Yeston Sakura GeForce RTX 4070 Ti Super specifications and in-depth review

Yeston Sakura GeForce RTX 4070 Ti Super

Manufacturer: Yeston

The Yeston Sakura GeForce RTX 4070 Ti Super is a graphics card based on NVIDIA's Ada Lovelace architecture, occupying a 330 mm by 137 mm footprint and featuring RGB lighting alongside support for ray tracing, DLSS, stereoscopic 3D, and multi-display output. Fabricated on a 5 nm process with 45,900 million transistors, it connects via PCIe 4.0 and includes Intel Resizable BAR support for more efficient CPU-to-GPU memory access.

The card runs at a base clock of 2340 MHz with a boost frequency of 2670 MHz, delivering 45.11 TFLOPS of floating-point performance, a texture rate of 704.9 GTexels/s, and a pixel rate of 256.3 GPixel/s across 8,448 shading units, 264 TMUs, and 96 ROPs. Its 16 GB of GDDR6X VRAM sits on a 256-bit bus running at an effective 21,000 MHz, yielding up to 672.3 GB/s of bandwidth, with ECC memory support and DPFP capability also included. Display output covers one HDMI 2.1a port and three DisplayPort connections for up to four simultaneous monitors, while the card carries a rated TDP of 285W.

Pros
  • 16 GB of GDDR6X VRAM on a 256-bit bus offers substantial memory capacity for texture-heavy and memory-intensive rendering workloads
  • Ray tracing and DLSS are both natively supported, enabling compatibility with modern rendering pipelines in supported applications
  • ECC memory support provides error detection and correction, adding reliability for compute-oriented tasks where data integrity matters
  • Double Precision Floating Point (DPFP) support extends the card's usability beyond gaming to workloads requiring 64-bit numerical accuracy
  • Intel Resizable BAR is enabled, allowing the CPU to access the full VRAM pool simultaneously for improved data transfer efficiency
  • RGB lighting is present, offering visual customization options within the build
Cons
  • At 330 mm wide and 137 mm tall, the card has a larger physical footprint that may not fit in compact or mid-tower cases with limited clearance
  • A TDP of 285W places considerable demand on the system power supply, requiring careful power budget planning
  • No USB-C output is available, which restricts connectivity with displays and peripherals that rely on that interface
  • Multi-GPU configurations are not supported, limiting scalability for users who want to run multiple cards in tandem
  • Air-water hybrid cooling is absent, so users seeking integrated liquid cooling on the card itself will need to consider alternative solutions
Who is this for?

This card is well-matched to users who regularly work with ray tracing and DLSS-enabled applications, where hardware-level support for both features, combined with 45.11 TFLOPS of floating-point throughput, translates directly into practical rendering capability. The 16 GB of GDDR6X VRAM on a 256-bit bus makes it a solid fit for content creators and technical compute users handling large textures or memory-demanding scenes, especially those who benefit from ECC memory reliability. Users running multi-monitor setups of up to four displays will also find the output configuration — one HDMI 2.1a and three DisplayPort connections — well-suited to their needs.

Who is this NOT for?

At 330 mm wide and 137 mm tall, this card has a notably large physical footprint that makes it a poor fit for compact or small-form-factor builds where internal clearance is limited. The 285W TDP also means it is not well-suited to systems with modest power supplies, as the overhead required could strain underpowered configurations. Users who depend on USB-C display connectivity or require multi-GPU scalability will find neither option available on this model, limiting flexibility in specific display and compute setups.

Performance:

GPU clock speed 2340 MHz
GPU turbo 2670 MHz
pixel rate 256.3 GPixel/s
floating-point performance 45.11 TFLOPS
texture rate 704.9 GTexels/s
GPU memory speed 1313 MHz
shading units 8448
texture mapping units (TMUs) 264
render output units (ROPs) 96
Has Double Precision Floating Point (DPFP)

Clocked at 2340 MHz base and boosting up to 2670 MHz, the GPU drives a floating-point throughput of 45.11 TFLOPS and a texture rate of 704.9 GTexels/s through 8,448 shading units and 264 texture mapping units. The 96 render output units contribute to a pixel rate of 256.3 GPixel/s, while GPU memory operates at 1313 MHz. Double Precision Floating Point (DPFP) is supported, broadening the card's applicability to workloads that require 64-bit numerical precision.

Memory:

effective memory speed 21000 MHz
maximum memory bandwidth 672.3 GB/s
VRAM 16GB
GDDR version GDDR6X
memory bus width 256-bit
Supports ECC memory

The card features 16 GB of GDDR6X VRAM on a 256-bit memory bus, running at an effective speed of 21,000 MHz and providing a maximum memory bandwidth of 672.3 GB/s. ECC memory support is included, enabling error detection and correction for workloads where data accuracy during processing is a priority.

Features:

DirectX version DirectX 12 Ultimate
OpenGL version 4.6
OpenCL version 3
Supports multi-display technology
supports ray tracing
Supports 3D
supports DLSS
has XeSS (XMX)
AMD SAM / Intel Resizable BAR Intel Resizable BAR
has LHR
multi-GPU 0
has RGB lighting
supported displays 4

The card supports DirectX 12 Ultimate, OpenGL 4.6, and OpenCL 3, covering the main graphics and compute APIs in active use today. Ray tracing and DLSS are both natively supported, and stereoscopic 3D, multi-display technology, and RGB lighting are also present, with up to four displays supported simultaneously. Intel Resizable BAR is enabled for more efficient CPU-to-VRAM access, while XeSS (XMX), LHR, and multi-GPU configurations are not supported on this model.

Ports:

has an HDMI output
HDMI ports 1
HDMI version HDMI 2.1a
DisplayPort outputs 3
USB-C ports 0
DVI outputs 0
mini DisplayPort outputs 0

The card provides four display outputs through one HDMI 2.1a port and three DisplayPort connections. USB-C, DVI, and mini DisplayPort outputs are not included in this configuration.

General info:

GPU architecture Ada Lovelace
Thermal Design Power (TDP) 285W
PCI Express (PCIe) version 4
semiconductor size 5 nm
number of transistors 45900 million
Has air-water cooling
width 330 mm
height 137 mm

Founded on the Ada Lovelace architecture and built using a 5 nm manufacturing process, this card integrates 45,900 million transistors within a physical footprint of 330 mm wide and 137 mm tall. It connects via PCIe 4.0 and operates at a TDP of 285W, a figure that requires sufficient power supply capacity within the host system. Air-water hybrid cooling is not available, meaning thermal management depends entirely on the card's own cooling solution.

Final Verdict

The Yeston Sakura GeForce RTX 4070 Ti Super is a technically capable graphics card that brings together a strong compute profile and a well-rounded feature set within the Ada Lovelace generation. Its most defining attribute is the 16 GB of GDDR6X VRAM on a 256-bit bus, which, paired with ECC memory support and DPFP capability, gives it practical reach into both rendering and compute workloads beyond standard gaming use. The larger physical dimensions and 285W power requirement are real considerations that tie its suitability closely to full-size builds with adequate power headroom. For users who can accommodate those constraints, the Yeston Sakura RTX 4070 Ti Super delivers a complete feature set — including ray tracing, DLSS, Intel Resizable BAR, and four-display output — that holds up well across a range of modern graphics workloads.