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Galax GeForce RTX 5060 Ti Fire Max 16GB specifications and in-depth review

Galax GeForce RTX 5060 Ti Fire Max 16GB

Manufacturer: Galax

The Galax GeForce RTX 5060 Ti Fire Max 16GB is a graphics card based on NVIDIA's Blackwell architecture, manufactured on a 5 nm process with 21,900 million transistors. It ships with 16GB of GDDR7 video memory across a 128-bit bus, delivering an effective memory speed of 28,000 MHz and a peak bandwidth of 448 GB/s. The card includes RGB lighting and supports up to four displays simultaneously.

On the performance side, the GPU runs at a base clock of 2,407 MHz with a boost up to 2,572 MHz, producing 23.7 TFLOPS of floating-point throughput alongside a texture rate of 370.4 GTexels/s. Its 4,608 shading units are paired with 144 TMUs and 48 ROPs. Feature support includes DirectX 12 Ultimate, OpenGL 4.6, OpenCL 3, ray tracing, DLSS, and Intel Resizable BAR. Connectivity is handled through one HDMI 2.1b port and three DisplayPort outputs, with the card drawing 180W via a PCIe 5 interface.

Pros
  • Comes with 16GB of GDDR7 VRAM, which is a substantial amount for this card class
  • Effective memory speed of 28,000 MHz paired with 448 GB/s bandwidth enables fast data throughput
  • Supports ray tracing and DLSS, covering modern rendering and upscaling workloads
  • Can drive up to four displays simultaneously via one HDMI 2.1b and three DisplayPort outputs
  • ECC memory support adds data integrity for compute-sensitive tasks
  • RGB lighting is included for those who want a visually customizable build
Cons
  • The 128-bit memory bus width is relatively narrow and may limit memory throughput scaling
  • Does not include air-water cooling, so thermal management relies entirely on the bundled air solution
  • No USB-C video output is available
  • At 313.5 mm in length, the card may not fit in more compact cases
Who is this for?

This card is a solid fit for users who want to run ray tracing and DLSS-enabled workloads without worrying about VRAM headroom, thanks to its 16GB of GDDR7 memory. The four-display output support — covering one HDMI 2.1b and three DisplayPort connections — makes it well suited for multi-monitor desktop setups. Users who need ECC memory support for compute and content creation tasks alongside gaming will also find the feature set accommodating, and the 23.7 TFLOPS of floating-point throughput provides meaningful headroom for demanding rendering pipelines.

Who is this NOT for?

Users targeting high-bandwidth memory scenarios may find the 128-bit bus width a limiting factor, as it constrains total throughput potential despite the fast GDDR7 memory. Those building in small form factor or compact cases should be cautious, since the card's 313.5 mm length may present clearance issues. Additionally, users who require USB-C video output — such as those connecting to certain monitors or portable displays — will need to look elsewhere, as no such port is available on this card.

Performance:

GPU clock speed 2407 MHz
GPU turbo 2572 MHz
pixel rate 123.5 GPixel/s
floating-point performance 23.7 TFLOPS
texture rate 370.4 GTexels/s
GPU memory speed 1750 MHz
shading units 4608
texture mapping units (TMUs) 144
render output units (ROPs) 48
Has Double Precision Floating Point (DPFP)

The GPU operates at a base clock of 2,407 MHz, boosting up to 2,572 MHz, and delivers 23.7 TFLOPS of floating-point performance alongside a texture rate of 370.4 GTexels/s and a pixel rate of 123.5 GPixel/s. Underpinning these figures are 4,608 shading units, 144 texture mapping units, and 48 render output units, with the GPU memory running at 1,750 MHz. The card also supports Double Precision Floating Point (DPFP), rounding out a solid set of compute-oriented capabilities.

Memory:

effective memory speed 28000 MHz
maximum memory bandwidth 448 GB/s
VRAM 16GB
GDDR version GDDR7
memory bus width 128-bit
Supports ECC memory

The card is equipped with 16GB of GDDR7 VRAM running across a 128-bit memory bus, achieving an effective memory speed of 28,000 MHz and a maximum memory bandwidth of 448 GB/s. ECC memory support is also included, adding a layer of data integrity for workloads where memory accuracy matters.

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
has RGB lighting
supported displays 4

The card supports DirectX 12 Ultimate, OpenGL 4.6, and OpenCL 3, covering a broad range of graphics and compute workloads. Ray tracing and DLSS are both supported, while XeSS (XMX) is not. Multi-display technology is available with support for up to four simultaneous displays, and stereoscopic 3D is also included. Intel Resizable BAR is supported, whereas LHR is not present. The card rounds out its feature set with RGB lighting.

Ports:

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

The card offers a total of four video outputs: one HDMI 2.1b port and three DisplayPort outputs. There are no USB-C, DVI, or mini DisplayPort connections included.

General info:

GPU architecture Blackwell
Thermal Design Power (TDP) 180W
PCI Express (PCIe) version 5
semiconductor size 5 nm
number of transistors 21900 million
Has air-water cooling
width 313.5 mm
height 134.5 mm

Built on the Blackwell architecture using a 5 nm manufacturing process, the GPU integrates 21,900 million transistors and connects via a PCIe 5 interface. It carries a Thermal Design Power of 180W and does not include air-water cooling. The card measures 313.5 mm in width and 134.5 mm in height.

Final Verdict

The Galax GeForce RTX 5060 Ti Fire Max 16GB presents a well-rounded specification sheet for its category, anchored by 16GB of GDDR7 memory with a 448 GB/s bandwidth ceiling and a feature set that covers ray tracing, DLSS, and multi-display output up to four screens. Built on the Blackwell architecture at 5 nm, it delivers 23.7 TFLOPS of floating-point performance alongside ECC memory support, giving it credibility beyond purely gaming-focused use. The 128-bit bus width and absence of air-water cooling or USB-C output are real constraints that narrow its appeal in certain scenarios, but for users who need a capable, feature-complete card with generous VRAM for demanding rendering and compute workloads, the Fire Max 16GB makes a coherent and purposeful choice.