testing capabilities, particularly in terms of power consumption and heat generation. The results indicate good thermal management, as the card maintains a temperature of 67°C, which is excellent under such load.
  • Speed Way Stress Test:
  • Temperature: 67.0°C
  • Power: 250.5W
  • This synthetic benchmark, designed to mimic complex gaming scenarios, particularly those involving ray tracing, shows the GPU can handle extended periods of high demand without overheating, staying at a peak of 67°C.
  • Idle State:
  • Temperature: 43.0°C
  • Power: 19.6W
  • At idle, the RX 7900 GRE demonstrates excellent power efficiency, drawing minimal power which is significant for overall energy consumption, especially for users who leave their systems on for extended periods.

Implications for Users:

  1. Cooling Efficiency: The ASRock RX 7900 GRE Steel Legend maintains a maximum temperature of 67°C under load, which is an excellent result for modern high-performance GPUs. This suggests that the card’s cooling system is very effective, likely utilizing advanced cooling technologies or a robust heatsink and fan setup.
  2. Power Demand: With a power draw nearing 250W under intense loads, users need to ensure their system’s power supply unit (PSU) can handle this demand along with other components. A PSU of at least 800W is recommended for such setups, especially if running additional high-power components.
  3. Gaming and Workstation Use: The thermal and power data indicate that the RX 7900 GRE is capable of handling prolonged gaming sessions and demanding tasks without thermal throttling, which could reduce performance. This makes the card suitable for both hardcore gamers and professionals who use GPU-intensive applications.
  4. Longevity and Performance: Maintaining lower temperatures under load extends the life of the GPU and prevents performance dips due to overheating. Users can rely on this card for consistent performance over time.


Overall, the ASRock RX 7900 GRE Steel Legend exhibits robust performance in terms of managing heat and power consumption. Its ability to keep temperatures under control while handling power-intensive tasks and games ensures that it can offer sustained performance without compromising on longevity or requiring excessive maintenance. This makes it a solid choice for both gaming enthusiasts and professional users looking for a reliable, high-performance GPU.


The global launch of AMD’s ASRock RX 7900 GRE Steel Legend marks a notable addition to the high-end graphics card market. This card, featuring a striking all-white design complemented by three eye-catching RGB fans and a robust heatsink, targets gamers who demand high-performance visuals at 4K resolutions. Here’s a comprehensive summary of what this GPU brings to the table:

Key Features and Performance:

  • Aesthetics: The ASRock RX 7900 GRE Steel Legend stands out with its clean, white aesthetic and vibrant RGB lighting, appealing to gamers who value both performance and style in their setup.
  • 4K and AAA Gaming: At 2160p, the card delivers an average of 88.1 FPS across AAA titles, showcasing its capability to handle intensive gaming scenarios. Performance further improves at 1440p, achieving an impressive average of 154.4 FPS.
  • Ray Tracing: Despite its strengths, the RX 7900 GRE’s ray tracing performance under the RDNA 3 architecture doesn’t fully meet the demands of the most ray tracing-intensive titles yet. However, with FSR3 (FidelityFX Super Resolution) support, games like “Avatar: The Game” can reach up to 109 FPS at 2160p, indicating substantial potential for future optimization.

Additional Features:

  • AI QuickSet Tool: ASRock’s exclusive software tool is a significant boon for gamers and creative professionals alike. It simplifies the installation of complex AI models such as Shark, Stable Diffusion, and Whisper Desktop, enabling users to harness the GPU’s power for tasks like image and speech transcription generation without the cumbersome setup usually involved.

Gaming and AI Applications:

  • Gaming: The card is ideal for gamers who prefer titles that can utilize its strong performance at 1440p and 4K. While its ray tracing capabilities at 2160p might lag behind in some of the more demanding scenarios, the support for FSR3 significantly boosts its usability.
  • AI Enhancements: The addition of AI QuickSet tool enhances the GPU’s appeal by facilitating easy access to AI-driven applications, potentially enriching gaming experiences and offering practical tools for content creation.

Final Considerations:

  • Budget and Preferences: The choice of this GPU should align with the gamer’s budget and the type of games they prefer. While it offers high frame rates for traditional and AAA titles, those specifically looking for the best ray tracing performance might find it lacking unless FSR technology is employed effectively.
  • Future Proofing: For those considering future-proofing their setup, engaging with the AI capabilities provided by ASRock could offer unexpected benefits, not just in gaming but also in professional contexts.

Overall, the ASRock RX 7900 GRE Steel Legend represents a compelling option for users looking to combine top-tier gaming performance with cutting-edge AI features, all housed in a visually appealing package that could complement any high-end gaming setup.

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Title: ASRock Radeon RX 7900 GRE Steel Legend Review: Powerful 4K Gaming and AI Capabilities