newNVIDIA GeForce RTX 4070 Desktop -vs- GeForce RTX 5070 Ti Laptop GPU
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Specs Comparison Between newNVIDIA GeForce RTX 4070 Desktop and GeForce RTX 5070 Ti Laptop GPU
Graphics Processor | ||
|---|---|---|
Image |  |  |
Name | newNVIDIA GeForce RTX 4070 Desktop | GeForce RTX 5070 Ti Laptop GPU |
Architecture?The underlying design and structure of the GPU, defining its features and performance characteristics. Architectures often have specific names (e.g., Ampere, RDNA 3). | Ada Lovelace | Blackwell |
Processor Size?The manufacturing process used to create the GPU, measured in nanometers (nm). Smaller processes typically result in more efficient and powerful GPUs. | 5 nm | 4 nm |
Transistors?The number of transistors within the GPU. More transistors generally indicate higher performance and more complex features. | 35800 Million | 31,100 million |
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. | 159 mm² | 263 mm² |
GPU Type?The specific model of the GPU, including platform-specific variants. For example, 'RTX 4070' can refer to both desktop and mobile versions, each with different performance characteristics. | Desktop | Laptop |
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. | 115 | 60 - 115 W |
Launch Date | 02/2025 | |
Clock Speed | ||
|---|---|---|
Base Clock?The standard operating speed of the GPU, measured in megahertz (MHz). It indicates the GPU's baseline performance level. | 1920MHz | 2235MHz |
Boost Clock?The maximum speed the GPU can reach under heavy load, measured in megahertz (MHz). It represents the GPU's peak performance capability. | 2475 MHz | 2520 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. | 3072 | 5888 |
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. | 80 | 184 |
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. | 32 | 64 |
RT Cores?Ray Tracing cores are specialized processing units within the GPU that accelerate ray tracing, a technique for creating realistic lighting and reflections. | 20 | 46 |
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. | 128 KB (per SM) | 128 KB(per SM) |
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. | 32 MB | 48 MB |
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. | 12 GB | 12 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. | GDDR6X | GDDR7 |
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. | 192 bit | 192 bit |
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. | 336 GB/S | 896 GB/s |
Memory Clock Speed?The speed at which the GPU's memory operates, measured in megahertz (MHz). Higher clock speeds result in faster memory access. | 2000 MHz | 2000 |
Perfomance | ||
|---|---|---|
Half Precison (FP16) | 11.61 TFLOPS (1:1) | 29.68 TFLOPS(1:1) |
Single Precison (FP32) | 8.986 TFLOPS | 29.68 TFLOPS |
Double Precison (FP64) | 140.4 GFLOPS (1:64) | 463.7 GFLOPS(1:64) |
Features | ||
|---|---|---|
DirectX?A set of Microsoft APIs that provide a standard interface for graphics and multimedia applications. Different versions of DirectX offer varying levels of features and performance. | 12.2 | 12.2 |
G-Sync/FreeSync?A technology developed by NVIDIA that synchronizes the GPU's refresh rate with the display's refresh rate, reducing 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. | 3.0 | 3 |
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. | 4.6 | 4.6 |
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. | 6.8 | 6.8 |
Vulkan?A low-overhead, cross-platform API for 3D graphics and computing. It offers improved performance and control compared to older APIs like OpenGL. | 1.3 | 1.4 |
Extra Technology | DLSS 3 (Super Resolution + Frame Generation), NVIDIA Reflex, PCI Express Gen 4, Resizable BAR, NVIDIA GPU Boost, Vulkan 4.6, 5th Generation NVIDIA Decoder, DirectX 12 Ultimate | DLSS 4 (Super Resolution + Frame Generation), NVIDIA Reflex, PCI Gen 5, Resizable BAR, NVIDIA GPU Boost, Vulkan 4.6, 5th Generation NVIDIA Decoder, DirectX 12 Ultimate |
Links | 140.4 GFLOPS (1:64) | 463.7 GFLOPS(1:64) |
Features | NVIDIA | NVIDIA |
Comparison Review of newNVIDIA GeForce RTX 4070 Desktop and GeForce RTX 5070 Ti Laptop GPU
Comparison of Graphics Processors: NVIDIA GeForce RTX 4070 Desktop vs RTX 5070 Ti Laptop
Overview
When it comes to high-performance GPUs, the NVIDIA GeForce RTX 4070 Desktop and RTX 5070 Ti Laptop stand out as cutting-edge choices in their respective domains. Let’s delve into their detailed specifications to understand their strengths and applications.
Architecture and Processor Details
- RTX 4070 Desktop
- Architecture: Ada Lovelace
- Processor Size: 5 nm
- Transistors: 35,800 million
- RTX 5070 Ti Laptop
- Architecture: Blackwell
- Processor Size: 5 nm
- Transistors: 31,100 million
The RTX 4070 Desktop features NVIDIA’s powerful Ada Lovelace architecture, while the RTX 5070 Ti Laptop incorporates the newer Blackwell architecture. Both GPUs utilize a 5 nm process, but the desktop variant boasts a higher transistor count.
Performance and Power
- RTX 4070 Desktop
- TDP: 115 watts
- Base Clock: 1920 MHz
- Boost Clock: 2475 MHz
- Shading Units: 3072
- RTX 5070 Ti Laptop
- TDP: 60 – 115 W
- Base Clock: 2235 MHz
- Boost Clock: 2520 MHz
- Shading Units: 5888
The laptop GPU offers higher clock speeds and significantly more shading units, making it well-suited for intensive tasks despite its variable power consumption.
Memory Specifications
- RTX 4070 Desktop
- Memory Size: 12 GB
- Memory Type: GDDR6X
- Memory Bus: 192 bit
- Bandwidth: 336 GB/s
- RTX 5070 Ti Laptop
- Memory Size: 12 GB
- Memory Type: GDDR7
- Memory Bus: 192 bit
- Bandwidth: 896 GB/s
The RTX 5070 Ti Laptop stands out with its GDDR7 memory and an impressive bandwidth of 896 GB/s, far surpassing the RTX 4070 Desktop’s 336 GB/s.
Additional Features
- RTX 4070 Desktop
- RT Cores: 20
- TMUs: 80
- ROPs: 32
- RTX 5070 Ti Laptop
- RT Cores: 46
- TMUs: 184
- ROPs: 64
The RTX 5070 Ti Laptop leads in additional features with nearly double the RT Cores and TMUs, offering enhanced ray tracing and texture mapping performance.
Applications and Use Cases
- RTX 4070 Desktop: A reliable GPU for desktop gaming and professional applications, offering solid performance and efficient power usage.
- RTX 5070 Ti Laptop: Tailored for laptop users, it delivers exceptional power efficiency and next-generation performance for demanding tasks like content creation and gaming.
Conclusion
Both GPUs excel in their respective domains. The RTX 4070 Desktop is an excellent choice for desktop builds requiring stability and power efficiency, while the RTX 5070 Ti Laptop offers cutting-edge features and remarkable performance for portable systems. The choice ultimately depends on the user’s requirements, such as mobility, power constraints, and the intended applications.