Wednesday, April 17th 2024

NVIDIA Launches the RTX A400 and A1000 Professional Graphics Cards

AI integration across design and productivity applications is becoming the new standard, fueling demand for advanced computing performance. This means professionals and creatives will need to tap into increased compute power, regardless of the scale, complexity or scope of their projects. To meet this growing need, NVIDIA is expanding its RTX professional graphics offerings with two new NVIDIA Ampere architecture-based GPUs for desktops: the NVIDIA RTX A400 and NVIDIA RTX A1000.

They expand access to AI and ray tracing technology, equipping professionals with the tools they need to transform their daily workflows. The RTX A400 GPU introduces accelerated ray tracing and AI to the RTX 400 series GPUs. With 24 Tensor Cores for AI processing, it surpasses traditional CPU-based solutions, enabling professionals to run cutting-edge AI applications, such as intelligent chatbots and copilots, directly on their desktops. The GPU delivers real-time ray tracing, so creators can build vivid, physically accurate 3D renders that push the boundaries of creativity and realism.
The A400 also includes four display outputs, a first for its series. This makes it ideal for high-density display environments, which are critical for industries like financial services, command and control, retail, and transportation.

The NVIDIA RTX A1000 GPU brings Tensor Cores and RT Cores to the RTX 1000 series GPUs for the first time, unlocking accelerated AI and ray tracing performance for creatives and professionals.

With 72 Tensor Cores, the A1000 offers a tremendous upgrade over the previous generation, delivering over 3x faster generative AI processing for tools like Stable Diffusion. In addition, its 18 RT Cores speed graphics and rendering tasks by up to 3x, accelerating professional workflows such as 2D and 3D computer-aided design (CAD), product and architectural design, and 4K video editing.

The A1000 also excels in video processing, handling up to 38% more encode streams and offering 2x faster decode performance over the previous generation.

With a sleek, single-slot design and consuming just 50 W, the A400 and A1000 GPUs bring impressive features to compact, energy-efficient workstations.

Expanding the Reach of RTX
These new GPUs empower users with cutting-edge AI, graphics and compute capabilities to boost productivity and unlock creative possibilities. Advanced workflows involving ray-traced renders and AI are now within reach, allowing professionals to push the boundaries of their work and achieve stunning levels of realism.

Industrial planners can use ‌these new powerful and energy-efficient computing solutions for edge deployments. Creators can boost editing and rendering speeds to produce richer visual content. Architects and engineers can seamlessly transition ideas from 3D CAD concepts into tangible designs. Teams working in smart spaces can use the GPUs for real-time data processing, AI-enhanced security and digital signage management in space-constrained settings. And healthcare professionals can achieve quicker, more precise medical imaging analyses.

Financial professionals have always used expansive, high-resolution visual workspaces for more effective trading, analysis and data management. With the RTX A400 GPU supporting up to four 4K displays natively, financial services users can now achieve a high display density with fewer GPUs, streamlining their setups and reducing costs.

Next-Generation Features and Accelerated Performance
The NVIDIA RTX A400 and A1000 GPUs are equipped with features designed to supercharge everyday workflows, including:

Second-generation RT Cores: Real-time ray tracing, photorealistic, physically based rendering and visualization for all professional workflows, including architectural drafting, 3D design and content creation, where accurate lighting and shadow simulations can greatly enhance the quality of work.

Third-generation Tensor Cores: Accelerates AI-augmented tools and applications such as generative AI, image rendering denoising and deep learning super sampling to improve image generation speed and quality.

Ampere architecture-based CUDA cores: Up to 2x the single-precision floating point throughput of the previous generation for significant speedups in graphics and compute workloads.

4 GB or 8 GB of GPU memory: 4 GB of GPU memory with the A400 GPU and 8 GB with the A1000 GPU accommodate a range of professional needs, from basic graphic design and photo editing to more demanding 3D modeling with textures or high-resolution editing and data analyses. The GPUs also feature increased memory bandwidth over the previous generation for quicker data processing and smoother handling of larger datasets and scenes.

Encode and decode engines: With seventh-generation encode (NVENC) and fifth-generation decode (NVDEC) engines, the GPUs offer efficient video processing to support high-resolution video editing, streaming and playback with ultra-low latency. Inclusion of AV1 decode enables higher efficiency and smoother playback of more video formats.

Availability
The NVIDIA RTX A1000 GPU is now available through global distribution partners such as PNY and Ryoyo Electric. The RTX A400 GPU is expected to be available from channel partners starting in May, with anticipated availability from manufacturers in the summer.
Add your own comment

9 Comments on NVIDIA Launches the RTX A400 and A1000 Professional Graphics Cards

#1
Bwaze
Wait, Ampere? In almost mid-2024?

Does the Nvidia really predict such a rush for these "AI accelerators" that people, companies will rush to buy an old architecture gaming GPU, disquised as a proffesional graphics card? Because there will be a shortage of better offerings, and they're prepairing in advance?
Posted on Reply
#2
Selaya
finally single-slot

now i wonder, can those coolers be stripped & jerry-rigged to an A2000/AD4000SFF?
Posted on Reply
#3
PLAfiller
Selayafinally single-slot

now i wonder, can those coolers be stripped & jerry-rigged to an A2000/AD4000SFF?
Not sure, the two mods I've seen both required either copper whool or solid copper heatsink. This run-off-the mill aluminum won't cut I think.

Mod 1

Mod 2
Posted on Reply
#4
Vya Domus
BwazeDoes the Nvidia really predict such a rush for these "AI accelerators"
I don't know how usable these even are for ML, especially the 4GB one.
Posted on Reply
#5
Bwaze
Certainly more than integrated GPU that are now advertised as "Neural Processing Units" in "AI" desktop computers and laptops?
Posted on Reply
#6
bonehead123
I can tell you from my work experience that for any real "professional" uses, an 8GB card simply won't cut it....

Hell, our workflow was struggling even with 16GB cards, but our massive CAD renders & image manipulations are way faster now with our current 24GB ones :)
Posted on Reply
#7
Selaya
PLAfillerNot sure, the two mods I've seen both required either copper whool or solid copper heatsink. This run-off-the mill aluminum won't cut I think.

Mod 1

Mod 2
im aware of these mods
both the A400 and A1000 have 50w tdp, the A2000/AD4000SFF have 70w tdp, the fan will go more brr but it wouldnt be impossible to cool this. as long as the cooler is physicallly compatible, it should be good
Posted on Reply
#8
Nater
bonehead123I can tell you from my work experience that for any real "professional", uses, an 8GB card simply won't cut it....

Hell, our workflow was struggling even with 16GB cards, but our massive CAD renders & image manipulations way faster now with our current 24GB ones :)
I find I'm hurting bad w/ the A2000 6GB in SolidWorks Cam Pro. Mostly the simulation. It's a freaking slideshow at 4K. At home on my 1920x1200 & 1440 ultrawide it's not as bad.

Part of me wants to ditch the software entirely and goto Fusion360 instead of maturing into full fledged CamWorks. And get a modern DirectX card.
Posted on Reply
#9
cvaldes
BwazeWait, Ampere? In almost mid-2024?

Does the Nvidia really predict such a rush for these "AI accelerators" that people, companies will rush to buy an old architecture gaming GPU, disquised as a proffesional graphics card? Because there will be a shortage of better offerings, and they're prepairing in advance?
I doubt if Nvidia expects a "rush" [sic] for these cards. However they have offered similar products for years so they are probably aware of the likely demand for such.

It's worth pointing out that this is previous generation silicon, manufactured on an older node with little impact to current generation or upcoming products. These cards would likely fall into their Professional Visualization business unit which is quite small; as such it is unlikely that Nvidia would expect this to blow up into something enormous. (Their Data Center business now dwarfs all their own businesses including Gaming.)

A large part of the corporate market favors stability and reliability over the latest and greatest feature set. Deploying a proven architecture like Ampere is a more justifiable approach for many organizations.

These are very alien concepts to grasp for many readers here at TPU (and other tech news sites), especially those who have never worked in a corporate environment. But Nvidia isn't just catering to Joe Gamer, they also have senior IT managers at the GAO, FedEx and Ford Motors to satisfy.
Posted on Reply
Dec 22nd, 2024 04:32 EST change timezone

New Forum Posts

Popular Reviews

Controversial News Posts