Keeping their tradition alive of launching a new graphics architecture every two years, this year, NVIDIA introduces its Ada Lovelace GPU. The Ada GPU is built upon the foundation set by Turing. NVIDIA terms the Ada Lovelace GPUs as a quantum leap over Ampere, and the GeForce RTX 4090 Founders Edition based on NVIDIA Ampere GPU excels at everything versus the previous gen.
The Ada GPU architecture has a lot to be talked about in this review, but so does the new RTX lineup. The Ada lineup offers faster shader performance, faster ray tracing performance, and faster AI performance. Built on a brand new process node and featuring an architecture designed from the ground up, Ada is a killer product with lots of numbers to talk about.
The fundamental of Ada was to take everything NVIDIA learned with its Turing & Ampere architectures and not only refine it but to use its DNA to form a product in a completely new performance category. Tall claims were made by NVIDIA when they introduced its Ada lineup last month with up to 4x performance claims & we will be finding out whether NVIDIA hit all the ticks with its Ada architecture as this review will be your guiding path to see what makes Ada and how it performs against its predecessors.
Today, we will be taking a look at the Colorful iGame GeForce RTX 4090 Vulcan OC-V. The graphics card was provided by Colorful for the sole purpose of this review & we will be taking a look at their technology, design, and performance metrics in detail.
NVIDIA GeForce RTX 40 Series Gaming Graphics Cards – The Biggest GPU Performance Leap in Recent History
Turing wasn’t just any graphics core, it was the graphics core that was to become the foundation of future GPUs. The future is realized now with next-generation consoles going deep in talks about ray tracing and AI-assisted super-sampling techniques. NVIDIA had a head start with Turing & Ampere and its Ada generation will only do things infinitely times better.
The Ada GPU does many traditional things which we would expect from a GPU, but at the same time, also breaks the barrier when it comes to untraditional GPU operations. Just to sum up some features:
New Streaming Multiprocessor (SM)
New 4th Gen Tensor Cores
New Real-Time Ray Tracing Acceleration
New Shading Enhancements
New Deep Learning Features For Graphics & Inference
New GDDR6X High-Performance Memory Subsystem
New HDMI 2.1 Display Engine & Next-Gen NVENC/NVDEC
The technologies mentioned above are some of the main building blocks of the Ada GPU, but there’s more within the graphics core itself which we will talk about in detail so let’s get started.