ASUS TUF Gaming RTX 4070 SUPER 12GB GDDR6X OC Review: Unmatched Performance and Durability with Military-Grade Components

Asus has launched the TUF GAMING version of the RTX 4070 SUPER, a robust and high-performance graphics card. This model boasts three axial-tech fans and enhanced backplate ventilation, ensuring superior cooling. The military-grade capacitors used in the TUF series guarantee stability and durability, even under high temperatures, making it a reliable choice for intensive gaming and professional use.

Key Specifications of the ASUS TUF Gaming GeForce RTX 4070 SUPER 12GB GDDR6X OC Graphics Card:

  • GPU: NVIDIA AD104-350-A1, offering cutting-edge graphics performance.
  • Interface: PCI Express 4.0 x16, ensuring fast data transfer and compatibility with modern motherboards.
  • CUDA Cores: 7168, providing excellent parallel processing capabilities for gaming and rendering.
  • Tensor Cores: 224 and RT Cores: 56, enhancing AI-driven applications and real-time ray tracing.
  • Boost Clock: 2595MHz in OC Mode, delivering high frame rates and smooth gaming experiences.
  • Memory: 12 GB GDDR6X, allowing for high-resolution textures and large datasets.
  • Memory Speed: 21 Gbps with a 192-bit interface, ensuring quick memory access and efficient data handling.
  • Dimensions: 301 x 139 x 63 mm, a large form factor for robust cooling solutions.
  • Slot Requirement: 3.15 Slots, indicating the space needed in a PC case.
  • Power Connector: 1x 12VHPWR 16-Pin, providing the necessary power for high-end performance.
  • Recommended Power Supply: 750W, ensuring sufficient power for stable operation.
  • DirectX: 12 Ultimate and OpenGL: 4.6, supporting the latest graphics standards and technologies.
  • Ports: 1x HDMI 2.1a and 3x DisplayPort 1.4a, offering multiple connectivity options.
  • Maximum Multi-Display Support: 4, ideal for multi-monitor setups for gaming or productivity.

This ASUS TUF Gaming RTX 4070 SUPER card is designed for gamers and professionals who demand high performance, durability, and reliability in their graphics processing. The combination of advanced cooling technology, high-quality components, and powerful specifications make it a top choice for a superior gaming experience.

RTX 4070 SUPER Launched: A Deep Dive into NVIDIA’s Latest Ada Lovelace Architecture GPU

NVIDIA has introduced the RTX 4070 SUPER, based on the Ada Lovelace architecture, as an upgrade to the original RTX 4070 at a price point of $599. Simultaneously, the RTX 4070’s price has been reduced to $549, offering consumers either stronger performance at the same price or adequate performance at a more affordable cost.

The RTX 4070 SUPER uses the same AD104 core as the RTX 4070 Ti and RTX 4070, featuring 7168 CUDA cores. This is approximately 20% more than the RTX 4070 and close to the 7680 cores of the RTX 4070 Ti. All three models are equipped with 12GB of GDDR6X memory, making the CUDA core count a key indicator of performance differences under otherwise similar specifications.

The TUF GAMING RTX 4070 SUPER shares its cooling system with the TUF RTX 4070 series. It is equipped with three 9cm axial-tech fans in an alternating rotational configuration to reduce turbulence. The middle fan spins in the opposite direction to the outer fans. The card is 301mm in length and 3.15 slots thick. In overclocking mode, it can reach a boosted frequency of 2595MHz, with a total graphics power (TGP) of 220W. It requires a single 12VHPWR (PCIe 16pin) connector and is recommended to be used with a power supply of 750W or greater.

This release positions the RTX 4070 SUPER as a compelling option for those seeking top-tier performance in the Ada Lovelace line-up, offering significant improvements over the standard RTX 4070 while providing a cost-effective alternative to the more expensive RTX 4070 Ti.

The packaging box for an ASUS TUF Gaming Graphics Card. Prominently displayed on the front of the box is the product name: “GEFORCE RTX 4070 SUPER.” The box features the ASUS branding at the top left corner and the TUF Gaming logo, signifying the card is part of ASUS’s TUF Gaming product line known for durability and performance.

A graphic of the graphics card occupies a significant portion of the box’s front, showcasing a triple-fan design. Each fan has the ASUS logo at the center. The box also highlights several features such as “OC Edition,” “12GB GDDR6X Memory,” and compatibility with “AURA SYNC,” which is a lighting synchronization feature. Additional supported technologies are listed at the bottom left, which include “DLSS 3,” “RAY TRACING,” “REFLEX,” and “STUDIO.”

The overall color scheme is dark with yellow accents, which are characteristic of NVIDIA’s branding. The packaging design suggests a product that’s targeted towards gamers and professionals who need high-performance graphics rendering capabilities.

The back of the packaging box for the TUF GAMING GeForce RTX 4070 SUPER graphics card. This side of the box provides a wealth of information about the card’s features, segmented into several sections:

  1. Cooling: It illustrates the card’s cooling system, which includes a vented backplate that works in tandem with a robust heatsink to optimize airflow and heat dissipation.
  2. Durability: The durability section highlights long-life capacitors, auto-extreme technology, and a rigid frame that ensures reliability for the card under various conditions.
  3. Aesthetics: A thin strip of Aura RGB lighting is depicted on the card, which can be customized to display a range of decorative and functional effects.
  4. Software: This section explains that the card comes with software that allows full customization of the gaming experience, including performance monitoring and streaming.

There are key features noted such as:

  • DirectCU III with Axial-tech fan design
  • Dual BIOS
  • Auto-Extreme Technology
  • GPU Tweak II software
  • MaxContact Technology
  • AURA Sync RGB lighting
  • 144-hour validation program

The bottom part of the box highlights “THE ULTIMATE PLATFORM FOR GAMERS AND CREATORS” and details features like cutting-edge, immersive graphics, AI-accelerated performance, game-winning responsiveness, built for live streaming, advanced voice and sound, and fast-track your creativity. There are also icons indicating the various ports available on the card, such as DisplayPort, HDMI, and support for PCIe 4.0.

The packaging also indicates a 3-year warranty for the product and includes QR codes, likely for registering the product or obtaining more information. Standard regulatory compliance icons and certification labels are present at the bottom.

This detailed information on the packaging is designed to inform potential buyers about the advanced features and benefits of the graphics card, emphasizing its high performance, cooling efficiency, build quality, and additional software and aesthetic perks.

The inner packaging of the TUF GAMING graphics card is the box that would typically house the graphics card itself. The design is sleek and minimalist, predominantly black with subtle line patterns and circuit-like illustrations that give it a high-tech appearance. The TUF GAMING logo is prominently placed in the center, signifying the product line known for its toughness and reliability.

The overall aesthetic of the box is consistent with the branding of ASUS TUF Gaming products, which often feature stylized industrial designs that resonate with the gaming community. The packaging gives the impression of a premium product and adds to the unboxing experience, which is an important aspect of consumer electronics today. The attention to detail in the packaging reflects the quality and care ASUS puts into its gaming hardware.

The additional accessories are included with the TUF GAMING graphics card. There are three items visible:

  1. Dual PCIe 8-pin to 12VHPWR Adapter: This is contained within a plastic bag and appears to be a power cable adapter, which is used to convert two 8-pin PCIe power connectors to a single 12VHPWR connector. This is particularly useful for supporting the power requirements of the latest high-performance graphics cards which may use the new 12VHPWR power connector standard.
  2. Graphics Card Support Bracket: To the left of the adapter, there is a support bracket, which is a structural piece used to prevent GPU sag by providing extra support to the graphics card once it is mounted in the PC case.
  3. TUF Velcro Strap: Below the adapter is a TUF-branded Velcro strap. This strap is typically used for cable management within a computer case, helping to keep power and data cables organized and out of the way for both aesthetics and improved airflow.

These inclusions demonstrate the manufacturer’s attention to detail, providing users with the necessary components to ensure a stable installation and operation of their high-end graphics card.

The image showcases the TUF RTX 4070 SUPER graphics card. This high-performance GPU is from ASUS’s TUF Gaming series, which is engineered for durability and robustness. The card is equipped with three axial-tech fans, which are designed to increase air pressure and airflow while reducing noise, making it efficient for cooling during intense gaming sessions or heavy computational tasks.

On the side of the card, you can see the “GEFORCE RTX” branding, indicating that this card is part of NVIDIA’s line of RTX GPUs, which are well-regarded for their ray tracing capabilities and AI-driven performance enhancements. The “TUF GAMING” logo is also prominently displayed, signifying its allegiance to the TUF Gaming product line known for its reliability and performance.

The visible heatsink fins beneath the fans suggest an extensive cooling system that is part of the card’s design to maintain optimal temperatures. The overall color scheme is dark with grey and black tones, accented by subtle hints of the TUF Gaming series’ signature colors.

The build quality appears solid with a focus on durability, which is a hallmark of the TUF Gaming brand. This graphics card would be a key component for gamers and professionals who demand high-quality graphics performance and stability in their systems.

The ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card, features a triple axial-tech fan design. Each fan measures 9cm in diameter, optimized for enhanced airflow and cooling efficiency. These fans are designed to deliver increased static pressure to push air directly across the GPU’s heatsink, ensuring that the card remains cool under load.

The card exhibits a robust and rugged design with a dark color scheme that is characteristic of the TUF Gaming line, which emphasizes durability and performance. The “TUF GAMING” branding is clearly visible along the side of the card, reinforcing its identity within the ASUS product family.

On the top edge, you can see the exposed heat pipes and part of the heatsink structure, indicating a comprehensive cooling solution that is critical for maintaining optimal performance during intense gaming sessions or demanding computational tasks. The gold-colored PCIe connector at the bottom signifies the interface through which the card will connect to the motherboard.

This hardware appeals to serious gamers and creators who need reliable, high-performance graphics processing in their computer builds. The attention to detail in the cooling design speaks to the engineering efforts to balance performance with longevity.

The side profile of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This view emphasizes the branding and design features that are a key part of the card’s identity.

On the broad side of the card, you can see the “GEFORCE RTX” branding in large letters, which is NVIDIA’s product line known for its powerful ray tracing and AI capabilities. To the left, the “TUF GAMING” text is smaller and positioned toward the edge, indicating the ASUS series is designed for toughness and endurance.

On the right side, there’s a mention of an RGB TUF logo, suggesting that this part of the card may feature RGB lighting, which is a popular aesthetic feature that allows gamers to customize the look of their PC components with multi-color lighting effects.

The overall design of the card is sleek, with a color palette of dark and grey tones that convey a sense of premium quality and performance. The visible heatsink fins indicate the extensive cooling system designed to handle the thermal output of the high-performance GPU. The construction suggests that this card is built to meet the demands of the latest PC games and creative applications, delivering not only performance but also a visually appealing component for any gaming or professional PC build.

The ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card from a perspective that shows its metal backplate. The backplate features an intricate design with a geometric pattern and cutouts for additional ventilation. It’s embellished with the “TUF” branding, which is part of ASUS’s series of durable and reliable gaming hardware.

The “GEFORCE RTX” logo is also visible on the backplate, signifying the card’s inclusion in NVIDIA’s RTX line, known for its graphics rendering capabilities, particularly in ray tracing and AI-enhanced performance. The metal backplate is not just for aesthetics; it adds rigidity to the card, helping to prevent PCB flex and protect the components on the reverse side of the card.

The presence of a backplate is often indicative of a higher-end card, as it can help with heat dissipation and provide a more finished look to the product. The backplate’s design is likely engineered to complement the card’s overall cooling solution by allowing heat to escape and potentially featuring thermal pads to aid in heat transfer from the PCB to the backplate. This attention to detail in the design suggests a commitment to quality and performance by ASUS.

A close-up of the end of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card, focusing on the design feature that aids in airflow. The card’s end is equipped with a vented section, which is part of the card’s cooling strategy. These vents are designed to allow hot air to escape from the internal heatsink, enhancing the overall cooling efficiency of the card by directing the airflow out of the card and the PC case.

This particular design element is a testament to the engineering that goes into high-performance graphics cards, where heat management is crucial for maintaining optimal performance and stability. The end bracket’s robust and rugged appearance also aligns with the TUF Gaming brand, which is synonymous with durability and reliability.

The card’s backplate, visible in the image, continues to display the sleek and industrial aesthetic of the TUF Gaming series, with printed circuit-like designs that likely mimic the actual PCB layout beneath. Overall, this attention to detail in the design indicates a focus on both functionality and visual appeal, ensuring that the graphics card operates effectively while also looking the part in a custom PC build.

A close-up view of the 12VHPWR power connector on the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This new power connector design is more compact than traditional PCIe power connectors and is capable of delivering more power to meet the needs of high-performance GPUs.

The 12VHPWR connector is part of the PCI Express 5.0 standard and is designed to provide up to 600 watts of power, which is significantly higher than the previous 8-pin connectors. This ensures that the card has enough power for demanding tasks, including gaming at high resolutions, intensive graphic workloads, and other power-hungry applications.

In the background, you can also see the dense array of aluminum fins that are part of the card’s cooling system. These fins help to dissipate heat efficiently, working in conjunction with the card’s fans to maintain optimal operating temperatures.

This power connector is a key feature of the latest generation of graphics cards, allowing for a cleaner build with fewer cables and providing the potential for better cable management within the computer case.

A close-up view of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card, highlighting the dual BIOS switch with options for “Performance Mode” and “Quiet Mode.” This switch allows users to select between two different configuration profiles.

In “Performance Mode,” the graphics card is tuned to maintain higher clock speeds for better performance, which may result in increased fan noise as the cooling system works to dissipate the additional heat generated.

Conversely, “Quiet Mode” optimizes for a lower noise level, which might slightly reduce performance to maintain a quieter operation. This would be ideal for users who prioritize a low-noise environment, such as when working or during light gaming sessions.

Having a physical switch for these modes provides users with the flexibility to easily choose their preferred balance between performance and acoustics without needing to use software-based tools. This feature is a thoughtful addition for gamers and creators who may have varying needs depending on their usage scenarios.

The image depicts the I/O (input/output) bracket of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. The bracket shows a selection of video output ports that include three DisplayPort 1.4a outputs and one HDMI 2.1a port. This variety allows for multiple display configurations, supporting high-resolution monitors and modern features such as high refresh rates, HDR, and variable refresh rate technologies.

The ports are housed within a bracket made from stainless steel 304, noted for its durability and corrosion resistance, which ensures long-term stability and robustness for the connectors. The presence of both DisplayPort and HDMI ports allows for flexibility in connecting to a wide range of displays, from gaming monitors to TVs, supporting various multimedia and gaming setups.

This combination of ports suggests that the card is geared towards users who demand high-end performance and may use multiple monitors or require the latest standards for video output to support their gaming or professional content creation workflows.

The image depicts the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card installed in a computer system. The card is mounted in a PCIe slot on the motherboard, and we can see the side of the card that typically faces out from the case. The “GEFORCE RTX” branding is visible along the side, illuminated by what appears to be an LED light, which is a common feature for gaming components that adds aesthetic appeal to the system’s interior.

The TUF Gaming logo is also illuminated on the side bracket, and there’s a subtle blue accent line that complements the overall dark design of the card. The RGB lighting is likely customizable, allowing the user to match the card’s lighting to the rest of the system or to their personal preference.

The computer system also features several other components, including a CPU with a tower cooler, multiple RAM modules, and braided cables for power, which suggests a build that is carefully crafted for both performance and aesthetics. The graphics card is the centerpiece of this build, indicating a system that is likely designed for high-performance gaming or intensive graphical tasks.

A close-up view of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card, focusing on the RGB lighting effect. The TUF Gaming logo is backlit with what appears to be green RGB lighting, which enhances the visual appeal of the card when installed in a computer system.

Below the logo, there is also a horizontal accent line that is illuminated, adding to the overall aesthetic of the card. The RGB lighting on gaming components is popular for personalizing the look of a PC build, allowing users to select colors and effects that match their style or the color scheme of their setup.

The image captures the attention to detail in the design of the card, showing not only the functional aspects of the graphics card but also the customizable features that appeal to gamers who value both performance and the visual appearance of their gaming rigs. RGB lighting is often controlled via software, enabling users to synchronize lighting across all their RGB-equipped components.

Inside the NVIDIA RTX 4070 SUPER: Unveiling Its AD104-A1 Core and Advanced Cooling Technology

The NVIDIA RTX 4070 SUPER graphics card utilizes the AD104-A1 GPU core and features six Micron 192-bit GDDR6X 2GB memory modules. When disassembled, it reveals that the TUF RTX 4070 SUPER boasts a 9+2 phase power design. This power is delivered through 50A SiC653A DrMOS power stages from Vishay, a leading manufacturer of electronic components, which are known for their efficiency and heat dissipation capabilities. The card employs a UPI uP9512R PWM controller, which is responsible for managing the power distribution to the GPU, ensuring precise control for overclocking stability and performance.

This configuration is indicative of a design that balances power delivery with thermal management, aiming to provide stable performance even under load. The use of high-quality components like the Vishay DrMOS and UPI PWM controller underlines the card’s capability to sustain demanding computing tasks, such as intensive gaming, 3D rendering, and video editing.

A disassembled view of the TUF Gaming GeForce RTX 4070 SUPER graphics card, with its components laid out separately. On display are the various parts that make up the cooling solution of the card, which are critical for maintaining optimal performance by managing the heat generated during operation.

From left to right, we see:

  1. Triple Fan Assembly: The card’s triple axial-tech fan setup, which is designed to push air across the heatsink efficiently. The fans are connected by cables, likely for power and possibly RGB lighting control.
  2. Heatsink: A large aluminum fin-stack heatsink is visible, designed to dissipate heat away from the GPU. The size and design of the heatsink indicate a high capacity for thermal management.
  3. Backplate: The metal backplate provides structural rigidity to the card and may also help with passive cooling by spreading out the heat.
  4. PCB (Printed Circuit Board): The main PCB of the graphics card is where the AD104-A1 GPU core and GDDR6X memory modules are installed. The power delivery components, including the 9+2 phase power design with Vishay’s 50A SiC653A DrMOS and the UPI uP9512R PWM controller, are also visible.

The thermal paste application on the GPU die suggests that the image was taken during or after a teardown process. This view allows for insights into the build quality and the engineering behind the card’s thermal and power management solutions. Enthusiasts and professionals often dissect such hardware to evaluate its construction, replace thermal compounds, or for aftermarket cooling solutions.

The internal side of the backplate from the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. Notably, there are thermal pads placed in strategic locations, which correspond to the positions of the memory modules on the PCB. These thermal pads are essential for transferring heat from the GDDR6X memory chips to the backplate, which then dissipates the heat away from the components.

This kind of thermal management is crucial for maintaining optimal performance and longevity of the graphics card, as it helps to prevent overheating during intense operations. The use of thermal pads is a common practice in high-performance graphics cards to ensure that all heat-generating components are adequately cooled.

The presence of these pads also indicates careful consideration of thermal dynamics in the design of the card, ensuring that even the memory modules receive sufficient cooling, which is particularly important for high-bandwidth GDDR6X modules known to generate significant heat under load.

The Printed Circuit Board (PCB) of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card without its cooling assembly attached. The central part of the PCB is dominated by the GPU die, which is surrounded by thermal interface material, indicating where the heatsink would be mounted to cool the GPU.

On the right side of the GPU, there are six memory modules, which are the Micron GDDR6X 2GB modules, making up a total of 12GB of video memory. These are arranged in a 192-bit configuration, as indicated by the original description provided.

The left-hand side of the PCB hosts the power delivery components, showcasing a 9+2 phase power design. The power stages (DrMOS) and PWM controller are part of the voltage regulation module (VRM), which is responsible for supplying stable power to the GPU and memory. The DrMOS components mentioned are designed by Vishay, and the PWM controller is by UPI.

The PCB also features several solid capacitors, chokes, and other electrical components that work together to ensure the smooth operation of the card. The layout looks clean and well-organized, reflecting a design that prioritizes electrical efficiency and thermal management.

At the bottom of the PCB, you can see the PCIe connector, which slots into the motherboard. To the far left, there are the I/O connectors that extend out of the back of the PC case when the card is installed. The ASUS branding is also visible, emphasizing the manufacturer’s identity.

Overall, this image gives a detailed view of the card’s hardware and the high-quality components used in its construction, highlighting the card’s potential for performance and durability.

The backside of the PCB (Printed Circuit Board) for the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This view highlights the clean and organized layout of the circuitry, as well as the absence of components on this side, which is typical for modern graphics cards.

The back of the PCB is marked with various voltage regulation points, like “1.8V,” “5V,” and “12V,” indicating the different power lines used across the board. The silkscreen labels such as “GPU” and “MEMO” denote areas where the main GPU chip and memory modules are located on the other side of the board.

The backplate mounting points are circled with copper, which can help with grounding and heat dissipation. You can also see the regulatory markings such as the CE (Conformité Européenne), FCC (Federal Communications Commission), and others, which signify that the product complies with the regulatory standards of different regions.

The ASUS branding is prominently placed, showcasing the manufacturer’s stamp on the hardware. The overall design suggests a focus on durability and performance, adhering to ASUS’s TUF series standards. The backside of a PCB is an important part of the card’s structure, providing physical support and contributing to the thermal management and electrical integrity of the card.

A close-up of the Micron GDDR6X memory chips on the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. These high-performance memory modules are a critical component of the card, providing the bandwidth necessary for demanding graphics tasks and gaming at high resolutions and frame rates.

The thermal paste residue around the memory chip indicates that the chip is typically covered by a thermal pad or heatsink to manage its operating temperature. Efficient cooling is essential for these memory modules, as GDDR6X can run hot under load due to its high speed and bandwidth capabilities.

You can also see part of the intricate circuitry that connects these memory modules to the rest of the graphics card, as well as various surface-mounted components like capacitors and resistors that help regulate power and signal integrity for the memory.

The detail in this image underscores the complexity and precision engineering that goes into modern graphics cards, enabling them to support the intense computational demands of cutting-edge gaming and professional applications.

A close-up of the UPI uP9512R PWM (Pulse-Width Modulation) controller on the PCB of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This controller is responsible for managing the power supply to the GPU core, modulating the duty cycle of the power to provide stable and efficient energy delivery.

The PWM controller is a critical component for high-performance graphics cards, as it allows for fine-tuning of the power sent to the GPU, which is essential for maintaining performance while minimizing power consumption and heat generation. It plays a significant role in overclocking stability and overall system performance.

Surrounding the PWM controller, you can observe various other small components, such as resistors and capacitors, which are part of the card’s power regulation circuitry. The precision with which these components are placed on the PCB reflects the complex nature of modern electronics and the attention to detail required to achieve high performance in today’s gaming hardware.

A close-up of the Vishay SiC653A DrMOS power stages on the PCB of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. These components are part of the card’s Voltage Regulator Module (VRM) system, which is critical for supplying stable power to the GPU.

The DrMOS (Driver-MOSFET) is a type of power MOSFET combined with a driver IC in one package. These components are designed to deliver high current and fast switching with high efficiency, which is essential for minimizing heat generation and improving the overall performance of the graphics card.

The presence of these high-quality DrMOS components indicates that the card is built to handle the substantial power requirements of modern high-performance GPUs, especially under load conditions such as gaming, rendering, and other intensive tasks.

In the image, you can also see the thermal pads that would interface with the heatsink or cooling solution to help dissipate the heat generated by these power stages. The layout and use of these components demonstrate ASUS’s commitment to durability and reliability in their TUF series products.

A close-up of the UPI uP9529Q PWM (Pulse-Width Modulation) controller on the PCB of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This specific controller is tasked with managing the power supply to the GDDR6X memory modules.

The PWM controller is crucial for memory performance because it regulates the voltage supplied to the memory chips, ensuring they operate within their specified power parameters. Proper voltage regulation is important for the stability and performance of the memory, particularly when running high-speed data tasks or during overclocking scenarios.

Surrounding the PWM controller are various other components, which form part of the memory’s power delivery network. The choice of a dedicated PWM controller for the memory indicates a design that prioritizes precise power management for all critical components of the graphics card. This contributes to the overall performance and longevity of the card by ensuring that the memory receives stable and clean power.

A close-up of the AURA lighting control chip on the PCB of the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This chip is responsible for managing the RGB lighting effects on the card, which is part of ASUS’s AURA Sync ecosystem, allowing users to synchronize lighting colors and effects across multiple components and peripherals.

The AURA chip works with the ASUS software to provide users with customization options for their system’s lighting, enabling them to personalize their gaming setup to match their style or mood with a variety of colors and patterns.

This lighting feature has become a popular aspect of modern gaming hardware, offering not just performance but also aesthetic customization, contributing to the immersive experience many gamers look for in their setups. The presence of such a chip on the PCB demonstrates the manufacturer’s commitment to providing a comprehensive user experience that goes beyond raw performance.

The cooling solution for the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card, as described, utilizes an advanced heatsink design featuring three full-length heat pipes that pass through two blocks of fins to maximize heat dissipation from the GPU. In addition to these, there are three shorter heat pipes to further enhance the cooling efficiency, ensuring more direct and efficient heat transfer from the GPU to the fins.

The core contact area has been mirror-polished to achieve a highly smooth surface, which is beneficial for thermal performance. This mirror finish reduces the microscopic gaps between the heatsink and the GPU die, allowing for better thermal compound application, which in turn improves heat conduction. By optimizing the contact surface in this way, the cooler can more effectively draw heat away from the GPU and dissipate it through the heatsink fins, aided by the airflow from the fans.

This attention to detail in the heatsink’s design is indicative of a commitment to providing high cooling performance, which is necessary for maintaining the GPU’s performance under load and extending its longevity by keeping temperatures within optimal ranges.

The disassembled heatsink from the ASUS TUF Gaming GeForce RTX 4070 SUPER graphics card. This heatsink is engineered to keep the GPU cool and is a vital component of the card’s thermal management system.

From the image, you can observe the following features:

  1. Heat Pipes: There are several heat pipes visible, which are used to transfer heat away from the GPU to the heatsink fins efficiently. The heat pipes appear to be made of copper, which is excellent for thermal conductivity.
  2. Fins: The heat pipes are interlaced with numerous thin fins that dissipate heat into the surrounding air. The density and design of these fins are crucial for effective heat dissipation.
  3. Mirror Finish: The area where the heatsink makes contact with the GPU (not visible in the picture but indicated by the square outline in the center) would have a mirror finish to ensure optimal thermal transfer.
  4. Two-Block Design: The heatsink seems to have a dual-section design, with two distinct blocks of fins, which could be indicative of a design that targets both the GPU and other heat-generating components like the VRMs or memory chips.
  5. Warning Label: There is a yellow warning label, likely indicating caution about the thermal surface or a protective cover that should be removed before installation.

The image provides insight into the sophisticated cooling technology employed in modern high-performance graphics cards, highlighting the importance of thermal management in maintaining system stability and maximizing performance.

Benchmarking the NVIDIA RTX 4070 SUPER: In-Depth Performance Analysis with Intel Core i9-14900K

Here’s a summary of the high-end system setup:

  • CPU: Intel Core i9-14900K, which is a high-performance processor suitable for gaming, creative workloads, and intensive multitasking.
  • Motherboard: ASUS ROG Strix Z790-A GAMING WIFI II, a motherboard that supports the latest connectivity and speed standards, offering robust features for gamers and enthusiasts.
  • Memory: CORSAIR DOMINATOR TITANIUM DDR5-7200 24GBx2, providing a total of 48GB of high-speed DDR5 memory, which is excellent for memory-intensive applications and multitasking.
  • Graphics Card: ASUS TUF Gaming RTX 4070 SUPER, featuring an AD104 GPU core, with 12GB of 192-bit GDDR6X memory, and clock speeds of 1980 MHz base and 2565 MHz boost frequencies. This card should deliver excellent performance for gaming and content creation.
  • Storage: A combination of a 1TB CORSAIR MP600 PRO LPX SSD and a 4TB CORSAIR MP400 SSD, offering a balance of high-speed storage for the operating system and applications, with a large capacity for game storage.
  • Cooler: ASUS ProArt LC420, a liquid cooling solution likely providing efficient CPU temperature management even under load.
  • Power Supply: Seasonic Focus 1000W, which is a robust and reliable power supply unit capable of supporting all the components, especially the high-powered GPU.
  • Operating System: Windows 11 Pro 23H2, the latest iteration of Windows with all the newest features and optimizations for gaming and professional applications.
  • Driver Version: Game Ready 546.52, which suggests the system is using the latest NVIDIA drivers optimized for gaming and ensuring the best performance and compatibility with the latest games.

This setup is very capable and would be expected to provide excellent performance across a wide range of applications, from the latest AAA gaming titles to demanding professional software suites. The GPU-Z information confirms that the RTX 4070 SUPER is operating on a PCIe 4.0 x16 interface, ensuring that the graphics card has ample bandwidth to communicate with the CPU and the rest of the system for optimal performance.

Two screenshots from the TechPowerUp GPU-Z application, provide detailed information about the NVIDIA GeForce RTX 4070 SUPER graphics card.

From the left screenshot, the key specifications are:

  • Graphics Card: NVIDIA GeForce RTX 4070 SUPER
  • Technology: 2783 nm process size (which seems to be an error; typically, this would be the die size in nm, like 8nm)
  • Release Date: Unknown
  • BIOS Version:
  • Device ID: 10DE 2783 – 1043 8952
  • Bus Interface: PCIe x16 4.0 @ x16 1.1
  • Memory Type: GDDR6X (Micron)
  • Memory Size: 12288 MB
  • Memory Bus Width: 192 bits
  • Driver Version: December 18, 2023
  • GPU Clock: 1980 MHz
  • Default Clock: 1980 MHz
  • Boost: 2565 MHz
  • Memory Clock: 1313 MHz (which should correspond to an effective rate considering GDDR6X’s double data rate nature)

From the right screenshot, additional details are:

  • Power Limit: Minimum 100.0 W, Default 220.0 W, Maximum 253.0 W, with an adjustment range of -55% to +15%
  • Memory Support: GDDR6X by Micron at 16 Gbps

This information reflects the card’s high-performance capabilities, with a considerable amount of high-speed GDDR6X memory and a robust power limit that allows for significant performance tuning. The driver date suggests that the card is running on a beta version of the driver, which might be providing cutting-edge support for the latest games or applications. The PCIe interface running at 4.0 indicates that the card is capable of high bandwidth data transfer, which is essential for modern high-resolution gaming and graphic-intensive tasks.

A benchmark result screen from the Indigo Bench software, which is a rendering benchmark tool based on the Indigo 4 rendering engine. This software utilizes the OpenCL framework to test rendering performance on various graphics processors, including those from AMD, NVIDIA, and Intel.

In the benchmark, two different scenes are used to evaluate rendering performance: a “Bedroom” scene and a “Supercar” scene. The results are measured in millions of samples per second, with higher scores indicating better performance.

The TUF Gaming RTX 4070 SUPER graphics card scored:

  • Bedroom: 19.663 samples/s
  • Supercar: 52.314 samples/s

These scores demonstrate the card’s strong rendering capabilities, handling complex rendering tasks efficiently. The “Supercar” scene, likely more graphically intensive due to its complexity and details, shows that the card performs well even in challenging scenarios.

Benchmarking tools like Indigo Bench provide valuable information about how hardware will perform in real-world tasks, such as 3D rendering, giving users an idea of the capabilities of their components. The results here suggest that the TUF Gaming RTX 4070 SUPER is well-suited for high-performance rendering tasks.

The results from the Blender Benchmark Launcher, a benchmarking tool provided by the Blender Foundation for their 3D graphics software, Blender. This tool allows users to test the rendering performance of their computer’s CPU or GPU using various demanding Blender projects.

For the TUF Gaming RTX 4070 SUPER graphics card, the scores from the benchmark are as follows:

  • Monster: 3324.237849 samples per minute
  • Junkshop: 1554.611879 samples per minute
  • Classroom: 1654.991544 samples per minute

These results reflect the rendering performance of the graphics card across three different Blender scenes, with “Monster” achieving the highest score. The diversity in scores between the scenes can be attributed to their varying complexity and the graphical demands they place on the rendering hardware.

The benchmarks are measured in samples per minute, with higher numbers indicating faster rendering times and better performance. Given these scores, the TUF Gaming RTX 4070 SUPER demonstrates strong rendering capabilities, which can be beneficial for professionals and enthusiasts working with 3D modeling, animation, and rendering tasks in Blender.

The Geekbench Browser displays the Geekbench 6 OpenCL score for a system featuring an ASUS TUF Gaming RTX 4070 SUPER graphics card. Geekbench 6 evaluates the comprehensive professional performance of the graphics card, including tasks like image processing, rendering, machine learning, and other professional scenarios.

The system information provided in the benchmark result is as follows:

  • Operating System: Microsoft Windows 11 (64-bit)
  • Model: ASUS System Product Name
  • CPU: Intel Core i9-14900K with 24 cores and 32 threads, base frequency of 3.20 GHz

The TUF Gaming RTX 4070 SUPER achieved an impressive OpenCL API score of 202,294. While the Vulkan API score is mentioned to be 150,193. These scores are derived from various test metrics, including deep learning workloads, background blurring, face detection, image editing, horizon detection, edge detection, Gaussian blur, image compositing, feature matching, stereo matching, and particle physics.

These high scores indicate that the RTX 4070 SUPER performs exceptionally well in professional and compute-intensive tasks, showcasing its capabilities in a range of applications from graphics rendering to computational simulations. OpenCL and Vulkan are APIs that allow applications to directly leverage the GPU for these kinds of tasks, and these scores suggest that the RTX 4070 SUPER is well-equipped to handle them efficiently.

Geekbench 6 Vulkan results.

NVIDIA RTX 4070 SUPER Tested: Comprehensive 3DMark Benchmark Analysis Across APIs and Resolutions

The 3DMark benchmark results for a system equipped with the ASUS TUF Gaming RTX 4070 SUPER graphics card. 3DMark is a widely recognized gaming benchmark software that assesses the performance of computer hardware under various conditions using different APIs, resolutions, and features such as ray tracing and FSR (FidelityFX Super Resolution).

Fire Strike.
Fire Strike Extreme.
Fire Strike Ultra.

The scores for the TUF Gaming RTX 4070 SUPER are as follows:

  1. 3DMark Fire Strike (1080p): The graphics score is 50,784. This benchmark uses the DirectX 11 API and includes tests for the CPU, GPU, and a combined test to assess overall system performance at 1080p resolution.
  2. 3DMark Fire Strike Extreme (2K): The graphics score is 25,599. This version of the test raises the stakes by increasing the resolution to 1440p, providing a more demanding environment to test the capabilities of the graphics card.
  3. 3DMark Fire Strike Ultra (4K): The graphics score is 12,506. This is the most demanding test in the suite, utilizing a 4K resolution to push the hardware to its limits.

These scores indicate that the TUF Gaming RTX 4070 SUPER delivers excellent performance across different resolutions, with particularly high performance at 1080p and very good performance at 1440p and 4K, suitable for gaming at high settings. The results also show that the card is capable of over 200 FPS in Battlefield V at 1440p Ultra settings, which is impressive and indicative of a high-end gaming experience.

Benchmark tests like 3DMark are valuable tools for comparing the performance of different hardware configurations and for users to gauge how well their system will perform in real-world gaming scenarios. The RTX 4070 SUPER’s strong performance in these benchmarks suggests it is well-suited for modern games, including those with demanding graphics requirements.

Time Spy.
Time Spy Extreme.

The results from the 3DMark Time Spy and Time Spy Extreme benchmarks. These tests are designed to assess the DirectX 12 gaming performance of the system, with Time Spy running at 2K resolution and Time Spy Extreme at 4K resolution.

Here are the scores achieved by the ASUS TUF Gaming RTX 4070 SUPER graphics card:

  1. 3DMark Time Spy (2K resolution)
    • Graphics Score: 21,387
    • CPU Score: 23,404
    • Overall Score: 21,667
    • Estimated Game Performance: Battlefield V – 195+ FPS at 1440p Ultra settings.
  2. 3DMark Time Spy Extreme (4K resolution)
    • Graphics Score: 10,234
    • CPU Score: 13,871
    • Overall Score: 10,652

The results illustrate that the RTX 4070 SUPER is capable of delivering excellent gaming performance, with high scores in both 2K and 4K benchmarks. The high scores in the graphics tests reflect the card’s strong graphical processing capabilities, particularly under the demanding conditions of the latest APIs and high resolutions. The CPU scores also indicate that the Intel Core i9-14900K processor paired with the RTX 4070 SUPER provides a balanced and powerful platform for gaming and other demanding applications.

The estimated gaming performance in Battlefield V above 195 FPS at 1440p Ultra settings is particularly notable, suggesting that gamers can expect a smooth and visually stunning experience with this hardware configuration.

Overall, these benchmarks confirm the TUF Gaming RTX 4070 SUPER as a robust choice for gamers aiming to play the latest titles at high resolutions and graphical settings.

Port Royal.

The screenshot shows the 3DMark Port Royal benchmark score for the ASUS TUF Gaming RTX 4070 SUPER graphics card. Port Royal is a benchmarking tool that measures real-time ray tracing performance using the DirectX 12 DXR API at 2K resolution.

The TUF Gaming RTX 4070 SUPER scored 13,321 in the Port Royal benchmark, which is a specialized test designed to evaluate the performance of the graphics card with ray tracing — a computationally intensive task that simulates physical light behavior to produce visually realistic images.

A score of 13,321 indicates that the RTX 4070 SUPER is quite capable of handling ray tracing in games, which is consistent with the expectations for a card of its class. The estimated game performance suggests that the card can deliver over 180 FPS in Battlefield V at 1440p Ultra settings, even potentially with ray tracing enabled, although this would depend on the specific ray tracing settings used.

The ability to handle ray tracing efficiently is a significant advantage for gaming experiences, as it allows for more immersive and lifelike environments. This benchmark result showcases the card’s strength in this advanced graphics technology domain.

Speed Way.

The 3DMark Speed Way benchmark result, which is a performance test developed using the latest DirectX 12 Ultimate API. It leverages advanced features such as DirectX Raytracing (DXR) tier 1.1 for real-time global illumination and reflections, as well as Mesh Shaders, which are among the newest technologies for ray tracing in gaming performance benchmarks.

The ASUS TUF Gaming RTX 4070 SUPER graphics card scored 5,306 in the Speed Way benchmark. This score is an indicator of the card’s capability to handle the latest graphical features and rendering techniques at the cutting edge of gaming technology. The result is meant to give gamers an idea of how well the RTX 4070 SUPER can perform in the most modern and graphically demanding games that utilize these new DirectX 12 Ultimate features.

The benchmark estimates that the card can provide 165+ FPS in Battlefield V at 1440p Ultra settings, which is a high frame rate for such a demanding resolution and graphics setting. This estimated performance underlines the card’s potential for providing smooth gaming experiences even in the most visually intensive scenarios.

NVIDIA RTX 4070 SUPER Gaming Performance: Exceptional 2K and 4K Results in Top 10 Games

The test focuses on evaluating gaming performance at 2K and 4K resolutions with the highest graphics settings and effects. DLSS (Deep Learning Super Sampling) was enabled for some games, which is a feature that uses AI to boost frame rates while maintaining image quality.

The TUF RTX 4070 SUPER showed that it is capable of meeting the requirements for high-frame-rate gaming at 2K 144Hz, with many games achieving frame rates above 200 FPS. This indicates that the card is quite capable of delivering a smooth gaming experience at high resolutions and settings.

At 4K resolution, the gaming performance remains strong, with “Assassin’s Creed Valhalla” being the only title mentioned that falls below 100 FPS. The card provides a good gaming experience for most titles at this resolution. For games that are more demanding at 4K, reducing the graphics settings slightly or enabling a more performance-efficient mode of DLSS could yield even higher frame rates, thus enhancing the gaming experience.

The selection of games for this test includes a mix of popular contemporary titles and graphically intensive AAA games, covering a range of genres and graphical demands:

  • APEX Legends
  • Starfield
  • Call of Duty: Modern Warfare II
  • PAYDAY 3
  • Rainbow Six Siege
  • Rainbow Six Extraction
  • Assassin’s Creed Valhalla
  • Horizon Zero Dawn
  • God of War
  • Shadow of the Tomb Raider

This diverse lineup ensures a comprehensive test of the card’s capabilities, from fast-paced action and competitive shooters to expansive open-world adventures and story-driven campaigns. The TUF RTX 4070 SUPER appears to be a strong performer capable of handling the current gaming landscape’s demands.

A graph showing the frame rates achieved by the ASUS TUF Gaming RTX 4070 SUPER graphics card in various games tested at 2K (2560 x 1440) resolution.

Typically, such a graph would display a list of games along the vertical axis and the frame rates along the horizontal axis. Each game would have a corresponding bar extending horizontally to indicate the average frames per second (FPS) that the graphics card can deliver at 2K resolution.

In general, for a high-performance card like the RTX 4070 SUPER, we would expect to see high FPS counts, well above the standard 60 FPS threshold which is considered to be the baseline for smooth gameplay. Games that are less graphically intensive or optimized for performance might show even higher FPS counts, possibly reaching into the hundreds, which would be especially relevant for competitive gaming where higher frame rates can provide a competitive edge.

A bar graph showing the frame rates for various games tested on the ASUS TUF Gaming RTX 4070 SUPER graphics card at a 4K resolution (3840 x 2160). This resolution is much more demanding, so the frame rates are expected to be lower than at 2K.

  • APEX (with 8GB VRAM usage) – 190 FPS
  • Starfield (with DLSS enabled) – 125 FPS
  • Call of Duty: Modern Warfare II (with DLSS enabled) – 114 FPS
  • PAYDAY 3 – 111 FPS
  • Rainbow Six Siege – 251 FPS
  • Rainbow Six Extraction – 109 FPS
  • Assassin’s Creed Valhalla – 79 FPS
  • Horizon Zero Dawn (with DLSS enabled) – 145 FPS
  • God of War (with DLSS enabled) – 105 FPS
  • Shadow of the Tomb Raider (with DLSS enabled) – 180 FPS

At 4K resolution, achieving close to or above 60 FPS is generally considered excellent for a visually intensive AAA title, especially with settings maxed out. The frame rates shown here suggest that the RTX 4070 SUPER is quite adept at handling 4K gaming, particularly with DLSS enabled, which improves performance by rendering fewer pixels and using AI to upscale the image to 4K, maintaining high quality with a significant boost in FPS.

Titles like “Rainbow Six Siege” hitting 251 FPS indicate that less demanding or well-optimized games can achieve high frame rates even at 4K, which is impressive and suggests a smooth, responsive gaming experience. For more graphically demanding games like “Assassin’s Creed Valhalla” and “Horizon Zero Dawn,” the card still manages to deliver playable frame rates, and with some settings adjustments, these could be improved further to ensure a fluid gameplay experience.

Overall, these results position the TUF Gaming RTX 4070 SUPER as a powerful option for 4K gaming, capable of delivering a high-quality gaming experience across a variety of titles and genres.

RTX 4070 SUPER Tested: Mastering Ray Tracing in Games like Cyberpunk 2077 at 2K and 4K

The ASUS TUF Gaming RTX 4070 SUPER graphics card, equipped with the third-generation RT Core, marks a substantial leap in ray tracing capabilities compared to the 30 series cards. In gaming tests with ray tracing titles like “Cyberpunk 2077”, “Watch Dogs: Legion”, “Far Cry 6”, “FORZA HORIZON 5”, “The Witcher 3: Wild Hunt”, and “Hogwarts Legacy”, it showcases its power by running these with maximum effects and DLSS enabled.

At 2K resolution, “Cyberpunk 2077” is notable for its performance, offering over 100Hz frame rates, allowing for the full enjoyment of ray-traced visuals. However, the drop in frame rates at 4K resolution is more pronounced, which could be due to the 192-bit memory bandwidth being maxed out. This is a slight downside for the 4070 SUPER, suggesting that for optimum performance at 4K, settings may need to be adjusted, or a higher performance DLSS setting should be enabled to maintain high frame rates and visual fidelity.

NVIDIA RTX 4070 SUPER Power Efficiency Examined: Low Heat and Consumption in Extreme Tests

The ASUS TUF Gaming RTX 4070 SUPER demonstrates exceptional energy efficiency and thermal performance. Under the default overclocking mode, tested in an open-air setup at an ambient temperature of 25°C, the card exhibits remarkable power and temperature results across various stress tests. Utilizing FurMark 2, a demanding stress test that simulates extreme workloads, the TUF RTX 4070 SUPER maintains an average power draw of only 220W with a cool operational temperature of 60°C, indicating superior cooling efficiency. Notably, the card’s fans operate quietly, further enhancing the user experience. Moreover, during idle periods with fans halted, the card’s temperature impressively sits at just 40.1°C, showcasing the card’s excellent thermal design and low power consumption at rest.

Temperature and power consumption testing.


The latest iteration of the 40-series SUPER lineup comes without any architectural changes or surprising new features. However, NVIDIA’s dominance in the graphics card market is firmly upheld through its advancements in DLSS and ray tracing capabilities. The new SUPER variants offer a compelling proposition as they are priced similarly to the RTX 4070 but deliver performance nearing that of the RTX 4070 Ti.

ASUS’s TUF series continues its tradition of robust and practical design, enabling the RTX 4070 SUPER to maintain a peak temperature of around 60°C with fan speeds of just over 1000 RPM, ensuring operation under minimal stress. ASUS enhances customer confidence with a generous 3+2 extended warranty on the TUF series.

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Title: ASUS TUF Gaming RTX 4070 SUPER 12GB GDDR6X OC Review: Unmatched Performance and Durability with Military-Grade Components