NVIDIA RTX 4070 Ti SUPER Review: Elevate Your Gaming with 16GB GDDR6X Memory

The NVIDIA RTX 4070 Ti SUPER, a highly anticipated addition to the 70 series, is finally here. This powerful GPU is equipped with 16GB of 256-bit GDDR6X memory, making it more than capable for gaming at 4K resolution without worrying about VRAM shortages. The ROG model retains the same efficient cooling system as the RTX 4070 Ti, with a peak acceleration frequency of up to 2.7GHz, ensuring superb heat dissipation. Its cyberpunk-inspired RGB lighting is sure to make your PC stand out.

Key specifications of the ASUS ROG Strix GeForce RTX™ 4070 Ti SUPER 16GB GDDR6X OC Edition include:

• GPU: NVIDIA AD103-275-A1
• Interface: PCI Express 4.0 x 16
• CUDA Cores: 8448
• Tensor Cores: 264
• RT Cores: 66
• Boost Clock: 2700MHz (OC Mode)
• Memory: 16 GB GDDR6X
• Memory Speed: 21 Gbps
• Memory Interface: 256-bit
• Dimensions: 336 x 150 x 63 mm
• Slots: 3.15 Slot
• Power Connectors: 1x 12VHPWR 16-Pin
• Recommended Power Supply: 750W
• DirectX: 12 Ultimate
• OpenGL: 4.6
• Display Outputs: 2 x HDMI 2.1a, 3 x DisplayPort 1.4a
• Maximum Multi-Display Output: 4

This GPU is not only a powerhouse for gaming but also a visually striking component for any high-end gaming setup.

ROG Strix RTX 4070 Ti SUPER OC Review: Bridging Performance Gaps with 16GB GDDR6X Memory and Advanced Cooling

The RTX 4070 Ti SUPER, utilizing the same AD103 core and 16GB GDDR6X memory as the RTX 4080, offers performance that sits comfortably between the RTX 4070 Ti and the RTX 4080. As the only model in the 70 series with 16GB of memory, the RTX 4070 Ti SUPER is exceptionally equipped to handle 4K high-definition gaming, AI applications, and rendering tasks.

The ROG Strix RTX 4070 Ti SUPER OC features a cooler design inherited from the RTX 4070 Ti, not the larger one from the RTX 4080. Its dimensions are substantial, measuring 336 x 150 x 63 mm, requiring careful consideration of case compatibility due to its size.

The cooling system of the ROG Strix RTX 4070 Ti SUPER OC is crafted from aluminum alloy. Its front panel boasts a striking red-to-blue gradient and a mirrored ROG logo, creating an exaggerated style. The rear is adorned with a full circle of RGB lighting, adding a cyberpunk flair. The backplate, also made of aluminum alloy, features a plethora of diagonal lines typical of ROG design, complemented by another mirrored ROG logo. This design ensures a visually impactful presence in any gaming setup.

An image of the ROG RTX 4070 Ti SUPER’s packaging. It features the graphics card prominently on the front, along with branding and key features such as “OC 16GB GDDR6X Memory,” “AURA SYNC,” and mentions of DLSS 3, Ray Tracing, Reflex, and Studio, which are all significant selling points for potential buyers.

The packaging design is sleek and aligns with the high-performance and high-quality image that the ROG (Republic of Gamers) brand represents. The combination of the vibrant color gradient and the RGB lighting element showcased on the box highlights the visual appeal that gamers and PC enthusiasts often appreciate.

The box also indicates the graphics card’s support for cutting-edge gaming features, including DLSS (Deep Learning Super Sampling), which uses AI to enhance gaming visuals, Ray Tracing for realistic lighting, shadows, and reflections, Reflex to optimize system latency, and NVIDIA Studio for creators who demand performance in content creation applications.

The back of the ROG RTX 4070 Ti SUPER graphics card’s packaging, includes detailed information about its specifications, design features, cooling system, power delivery, and software support.

This part of the packaging is crucial because it gives potential buyers a comprehensive overview of the product. It covers the robust cooling system enhanced with AURA SYNC for customizable RGB lighting, the high-quality power delivery components that ensure stable performance, and the included software that enhances the user experience.

It includes QR codes, likely for registering the product or downloading software, and certification marks that assure the consumer of the product’s compliance with various standards.

The inner packaging of the ROG RTX 4070 Ti SUPER, features a sleek and minimalist design. The ROG STRIX branding is prominently displayed in a subtle yet stylish green font against the matte black background of the box, indicating a premium product inside.

This level of detail in the packaging reflects the quality and attention to detail that customers can expect from the ROG (Republic of Gamers) line. ASUS places a high value on the unboxing experience, ensuring that every aspect of the product, down to the inner packaging, aligns with the luxury and performance that the STRIX line represents.

The understated elegance of the box suggests that the contents are geared toward gamers and enthusiasts who appreciate a refined aesthetic in addition to powerful hardware performance.

The accessories that come with the ROG RTX 4070 Ti SUPER graphics card. Included in the package are:

1. Three PCIe 8-pin to 12VHPWR adapters, which ensure compatibility with power supplies that may not have the newer 12VHPWR connector. This is particularly useful for users who are upgrading their graphics card and do not wish to change their existing power supply unit.
2. A graphics card support bracket, which helps to prevent GPU sag by providing additional support to the weighty graphics card once installed. This is an important addition, as the weight of high-performance graphics cards can sometimes stress the motherboard.
3. ROG-branded items that cater to the ‘faithful’ or enthusiasts who appreciate the aesthetic and branding of the Republic of Gamers product line. These items often appeal to the community of users who take pride in building their gaming rigs with a consistent theme.

The rest of the contents show the Quick Start Guide, a warranty card, and an instruction booklet for the graphics card holder, indicating ASUS’s commitment to providing a clear and helpful guide for users to set up their new hardware efficiently. The “THANK YOU” message emphasizes customer appreciation, enhancing the premium unboxing experience.

These thoughtful inclusions are a testament to ASUS’s understanding of their market and their effort to provide a comprehensive package that enhances the user’s experience from the very beginning.

The ROG RTX 4070 Ti SUPER graphics card, showcases its robust design and aesthetic appeal. The card is equipped with three large fans for optimal cooling, which is critical for maintaining performance during intensive gaming or heavy workloads. The fans are part of ASUS’s cooling technology that ensures the card runs quietly and efficiently.

The design incorporates a bold color scheme with red, black, and blue accents that highlight the card’s sleek lines and gaming-oriented look. These colors are synonymous with the ROG brand, which is known for high-performance gaming hardware. The ROG logo is also visible on the central fan, emphasizing the brand’s mark of quality.

The card’s exterior features textured and patterned details that give it a futuristic and aggressive appearance, resonating with the aesthetic that gamers often favor. This look is not just about style but also about function, as the casing and layout are designed to facilitate better airflow and heat dissipation.

The overall design of the ROG RTX 4070 Ti SUPER suggests a top-tier product meant for serious gamers and professionals who need a powerful GPU to match their high-resolution gaming and demanding creative work.

The ROG RTX 4070 Ti SUPER graphics card, focusing on its advanced cooling system. The card is engineered with three 100mm axial-tech fans, which is a significant upgrade from the previous generation RTX 30 series, providing up to a 31% increase in airflow. This enhanced design contributes to more efficient cooling, which is crucial for maintaining performance during intensive computing tasks.

The arrangement of the fans in an alternating spin configuration — standard, reverse, standard — is a strategic choice to minimize turbulent airflow and improve heat dissipation. This setup helps to channel air more smoothly through the cooling fins.

Moreover, the card features a smart thermal control system. The fans remain idle when the GPU core temperature is below 55 degrees Celsius, ensuring silent operation under light workloads. This zero dB technology is particularly appreciated by users who value a quiet computing environment.

The incorporation of such innovative cooling technology showcases ASUS’s commitment to combining performance with user comfort, ensuring that even under heavy loads, the card operates efficiently and quietly, maintaining optimal temperatures for the GPU.

A side view of the ROG RTX 4070 Ti SUPER graphics card, highlighting the branding elements that are a key aspect of the design. The side that faces outward when installed in a typical PC case prominently features the “GEFORCE RTX” logo, a hallmark of NVIDIA’s RTX series, indicating its affiliation with the powerful ray-tracing capable line of GPUs.

On the opposite end, the “REPUBLIC OF GAMERS” logo, which is likely backlit by RGB lighting, serves not only as a branding statement but also adds to the aesthetic appeal of the card within a gaming setup. This illuminated branding is a popular trend among gaming components, catering to users who like to customize their rigs with visually striking elements and showcase their commitment to the gaming community.

The lighting feature also works in tandem with the card’s overall design philosophy, which fuses performance with style, allowing gamers to build PCs that look as good as they perform. The side view also provides a glimpse into the card’s intricate heat sink and piping, hinting at the sophisticated cooling technology that keeps the card operating at optimal temperatures.

The backplate of the ROG RTX 4070 Ti SUPER graphics card, which is crafted from aluminum alloy. This backplate not only adds to the structural rigidity of the card, preventing PCB flex and protecting the components, but it also contributes to the card’s overall thermal performance.

The backplate is designed with an aesthetic appeal, featuring the large, bold “ROG” branding that stands out as a distinctive mark of the Republic of Gamers line. This branding is complemented by additional engravings, such as “ROG 10” and “GEFORCE RTX”, which enhance the premium feel of the product.

The visible screws and cut-out around the GPU’s die area indicate a focus on thermal management, as such design elements help with heat dissipation. Moreover, the patterned vents and lines across the backplate are not only for visual effect but also serve a practical purpose, allowing for better air circulation and heat dissipation.

This attention to both functionality and design detail underscores ASUS’s commitment to delivering high-quality, performance-oriented products that appeal to gamers and PC enthusiasts who value both the aesthetics and the engineering of their components.

The tail-end of the ROG RTX 4070 Ti SUPER graphics card, features a vented section as part of the card’s cooling solution. The venting is strategically designed to enhance airflow, allowing for the expulsion of hot air from the card, which improves overall thermal performance. This design is crucial for maintaining lower temperatures during heavy loads, such as during intense gaming sessions or demanding graphic-intensive tasks.

The combination of the vented design with the solid aluminum backplate not only contributes to the cooling efficiency but also adds to the card’s durability. It ensures that the heat generated by the GPU is efficiently dissipated, thereby protecting the card and extending its lifespan.

This image once again highlights ASUS’s attention to detail in crafting a product that marries form and function, ensuring that users get a high-performance graphics card that is also built to last. The venting detail is another element that underscores the card’s premium build quality and ASUS’s commitment to innovation in its ROG product line.

The power connector of the ROG RTX 4070 Ti SUPER, specifically highlighting the 12VHPWR (PCIe 16-pin) power connector. This is a modern power delivery interface that is designed to meet the higher power demands of new-generation graphics cards while reducing cable clutter.

This type of connector is part of the newer PCIe 5.0 standard and is capable of delivering more power over a single cable compared to the older 8-pin connectors. The use of a single 12VHPWR connector simplifies cable management and can deliver the necessary power for the card to perform optimally.

ASUS recommends a power supply unit (PSU) of at least 750 watts to ensure that there is enough headroom for the graphics card to operate under load, as well as to support the rest of the system components without any power delivery issues.

The implementation of this new power connector reflects the advancement in GPU technology, catering to the increasing power requirements of high-performance graphics cards like the RTX 4070 Ti SUPER while also preparing for future power delivery standards.

A dual BIOS switch on the ROG RTX 4070 Ti SUPER graphics card. This feature provides users with the flexibility to switch between two distinct firmware settings: one optimized for quiet operation and the other for performance.

The quiet mode is designed to reduce fan speeds, resulting in a quieter system, which can be preferable for day-to-day use or when noise levels are a concern. The performance mode, while still not affecting the actual performance or clock speeds of the GPU, allows the fans to spin at higher RPMs to provide better cooling during intense gaming sessions or demanding tasks.

This dual BIOS functionality is a valuable feature for users who want control over their system’s acoustics without compromising on performance. It also serves as a fail-safe; if one BIOS is updated incorrectly or becomes corrupted, the user can switch to the secondary BIOS to recover the card’s functionality.

The end of the ROG RTX 4070 Ti SUPER graphics card, highlighting the inclusion of two 4-pin PWM fan headers. These headers allow for additional fans to be connected directly to the graphics card and controlled via PWM (Pulse Width Modulation), offering users more customization over their cooling solutions.

This feature is particularly useful for enthusiasts who want to synchronize their case fans with their GPU’s temperature, ensuring that additional cooling is provided precisely when needed. It also helps to maintain a cleaner and more organized build by reducing the need for separate fan controllers.

Maintaining the ROG tradition, these fan headers exemplify ASUS’s commitment to providing users with high levels of customization and control over their gaming hardware, allowing for a tailored cooling setup that can enhance overall system stability and performance.

A close-up view of the two 4-pin PWM fan connectors located on the ROG RTX 4070 Ti SUPER graphics card. These connectors allow for additional PWM-controlled fans to be directly connected to the graphics card. This level of integration is advantageous for users looking to fine-tune their thermal management system, as it enables the GPU to directly control these auxiliary fans based on its own thermal readings and requirements.

PWM (Pulse Width Modulation) is a highly efficient method for managing fan speeds. It enables precise control over the rotation speed of the fans without generating unnecessary noise or consuming excess power. By connecting additional fans to these PWM headers, users can synchronize the airflow in their system with the thermal activity of the GPU, leading to a more responsive cooling strategy, especially under load conditions.

The inclusion of such features emphasizes the ROG series’ focus on providing users with the tools needed to optimize their gaming rigs for peak performance and durability.

The I/O (input/output) bracket of the ROG RTX 4070 Ti SUPER graphics card, which features an array of modern display connectors. There are three DisplayPort 1.4a outputs and two HDMI 2.1a ports, indicating that this graphics card is well-equipped to handle multiple displays and is compatible with the latest high-resolution, high-refresh-rate monitors.

DisplayPort 1.4a supports resolutions up to 8K at 60Hz or 4K at 120Hz with HDR, which makes it suitable for high-end gaming monitors and professional displays that require detailed image quality and fluid frame rates. HDMI 2.1a is also capable of transmitting 8K at 60Hz or 4K at 120Hz and includes features such as Variable Refresh Rate (VRR), which is great for gaming as it reduces screen tearing.

This selection of ports ensures that users have the flexibility to connect to a wide range of displays, whether they’re aiming for a multi-monitor setup or want to ensure future-proof connectivity for upcoming display technologies. The bracket itself appears to be made of stainless steel 304, which is a corrosion-resistant material, adding to the durability and premium build quality of the card.

A completed computer build with the ROG RTX 4070 Ti SUPER graphics card installed on the motherboard. The card is mounted within a PC case, showcasing its sizable form factor and how it fits within the overall setup.

The card’s branding, “GEFORCE RTX” and “REPUBLIC OF GAMERS,” is prominently displayed, indicating the high-end nature of the build. This is further emphasized by the RGB lighting on the motherboard, which is a common feature appreciated by gamers and enthusiasts for personalizing the look of their rigs.

The cable management appears to be neatly done, with power cables securely routed to the graphics card, minimizing clutter and ensuring optimal airflow within the case. This neatness is essential for both aesthetics and function, as good cable management can improve air circulation, resulting in better cooling performance for all components.

The photograph provides a clear view of how the graphics card integrates with the other components and the visual impact it has on the overall appearance of the build. It illustrates the card’s substantial size and the importance of ensuring sufficient space within the case for such a high-performance component.

The RGB lighting effect on the ROG RTX 4070 Ti SUPER graphics card, which is installed in a computer system. The illuminated “REPUBLIC OF GAMERS” logo is prominently displayed along the side of the card, showcasing the brand’s signature aesthetic, which is favored by many gaming enthusiasts.

The RGB lighting adds a dynamic visual element to the card and can typically be customized through software to match the user’s preference or to sync with other RGB components within the PC for a cohesive look. This feature is a hallmark of gaming hardware, appealing to users who take pride in the appearance of their gaming setup and enjoy personalizing their components.

The lighting also accentuates the card’s design and can contribute to the overall ambiance of the gaming environment, creating an immersive experience for the user. Such attention to design details underscores the gaming community’s appreciation for both performance and style in their hardware choices.

Inside the ROG RTX 4070 Ti SUPER: A Deep Dive into AD103-A1 Core, Advanced Cooling, and Power Efficiency

The ROG RTX 4070 Ti SUPER is built around the powerful AD103-A1 GPU core and is equipped with 8 Micron GDDR6X 2GB memory chips, operating over a 256-bit wide memory bus. This configuration offers high bandwidth and memory capacity to handle the demands of modern gaming and applications.

Upon disassembly, it is revealed that the card uses a robust 16+3 phase power delivery system, utilizing NCP303151 50A power stages and an MP2888 PWM controller. Such a power design ensures stable and efficient power delivery under load, which is crucial for maintaining performance and longevity, especially when overclocking.

The cooling solution of the ROG RTX 4070 Ti SUPER is designed with effectiveness in mind. It includes three full-length heat pipes that traverse the length of two sets of fins, effectively dispersing heat away from the GPU. There are three shorter heat pipes to bolster the cooling capacity. The contact surface for the GPU has been mirror-polished to ensure optimal thermal transfer between the chip and the heatsink, further enhancing the cooling performance.

These design choices reflect ASUS’s commitment to quality and performance, ensuring that the ROG RTX 4070 Ti SUPER not only runs at optimal temperatures but also delivers the expected high performance that gamers and professionals require.

The disassembled cooling system of the ROG RTX 4070 Ti SUPER graphics card. The heatsink is exposed, revealing its construction and the heat pipe configuration designed to manage the thermal output of the GPU.

The heatsink features a large, central aluminum block with multiple fins that increase the surface area for heat dissipation. The heat pipes are visible and appear to be strategically placed to spread heat away from the GPU to the fins effectively. These heat pipes are crucial for transferring heat from the GPU die to the heatsink fins, where it can be dissipated by the airflow generated by the fans.

In the image, the backplate of the graphics card has been removed, displaying the precision-engineered components that contribute to the card’s cooling efficiency. The backplate itself likely plays a role in passive cooling, helping to spread heat and add rigidity to the card’s structure.

This detailed view of the card’s internal cooling mechanism highlights the sophisticated engineering that goes into maintaining optimal temperatures and stable performance, especially under high loads during intense gaming or computational tasks. It underscores the importance of a high-quality cooling solution in modern high-performance graphics cards.

The bare printed circuit board (PCB) of the ROG RTX 4070 Ti SUPER graphics card without its cooling assembly attached. The PCB is notably wide, which is typical for high-end graphics cards that incorporate a large number of power phases and other components to enhance performance and stability.

Visible on the PCB are the GPU core, the array of GDDR6X memory chips, and a sophisticated power delivery network. The power stages and capacitors are organized to support the GPU’s electrical requirements efficiently. The wide design allows for the distribution of heat and power loads across a larger area, which can improve the thermal management and longevity of the card.

This expansive PCB design also enables ASUS to include additional features such as extra power phases, which can provide cleaner power to the GPU, potentially allowing for better overclocking performance and more stable operation under load. It’s a testament to the engineering that goes into creating a product that balances the demands of high-performance gaming and professional applications.

The backside of the ROG RTX 4070 Ti SUPER graphics card’s PCB. This side of the PCB is typically less populated than the front but still contains important circuitry and components critical for the operation of the card.

You can see various solder points, traces, and surface-mounted components that make up the intricate electronic pathways necessary for the graphics card’s functionality. The copper-colored circles are the solder points for screws or standoffs, which are part of the physical mounting structure for the components on the other side of the PCB, such as the GPU, memory modules, and power delivery system.

The labeling on the PCB, such as ’12V_BUS’, ‘PEX_VDD’, ‘GPU GND’, and ’12V_EXT’, indicates different voltage lines or grounding points, showing the complexity of the power distribution network within the card. Such meticulous design ensures that each component receives the appropriate power level required for optimal performance.

The presence of regulatory markings, such as the CE (Conformité Européenne), FCC (Federal Communications Commission), and RoHS (Restriction of Hazardous Substances), indicates that the product complies with international standards and regulations for electronic devices.

The back of the PCB is also a crucial part of the thermal design, as heat can be distributed and dissipated across its surface, contributing to the overall thermal management of the device. This view of the PCB gives an insight into the technical design and layout that supports the card’s advanced capabilities.

A close-up view of the AD103-A1 GPU core on the PCB of the ROG RTX 4070 Ti SUPER graphics card. This core is part of NVIDIA’s RTX 40 series lineup and is responsible for the graphics card’s processing power.

Around the GPU core, you can see various other components, including power delivery modules and capacitors, which are part of the card’s power regulation system to ensure the GPU operates efficiently and reliably. The surrounding area is populated with small surface-mounted devices that contribute to the card’s overall functionality, from power management to signal processing.

The clear labeling of the GPU core with the NVIDIA logo and model number reflects the authenticity and specification of the chip. This GPU is designed to handle tasks like real-time ray tracing and AI-driven computations, which are part of NVIDIA’s suite of advanced graphics technologies.

The image provides a detailed view of the high-quality components and the sophisticated circuit design that make up the graphics card, emphasizing the level of engineering involved in producing a high-performance component like the ROG RTX 4070 Ti SUPER.

A detailed look at the Micron GDDR6X memory modules on the PCB of the ROG RTX 4070 Ti SUPER graphics card. These memory chips are part of the high-bandwidth memory system that works in conjunction with the NVIDIA AD103-A1 GPU core to deliver fast and efficient performance for graphics-intensive tasks.

GDDR6X is an advanced type of graphics memory that offers higher speeds and improved power efficiency compared to its predecessors. It’s particularly well-suited for high-resolution gaming, complex 3D rendering, and other memory-intensive applications.

The arrangement of the memory chips around the GPU suggests a balanced architecture for optimal access to the GPU’s memory controller, ensuring that the graphics card can fully utilize the memory’s bandwidth capabilities.

Such a setup underscores the card’s capability to handle the demands of the latest games and applications, which require a lot of fast-access memory to store textures, frame buffers, and other graphical data. The use of Micron’s GDDR6X memory is indicative of a focus on quality and performance in the design of the ROG RTX 4070 Ti SUPER.

The MPS MP2888 digital multi-phase PWM controller on the ROG RTX 4070 Ti SUPER graphics card. This component is integral to managing the power supply to the GPU core, ensuring precise voltage regulation and delivery for optimal performance and stability.

PWM (Pulse Width Modulation) controllers are essential in modern GPUs as they allow for fine-tuned control of the power phases that supply the GPU, enhancing efficiency, reducing heat, and potentially increasing the lifespan of the card. The MP2888, in particular, is designed for high-performance computing and gaming applications, where stable and reliable power delivery is critical, especially under varying load conditions.

The area around the PWM controller shows a clean and organized layout, indicative of a well-engineered PCB design. This meticulous arrangement ensures minimal electrical noise and interference, which is vital for the high-speed operation of the graphics card.

The inclusion of a sophisticated PWM controller like the MPS MP2888 is a testament to the quality and high-end specifications of the ROG RTX 4070 Ti SUPER, aimed at users who demand top-tier performance from their gaming and professional graphics hardware.

The NCP303151 MOSFETs on the PCB of the ROG RTX 4070 Ti SUPER graphics card. These MOSFETs (Metal-Oxide-Semiconductor Field-Effect Transistors) are a type of power transistor that efficiently switches and amplifies electronic signals on the card.

The NCP303151 is specifically designed for high-efficiency power conversion applications, which is essential in the context of a high-performance graphics card like the ROG RTX 4070 Ti SUPER. These components are critical for delivering the required power to the GPU while minimizing heat generation, which is a byproduct of electrical resistance and inefficiency.

With these MOSFETs, the graphics card is equipped to manage power delivery for high-load performance tasks such as gaming, rendering, and computational workloads. The arrangement of these MOSFETs around the GPU core indicates a multi-phase power delivery system, which is designed to provide stable and clean power to the GPU, thus enabling better performance and overclocking potential.

The quality and arrangement of these power components on the PCB reflect ASUS’s commitment to building durable and reliable hardware capable of sustaining the demands of cutting-edge gaming and professional applications.

A detailed view of the UPI uP9512Q PWM controller on the PCB of the ROG RTX 4070 Ti SUPER graphics card. This PWM controller is responsible for managing the power delivery specifically for the GDDR6X memory modules.

PWM controllers like the uP9512Q are crucial for high-performance graphics cards because they regulate the power to the memory chips, ensuring stability and efficiency. Precise power management is particularly important for GDDR6X memory because it operates at high speeds and voltages, which can lead to increased power consumption and heat generation.

The use of a dedicated PWM controller for the memory indicates a focus on delivering clean and stable power to the memory modules, which is vital for maintaining the memory’s performance, longevity, and reliability, especially under heavy loads or overclocking scenarios.

The inclusion of such a specialized component highlights the meticulous engineering that goes into creating a high-end graphics card, ensuring that all parts, from the GPU to the memory, receive the proper power management for optimal operation.

The AURA RGB lighting chip on the PCB of the ROG RTX 4070 Ti SUPER graphics card. AURA is ASUS’s proprietary RGB lighting control system that allows users to customize and control the lighting effects on their hardware.

This chip manages the RGB lighting functions for the graphics card, providing users with the ability to personalize their gaming setup’s aesthetics with a range of colors and effects. RGB lighting on components like graphics cards has become a popular feature for gamers and PC enthusiasts who enjoy customizing the look of their builds.

The presence of an AURA lighting chip indicates that this graphics card supports synchronization with other AURA-enabled devices, allowing for a cohesive lighting scheme across a user’s entire gaming setup. This feature enhances the visual appeal of the system and can create an immersive environment when gaming or working.

By incorporating dedicated hardware for lighting control, ASUS ensures smooth and complex lighting effects that can be adjusted through their software, offering an additional layer of customization for the user. This adds to the overall premium experience that the ROG series is known for.

Comprehensive Performance Review: ROG Strix RTX 4070 Ti SUPER OC on Intel i9-14900K with Indigo, Blender, and Geekbench Benchmarks

The provided text outlines a high-end test platform configuration for evaluating the performance of the ROG Strix RTX 4070 Ti SUPER OC graphics card. The setup includes:

• CPU: Intel Core i9-14900K, a high-performance processor from Intel’s lineup, suitable for demanding tasks and gaming.
• Motherboard: ASUS ROG Strix Z790-A GAMING WIFI II, which is a premium motherboard with advanced features and Wi-Fi capabilities.
• Memory: CORSAIR DOMINATOR TITANIUM DDR5-7200 24GBx2, offering a high-speed and large-capacity memory setup.
• Graphics Card: ROG Strix RTX 4070 Ti SUPER OC, a top-tier graphics card with overclocked performance.
• Storage: CORSAIR MP600 PRO LPX 1TB for the primary drive and CORSAIR MP400 4TB as a secondary drive dedicated to games.
• Cooler: ASUS ProArt LC420, likely an AIO (All-In-One) liquid cooling system for maintaining optimal temperatures.
• Power Supply: Seasonic Focus 1000W, which provides plenty of power for the system, even under load.
• Operating System: Windows 11 Pro 23H2, which is the latest iteration of Windows at the time of the provided details.
• Driver Version: Game Ready 551.15, specifying the version of the graphics card driver used during the test.

The GPU information, as checked through GPU-Z, shows that the ROG RTX 4070 Ti SUPER features an AD103 core, with 16GB of 256-bit GDDR6X memory. It operates at a base frequency of 2340 MHz and has a boost frequency of 2670MHz. The card utilizes a PCIe 4.0 x 16 interface and has a Total Graphics Power (TGP) of 285W.

This setup is quite powerful and is indicative of a system built to handle the latest games and most strenuous computing tasks with ease, while also providing headroom for future upgrades and software updates.

A screenshot from the GPU-Z utility, displaying detailed information about the NVIDIA GeForce RTX 4070 Ti SUPER graphics card.

The key details shown in the GPU-Z readout include:

• GPU Name: NVIDIA GeForce RTX 4070 Ti SUPER
• GPU Core: AD103
• Revision: A1
• Technology: 5 nm process for enhanced performance and efficiency
• Die Size: 379 mm²
• Release Date: January 8, 2024
• BIOS Version: 95.03.45.00.05 with UEFI support
• Device ID: 10DE 2705 – 1043 896B
• Subvendor: ASUS, indicating that this particular card is manufactured by ASUS
• Bus Interface: PCIe x16 4.0 @ x16 2.0, confirming the card’s compatibility with the PCIe 4.0 interface
• ROPs/TMUs: 96/264
• Shaders: 8448 Unified, which is indicative of the processing cores available for rendering and computation
• DirectX Support: 12 (12_2)
• Memory Type: GDDR6X (Micron), high-speed memory standard for modern GPUs
• Memory Size: 16,384 MB, which is ample for high-resolution textures and large datasets required in modern applications
• Memory Bus Width: 256-bit
• Bandwidth: 672.3 GB/s, a high bandwidth rate for transferring large amounts of data quickly
• Driver Version: 31.0.15.1151 (ForceWare 511.15) / Win11 64
• GPU Clock: 2340 MHz default clock, 2670 MHz boost clock
• Power Limit: The minimum is 100.0 W, with a default of 285.0 W and a maximum of 366.0 W, providing information on the power range the GPU can operate within
• Memory Support: Entries for GDDR6X Micron memory, confirming the manufacturer of the memory chips
• Technologies: Support for CUDA, DirectXCompute, OpenCL, Vulkan, Ray Tracing, and OpenGL 4.6

This comprehensive information is useful for understanding the capabilities and specifications of the graphics card, including its performance metrics, power requirements, and supported technologies. Such details can be crucial for gamers, professionals, and enthusiasts for optimizing their systems or troubleshooting hardware issues.

A screenshot from the Indigo Bench benchmarking software, which is based on the Indigo 4 rendering engine. This software utilizes OpenCL architecture to support a wide range of graphics cards, including those from AMD, NVIDIA, and Intel.

The benchmark includes two test scenes — “Bedroom” and “Supercar” — which are used to measure the rendering performance of the graphics card. The score is given in millions of samples per second (Msamples/s), where a higher score indicates better performance.

According to the results shown in the screenshot, the ROG RTX 4070 Ti SUPER has achieved a score of 24.372 Msamples/s in the “Bedroom” sample and 60.349 Msamples/s in the “Supercar” sample. These scores suggest that the graphics card performs exceptionally well in rendering tasks, making it suitable for applications that require high computational power like 3D rendering, complex simulations, and detailed visualizations.

The scores also provide a comparative measure of performance that can be used to evaluate the card against other GPUs on the market in similar rendering tasks. This information can be particularly useful for professionals in fields like 3D animation and graphics design, who require powerful hardware to reduce render times and increase productivity.

The Blender Benchmark Launcher, which is a free benchmarking software released by the developers of Blender, a popular open-source 3D graphics software. This benchmark tool is designed to assess the performance of the hardware when running Blender, providing scores for different rendering projects that test the capabilities of the CPU or GPU.

According to the results shown, the TUF Gaming RTX 4070 SUPER has been tested on three different Blender projects:

• Monster: 3803 samples per minute
• Junkshop: 1815 samples per minute
• Classroom: 1898 samples per minute

These scores indicate the number of samples the GPU can process per minute, with a higher score representing faster rendering capabilities. The results suggest that the TUF Gaming RTX 4070 SUPER performs very well in rendering tasks, showcasing its potential for 3D artists and creators who use Blender for their work.

The system information included indicates that the benchmark was run on a Windows (AMD64) system with an Intel Core i9-14900K CPU and an NVIDIA GeForce RTX 4070 Ti SUPER GPU. This setup represents a powerful platform for 3D rendering and other intensive graphics tasks. The ability to choose between CPU and GPU tests allows users to evaluate the performance of their system’s processor and graphics card independently, providing valuable insights for both hardware enthusiasts and professionals who rely on Blender for 3D modeling, animation, and rendering.

A Geekbench 6 benchmark result for an ASUS system, specifically highlighting the OpenCL performance score. The Geekbench software is known for its comprehensive performance testing across various professional scenarios, such as image processing, rendering, and machine learning.

From the details provided, it seems that the ROG RTX 4070 Ti SUPER has achieved an OpenCL score of 234,734. This is a substantial score, indicating strong performance in compute-intensive tasks that can leverage the parallel processing capabilities of the GPU.

The Geekbench test includes a wide array of subtests, such as deep learning workloads, background blurring, face detection, image editing, horizon detection, edge detection, Gaussian blur, image compositing, feature matching, and particle physics, among others. These tests are designed to simulate real-world professional workloads and provide a comprehensive overview of how well a GPU performs across a variety of tasks.

The Vulkan API score of 161,375 of the card’s performance. Vulkan is a modern graphics and compute API that provides high-efficiency, cross-platform access to modern GPUs used in a wide variety of devices from PCs and consoles to mobile phones and embedded platforms.

The high scores in both OpenCL and Vulkan benchmarks suggest that the ROG RTX 4070 Ti SUPER is well-equipped to handle demanding graphics and computational tasks, making it suitable for gamers, professionals in visual effects, and developers working on AI and machine learning applications. These results would be considered excellent for a high-end GPU and confirm the card’s capabilities in a professional context.

A screenshot of a Geekbench 6 benchmark result showing the Vulkan performance score for an ASUS system. Vulkan is a modern compute and graphics API that provides high-efficiency, cross-platform access to modern GPUs.

The score is 161,375, which is a solid result, indicating the system’s robust performance capabilities when handling tasks that use the Vulkan API. This includes gaming, graphical applications, and compute workloads that can leverage the parallel processing strengths of the GPU.

The system information on the Geekbench result shows that it is running on Microsoft Windows 11 (64-bit) with an ASUS motherboard, specifically the ROG STRIX Z790-A GAMING WIFI II, which is part of ASUS’s line of gaming-optimized motherboards known for their stability and high performance.

Vulkan scores are particularly relevant for users interested in gaming and developing applications that require real-time graphics and computations, as Vulkan is designed to provide better performance and more balanced CPU/GPU usage. This high Vulkan score on the ROG RTX 4070 Ti SUPER suggests that it is well-suited for these types of demanding tasks.

ROG Strix RTX 4070 Ti SUPER OC Dominates in 3DMark: A Comprehensive Benchmark Analysis Across DirectX 11, DirectX 12, and Ray Tracing Tests

The screenshots from the 3DMark benchmarking software, showing the performance scores of the ROG RTX 4070 Ti SUPER graphics card in various Fire Strike tests, which are designed to assess a system’s gaming performance. 3DMark is a widely recognized tool in the industry, often used to benchmark gaming PCs and compare their performance.

The Fire Strike benchmark utilizes the DirectX 11 API and includes three different tests designed to measure the performance of the CPU, GPU, and both combined (called the Combined Score). It tests systems at different resolutions to give users an idea of how their setup will handle games at various levels of graphical detail.

From the data provided, here are the scores for the ROG RTX 4070 Ti SUPER:

• Fire Strike (1080p): A Graphics Score of 57,722 points.
• Fire Strike Extreme (1440p, also referred to as 2K): A Graphics Score of 29,863 points.
• Fire Strike Ultra (4K): A Graphics Score of 14,723 points.

In each of these benchmarks, the Graphics Score reflects how well the GPU handles rendering for gaming at the respective resolutions. The scores indicate that the ROG RTX 4070 Ti SUPER is highly capable at 1080p and 1440p, delivering high frame rates that would result in smooth gameplay on most current titles. At 4K resolution, the score shows that it still performs well, but gaming at this resolution is more demanding, hence the lower score compared to 1080p and 1440p.

The high scores across these benchmarks suggest that the ROG RTX 4070 Ti SUPER is a strong performer for gaming and other graphically intensive tasks, providing excellent performance at various resolutions and API levels. It’s also worth noting that these scores can vary based on system configurations, background processes, and even driver versions. However, they offer a solid baseline for comparing this GPU’s performance with others in various gaming scenarios.

Shared are from the 3DMark Time Spy and Time Spy Extreme benchmarks. These are tests that measure the performance of graphics cards using the DirectX 12 API, which is known for its efficiency and ability to handle complex rendering tasks.

Here are the scores for the ROG RTX 4070 Ti SUPER:

• Time Spy (2K resolution): The graphics score is 25,027. This is a strong score that indicates the card will perform very well in modern games at 1440p resolution, which is considered a sweet spot for high-quality gaming.
• Time Spy Extreme (4K resolution): The graphics score is 12,275. This score represents the performance at a much more demanding 4K resolution, which requires the GPU to handle four times the number of pixels compared to 1080p.

These results suggest that the ROG RTX 4070 Ti SUPER is a high-performance GPU capable of running the latest games with high frame rates, especially at 1440p resolution. The scores in Time Spy Extreme also suggest that it can handle 4K gaming, although frame rates may not be as high as at lower resolutions.

The estimated game performance section indicates that for a game like “Battlefield V,” the graphics card can deliver 200+ FPS at 1440p Ultra settings. This is impressive and demonstrates the card’s ability to handle intensive gaming scenarios with ease.

The monitoring section in the screenshots provides additional information about frame rate, CPU and GPU temperatures, and clock frequencies during the benchmark, offering insights into the system’s stability and thermal performance under load. Overall, these benchmark scores provide a good indication of the card’s capabilities in real-world gaming and are useful for comparing with other GPUs in the market.

The result of the 3DMark Port Royal benchmark, which is designed to test the ray-tracing performance of graphics cards using the DirectX 12 DXR API. The benchmark renders demanding game-like scenes in real-time with ray tracing enabled, pushing the GPU’s capabilities to produce realistic lighting, reflections, and shadows.

The ROG RTX 4070 Ti SUPER has achieved a score of 16,058 in the Port Royal benchmark. This is a very respectable score and indicates that this GPU is well-equipped to handle the demanding requirements of real-time ray tracing at a 2K resolution. Ray tracing is a technology that significantly enhances the visual fidelity of games, but it is also computationally intensive, which is why a strong performance in the Port Royal benchmark is a good indicator of a GPU’s future-proofing for upcoming games that will use these advanced rendering techniques.

The estimated game performance section shows that with this GPU, you can expect to achieve 200+ FPS in “Battlefield V” at 1440p Ultra settings. This suggests that for typical gaming workloads without ray tracing, the card will deliver very high frame rates.

The monitoring section of the image provides real-time information about the frame rate, CPU and GPU temperatures, and clock frequencies during the test. The stability of these readings is important, as it indicates the GPU’s ability to sustain performance over time without thermal throttling or other issues.

In summary, the ROG RTX 4070 Ti SUPER’s performance in the Port Royal benchmark suggests that it’s a strong performer for gaming with ray tracing enabled, which is increasingly becoming a standard in high-end gaming experiences.

The results from the 3DMark Speed Way benchmark test. This benchmark is developed using the latest DirectX 12 Ultimate API and features advanced technologies like DirectX Raytracing tier 1.1 for real-time global illumination, ray-traced reflections, Mesh Shaders, and more. It’s designed to measure the performance of gaming hardware with next-generation features enabled.

In this test, the ROG RTX 4070 Ti SUPER has achieved a score of 6,435. The Speed Way score is indicative of the GPU’s capability to handle cutting-edge graphic features that will be common in future games. A score of 6,435 suggests that the ROG RTX 4070 Ti SUPER is well-equipped to deal with such demanding workloads, which is corroborated by the estimated game performance section, indicating that it can run “Battlefield V” at 1440p Ultra settings at over 200 FPS.

The monitoring section provides insights into the hardware’s performance during the benchmark. It shows the frame rate, as well as the CPU and GPU temperatures and their clock frequencies. Consistent frame rates and stable temperatures are good signs of the hardware’s reliability and efficiency under load.

Overall, this score demonstrates that the ROG RTX 4070 Ti SUPER is a high-performance GPU capable of running the latest gaming titles with advanced graphical features, particularly ray tracing, at high resolutions and frame rates.

Maxed-Out Gaming Performance Unleashed: ROG Strix RTX 4070 Ti SUPER OC’s 2K and 4K Prowess in Top 10 AAA Titles

This test evaluated gaming performance at 2K and 4K resolutions with the highest settings for effects and quality, with DLSS enabled in some games. Many games could achieve higher frame rates by appropriately lowering effects, but the tests were conducted under maximum pressure settings for a rigorous assessment.

The test included 10 popular games such as “APEX Legends,” “Starfield,” “Call of Duty: Modern Warfare II,” “PAYDAY 3,” “Rainbow Six Siege,” “Rainbow Six Extraction,” and flagship AAA titles like “Assassin’s Creed Valhalla,” “Horizon Zero Dawn,” “God of War,” and “Shadow of the Tomb Raider.”

At 2K resolution, the RTX 4070 Ti SUPER was capable of playing games at a high frame rate of 144Hz, often exceeding 200 FPS. At 4K resolution, the gaming experience was also above 100 FPS. Better gaming experiences could be achieved by lowering the quality settings or enabling higher-performance DLSS.

Next-Level Ray Tracing: ROG Strix RTX 4070 Ti SUPER OC Powers Through Top Ray-Traced Games at 2K and 4K

The ROG RTX 4070 Ti SUPER is equipped with the third-generation RT core, which has significantly improved ray tracing performance compared to the 30 series graphics cards. The gaming tests selected ray tracing representative games such as “Cyberpunk 2077,” the performance-intensive “Watch Dogs: Legion,” “Far Cry 6,” “FORZA HORIZON 5,” “The Witcher 3: Wild Hunt,” “F1: 23,” and “Hogwarts Legacy,” all with the highest settings and DLSS enabled.

At 2K resolution, except for “The Witcher 3: Wild Hunt,” which had lower frame rates, the rest showed performances above 120 FPS. At 4K resolution, all games surpassed 60 FPS. The 16GB 256-bit video memory provides a more than adequate performance at 4K resolution compared to the RTX 4070 Ti, though there is still a considerable gap compared to the RTX 4080.

Efficiency and Cooling Mastery: Power and Thermal Analysis of ROG Strix RTX 4070 Ti SUPER OC

For the power consumption test, P-Mode was used in an open test bench environment at a temperature of 25 degrees Celsius. Various scenarios were simulated for maximum load, including using FurMark 2’s donut test, representing a real game load with Cyberpunk 2077, and simulating game load with 3DMark Fire Strike Ultra, as well as documenting temperature performance when the system is idle with fans stopped. HWiNFO64 was utilized to record power consumption and temperature performance.

During the FurMark 2 test, the ROG RTX 4070 Ti SUPER had an average power consumption of 285W and maintained a cool temperature of only 61.7 degrees Celsius, with the fan noise also being minimal. In idle mode with the fans stopped, the temperature was only 38 degrees Celsius, indicating that there’s no need to worry about cooling with the ROG card.

Summarize

The most significant upgrade of the RTX 4070 Ti SUPER is its 256-bit 16GB of video memory, which addresses the shortcomings of the RTX 4070 Ti’s insufficient memory capacity and bandwidth. However, there is a relatively small improvement in the core, with only about a 10% increase. Therefore, in scenarios that do not require large capacity or high bandwidth video memory, the performance improvement is limited. Yet, for high-quality 4K gaming, AI computing, or rendering, the additional memory of the RTX 4070 Ti SUPER can make the difference between a smooth and a poor experience.

There is no need to worry about cooling or noise with the ROG Strix RTX 4070 Ti SUPER OC; however, even the lower-tier TUF Gaming cooling is excessively good. The coolers for the 40 series cards are generally over-engineered, leaving the main appeal of the “Emperor edition” cards to aesthetics and slightly better overclocking performance. ROG’s design and build quality certainly live up to its reputation, and whether the premium for these non-performance-related benefits is worth it will depend on personal preference.

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Title: NVIDIA RTX 4070 Ti SUPER Review: Elevate Your Gaming with 16GB GDDR6X Memory