Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G -vs- GeForce RTX™ 4070 AERO OC V2 12G
Related GPUs
Compare Related GPU
Specs comparison between Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G and GeForce RTX™ 4070 AERO OC V2 12G
GPU Details | ||
|---|---|---|
Image |  |  |
Name | Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G | GeForce RTX™ 4070 AERO OC V2 12G |
Brand?The manufacturer of the graphics card, such as Gigabyte in 'Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G'. The brand often indicates the card's build quality and features. | Gigabyte | Gigabyte |
Chip Name?The specific GPU model used in the graphics card, such as 'GeForce RTX™ 4070' in 'Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G'. It defines the core architecture and performance of the card. | Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G -vs- GeForce RTX™ 4070 AERO OC V2 12G | Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G -vs- GeForce RTX™ 4070 AERO OC V2 12G |
Type?Indicates that this graphics card is designed for use in desktop computers. | Desktop | |
Release Date | 04/2023 | 04/2023 |
PCI-E?The PCI Express interface used by the graphics card, indicating its compatibility with motherboards. Common versions include PCIe 4.0 and PCIe 5.0, with newer versions offering higher bandwidth. | PCI-E 4.0 | PCI-E 4.0 |
Max. Frequency?The maximum clock speed the GPU can reach, measured in megahertz (MHz). It represents the card's peak performance capability under optimal conditions. | 2650 | 2650 |
Part No.?The unique part number assigned to the graphics card by the manufacturer. It helps identify the specific model and its specifications for ordering and support. | ||
GPU Display & Ports | ||
|---|---|---|
Maximum Resolution?The highest display resolution that the graphics card can output, indicating its ability to drive high-resolution monitors. | 7680x4320 | 7680x4320 |
Dp Port?The number of DisplayPort connections available on the graphics card. DisplayPort is a common interface for high-resolution displays. | DisplayPort 1.4a *3 | DisplayPort 1.4a *3 |
HDMI?The number of HDMI connections available on the graphics card. HDMI is a common interface for connecting to TVs and monitors. | 1 X HDMI 2.1 | 1 X HDMI 2.1 |
Hdcp Support?High-bandwidth Digital Content Protection (HDCP) support indicates the card's ability to display protected content, such as Blu-ray movies and streaming services. | ||
Max no. of Display?The maximum number of displays the graphics card can simultaneously output to. This indicates the card's multi-monitor capabilities. | 4 | 4 |
GPU General Specification | ||
|---|---|---|
No. of Fan?The number of fans used for cooling the graphics card. More fans can improve cooling performance, especially under heavy load. | 3 | 3 |
RGB Lighting?Indicates whether the graphics card features customizable RGB lighting. This allows users to personalize the card's appearance. | yes | no |
PCI-E?The PCI Express interface used by the graphics card, indicating its compatibility with motherboards. Common versions include PCIe 4.0 and PCIe 5.0, with newer versions offering higher bandwidth. | PCI-E 4.0 | PCI-E 4.0 |
Recommended Power Supply?The recommended wattage of the power supply unit (PSU) needed to reliably power the graphics card. It ensures stable operation and prevents damage due to insufficient power. | 700 | 650 |
GPU Dimension | ||
|---|---|---|
Slot Width?The number of expansion slots the graphics card occupies on the motherboard. It indicates the physical thickness of the card. | 2 | 2.56 |
Length?The physical length of the graphics card, measured in millimeters (mm). It determines the space required within the computer case to install the card. | 342 mm | 342 mm |
Width?The physical width of the graphics card, measured in millimeters (mm). It's the dimension from the component side of the card to the backplate/bracket side. | 130 mm | 130 mm |
Height?The physical height of the graphics card, measured in millimeters (mm). It's the dimension from the bottom of the PCIe connector to the top of the card. | 50.2 mm | 70.6 mm |
Graphics Processors Details
Graphics Processor | ||
|---|---|---|
Name?The specific name of the graphics processing unit (GPU) on the card, identifying its model and capabilities. | Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G -vs- GeForce RTX™ 4070 AERO OC V2 12G | Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G -vs- GeForce RTX™ 4070 AERO OC V2 12G |
Architecture?The underlying design and structure of the GPU, defining its features and performance characteristics. | ||
Processor Size?The manufacturing process used to create the GPU, measured in nanometers (nm). Smaller processes typically result in more efficient and powerful GPUs. | ||
Transistors?The number of transistors within the GPU. More transistors generally indicate higher performance and more complex features. | ||
Die Size?The physical size of the GPU chip, measured in square millimeters (mm²). Die size can influence the GPU's performance and power consumption. | ||
GPU Type | ||
TGP?Total Graphics Power (TGP) is the maximum amount of power the graphics card is designed to consume, including the GPU and its memory. It indicates the card's overall power consumption and heat generation. | Watts | Watts |
Launch Date | ||
Clock Speed | ||
|---|---|---|
Base Clock?The standard operating speed of the GPU, measured in megahertz (MHz). It indicates the GPU's baseline performance level. | MHz | MHz |
Boost Clock?The maximum speed the GPU can reach under heavy load, measured in megahertz (MHz). It represents the GPU's peak performance capability. | MHz | MHz |
Render Config | ||
|---|---|---|
Shading Units?The number of processing units within the GPU responsible for rendering graphics. More shading units generally result in better graphics performance. | ||
TMUs?Texture Mapping Units (TMUs) are processing units within the GPU that apply textures to 3D surfaces. More TMUs improve the realism and detail of rendered graphics. | ||
ROPs?Render Output Units (ROPs) are processing units within the GPU that handle the final stage of rendering, converting pixel data into an image. More ROPs improve the frame rate and image quality. | ||
RT Cores?Ray Tracing cores are specialized processing units within the GPU that accelerate ray tracing, a technique for creating realistic lighting and reflections. | ||
L1 Cache?The smallest and fastest cache memory level within the GPU, located closest to the processing units. It stores frequently accessed data for rapid retrieval. | ||
L2 Cache?A mid-level cache memory within the GPU that provides a larger storage capacity than L1 cache. It stores data that is less frequently accessed than L1 but more frequently than the GPU's main memory. | ||
Memory | ||
|---|---|---|
Memory Size?The amount of dedicated memory available to the GPU, measured in gigabytes (GB). More memory allows the GPU to handle larger and more complex graphics data. | GB | GB |
Memory Type?The type of memory used by the GPU, such as GDDR6 or GDDR6X. Newer memory types offer faster speeds and higher bandwidth, improving graphics performance. | ||
Memory Bus?The width of the data path between the GPU and its memory, measured in bits. A wider memory bus allows for faster data transfer. | ||
Bandwidth?The maximum rate at which data can be transferred between the GPU and its memory, measured in gigabytes per second (GB/s). Higher bandwidth improves graphics performance. | ||
Memory Clock Speed?The speed at which the GPU's memory operates, measured in megahertz (MHz). Higher clock speeds result in faster memory access. | ||
Features | ||
|---|---|---|
DirectX?The version of Microsoft's DirectX API supported by the GPU, indicating its compatibility with graphics features and technologies. | ||
G-Sync/FreeSync?Indicates support for adaptive synchronization technologies like NVIDIA G-SYNC or AMD FreeSync, which reduce screen tearing and stuttering. | ||
OpenCL?Open Computing Language (OpenCL) is a framework for writing programs that execute across heterogeneous platforms, including GPUs. It enables parallel computing for various applications. | ||
OpenGL?Open Graphics Library (OpenGL) is a cross-language, cross-platform API for rendering 2D and 3D vector graphics. It's widely used in graphics applications and games. | ||
Shader Model?A set of instructions and capabilities that define the features and performance of the GPU's programmable shaders. Higher shader model versions offer more advanced graphics effects. | ||
Vulkan?The version of the Vulkan API supported by the GPU, indicating its compatibility with this low-overhead, cross-platform graphics and computing API. | ||
Extra Technology | ||
Comparison Review of Gigabyte AORUS GeForce RTX™ 4070 MASTER 12G and GeForce RTX™ 4070 AERO OC V2 12G
Gigabyte AORUS Master vs AERO OC V2: RTX 4070 GPU Comparison
Introduction
When selecting a high-performance graphics card, subtle differences between models can significantly impact your experience, even when they share the same underlying GPU. This article compares two premium Gigabyte RTX 4070 models: the AORUS Master and the AERO OC V2. While both cards utilize the same NVIDIA GeForce RTX 4070 GPU, their design philosophies, cooling solutions, and aesthetics offer distinct advantages for different user needs.
Core Specifications
Base Technical Details
GPU Architecture
Both the Gigabyte AORUS GeForce RTX 4070 MASTER 12G and the GeForce RTX 4070 AERO OC V2 12G are built on NVIDIA’s cutting-edge Ada Lovelace architecture, manufactured using a 5nm process. This architecture delivers exceptional performance and efficiency compared to previous generations.
Processing Capabilities
- CUDA Cores: 3072 (both models)
- TMUs (Texture Mapping Units): 80 (both models)
- ROPs (Render Output Units): 32 (both models)
- RT Cores: 20 (both models)
- Base Clock: 1920 MHz (both models)
- Boost Clock: 2475 MHz (both models)
- Maximum Frequency: 2650 MHz (both models)
Memory Specifications
- Memory Size: 12GB GDDR6X (both models)
- Memory Bus Width: 192-bit (both models)
- Memory Bandwidth: 336 GB/s (both models)
- Memory Clock Speed: 2000 MHz (both models)
Display Output Capabilities
Resolution Support
Both cards support a maximum resolution of 7680×4320 (8K), making them future-proof for high-resolution displays.
Connectivity Options
- DisplayPort: 3x DisplayPort 1.4a (both models)
- HDMI: 1x HDMI 2.1 (both models)
- Maximum Displays: 4 simultaneous displays (both models)
Power and System Requirements
Power Specifications
- TDP (Thermal Design Power): 115 watts (both models)
- Recommended Power Supply:
- AORUS Master: 700 watts
- AERO OC V2: 650 watts
PCI Express Interface
Both cards utilize PCI Express 4.0 interface, ensuring compatibility with modern motherboards and optimal data transfer rates.
Physical Design Differences
Form Factor and Dimensions
Card Dimensions
- AORUS Master:
- Length: 342 mm
- Width: 130 mm
- Height: 50.2 mm
- Slot Width: 2-slot design
- AERO OC V2:
- Length: 342 mm
- Width: 130 mm
- Height: 70.6 mm
- Slot Width: 2.56-slot design
Cooling Solution
Fan Configuration
Both models feature a triple-fan design for efficient heat dissipation, though the implementation and fan design may differ between the AORUS and AERO series.
Aesthetic Design
RGB Lighting
- AORUS Master: Features RGB lighting, supporting Gigabyte’s RGB Fusion 2.0 ecosystem for extensive customization options
- AERO OC V2: No RGB lighting, focusing on a clean, minimalist design aesthetic
Performance Analysis
Thermal Performance
Cooling Efficiency
The AERO OC V2’s thicker design (2.56-slot vs 2-slot) and greater height (70.6mm vs 50.2mm) suggest a potentially larger heatsink and cooling capacity, which could result in lower operating temperatures under sustained loads.
Noise Levels
Acoustic Performance
While both models feature triple-fan designs, the larger heatsink on the AERO OC V2 may allow the fans to operate at lower RPMs to achieve the same cooling performance, potentially resulting in quieter operation during intensive gaming sessions.
Factory Overclocking
Performance Potential
Despite sharing the same maximum frequency of 2650 MHz, the cooling solutions may impact sustained boost clocks and overclocking potential. The AERO OC V2’s larger cooling solution might provide more headroom for maintaining boost clocks for extended periods.
Use Case Recommendations
Gaming Focus
Optimal Gaming Scenarios
Both cards deliver exceptional performance at 1440p resolution with ray tracing enabled and will handle 4K gaming with DLSS assistance. For pure gaming performance, either card will provide nearly identical frame rates in most scenarios.
Content Creation
Professional Applications
For content creators using applications like Adobe Premiere, DaVinci Resolve, or 3D modeling software, both cards offer identical hardware acceleration capabilities. The choice between models would come down to thermal performance preferences and aesthetic considerations.
System Integration
Build Considerations
- AORUS Master: The 2-slot design and RGB lighting make it ideal for showcase builds with limited space between PCIe slots or systems where RGB synchronization with other components is desired.
- AERO OC V2: The thicker 2.56-slot design makes it better suited for systems with ample spacing between expansion slots. Its minimalist design without RGB fits professional workstations or builds with a subdued aesthetic.
Value Analysis
Price-to-Performance Ratio
Investment Considerations
Given the identical core specifications, any price difference between the models primarily reflects the cooling solution, aesthetic design, and brand positioning rather than fundamental performance capabilities.
Conclusion
Making the Right Choice
The Gigabyte AORUS GeForce RTX 4070 MASTER 12G and GeForce RTX 4070 AERO OC V2 12G share identical core specifications, ensuring equivalent raw performance. Your choice between these models should be based on:
- System Compatibility: Consider the physical space in your case, particularly if the 2.56-slot thickness of the AERO OC V2 might conflict with other components.
- Aesthetic Preference: The AORUS Master offers RGB lighting for those who prioritize customizable lighting in their build, while the AERO OC V2 provides a more subdued, professional appearance.
- Thermal Priority: The larger heatsink on the AERO OC V2 may provide better cooling performance and lower noise levels during extended gaming sessions.
- Power Supply Compatibility: Ensure your power supply meets the recommended wattage (700W for AORUS Master, 650W for AERO OC V2).
Both cards represent excellent implementations of the RTX 4070 GPU, with differences that cater to specific user preferences rather than fundamental performance disparities.