NVIDIA AD102 GPUs Powering Next-Gen GeForce RTX 40 Series Rumored To Stick With PCIe Gen 4.0 Protocol

NVIDIA’s GeForce RTX 40 series graphics cards based on the Ada Lovelace GPU architecture are expected to retain their existing PCIe Gen 4.0 compliance as reported by Kopite7kimi.

NVIDIA GeForce RTX 40 ‘AD102 GPU’ Graphics Cards To Retain PCIe Gen 4.0 Compliancy

NVIDIA will be launching its GeForce RTX 40 series graphics cards based on the brand new Ada Lovelace GPU architecture later this year. The specifications and specific configurations for the graphics card lineup have already been leaked but the design of the card themselves is a more interesting aspect.

NVIDIA AD102 GPU Flagships To Consume Insane Amounts of Power: Gaming GeForce RTX 4090 at 600W TBP & Workstation RTX L6000 at 375W TBP

So far, we know that the NVIDIA GeForce RTX 40 series graphics cards will adopt the new ATX 3.0 compliant 12PVHPWR 16-pin connector which allows for up to 600W of power draw through a new PCIe Gen 5 power connector interface. This power connector has already been featured on the GeForce RTX 3090 Ti graphics card and currently allows for up to 450W of power draw through a triple 8-pin adapter. But there’s another aspect to allow the full PCIe Gen 5.0 compliance and that’s the interface connector itself.

Currently, modern graphics cards communicate to the CPU through the PCIe Gen 4.0 protocol. The PCIe Gen 4.0 protocol allows for 64 GB / s of total and 32 GB / s of bi-directional bandwidth. But the latest platforms from Intel and AMD support the brand new PCIe Gen 5.0 interface protocol. This new standard allows for up to 128 GB / s of total and 64 GB / s of bi-directional bandwidth. This will essentially double the bandwidth but it looks like upcoming graphics cards or at least the high-end GeForce RTX 40 graphics cards based on the AD102 GPU won’t feature PCIe Gen 5.0 interface just yet.

Based on a tweet from Kopite7kimi, the upcoming GeForce RTX 40 lineup will retain the PCIe Gen 4.0 protocol which is a bold move by NVIDIA for not hopping on the next-gen standard even though they are doing so in the HPC segment where their Hopper GPU will be amongst the first to utilize the new protocol. Now it makes sense that the HPC lineup features it because servers require a lot of bandwidth and the Gen 5.0 protocol will help those environments. As for consumers, the PCIe Gen 5.0 interface is just too much bandwidth and current GPUs are yet to fully stature the PCIe Gen 4.0 interface.

NVIDIA Allegedly Begins Testing Its Fastest Next-Gen GPU, The AD102, For GeForce RTX 4090 Graphics Card, Features 24 Gbps GDDR6X Memory

Now having PCIe Gen 4.0 bodes well for the entry-level lineup which doesn’t need to worry about bottlenecks if they are equipped with lower lanes as was the case with the Radeon RX 6500 and RX 6400 series which when switching over to Gen 3 standard end up with less than required graphics bandwidth, leading to poor performance versus as PCIe Gen 4.0 compliant standard. If the high-end lineup isn’t starving the Gen 4.0 standard, then the low-end lineup is far from hitting the max threshold. So far, we can’t say for sure if NVIDIA will truly retain PCIe Gen 4.0 on its upcoming RTX 40 series cards but that could change as marketing does like having the PCIe Gen 5.0 logo for the new cards.

Aside from the PCIe Gen 5.0 and PCIe Gen 4.0 support, NVIDIA is also seemingly going to make major changes to the way its CUDA cores are arranged within the Ada Lovelace architecture. The GPUs for the GeForce RTX 40 series will not just be a simple CUDA core bump from Ampere but could include a range of new mixed-precision cores that aren’t detailed yet. The lineup is still a few months away from introduction so a lot could change but we will make sure to keep you updated.

NVIDIA CUDA GPU (RUMORED) Preliminary:

GPU TU102 GA102 AD102
Flagship SKU RTX 2080 Ti RTX 3090 Ti RTX 4090?
Architecture Turing Ampere Ada Lovelace
Processor TSMC 12nm NFF Samsung 8nm TSMC 5nm
Die Size 754mm2 628mm2 ~ 600mm2
Graphics Processing Clusters (GPC) 6 7 12
Texture Processing Clusters (TPC) 36 42 72
Streaming Multiprocessors (SM) 72 84 144
CUDA Colors 4608 10752 18432
L2 Cache 6 MB 6 MB 96 MB
Theoretical TFLOPs 16 TFLOPs 40 TFLOPs ~ 90 TFLOPs?
Memory Type GDDR6 GDDR6X GDDR6X
Memory Capacity 11 GB (2080 Ti) 24 GB (3090 Ti) 24 GB (4090?)
Memory Speed 14 Gbps 21 Gbps 24 Gbps?
Memory Bandwidth 616 GB / s 1,008 GB / s 1152 GB / s?
Memory Bus 384-bit 384-bit 384-bit
PCIe Interface PCIe Gen 3.0 PCIe Gen 4.0 PCIe Gen 4.0
TGP 250W 350W 600W?
Release September 2018 Septum. 20 2H 2022 (TBC)

News Source: Videocardz

Leave a Comment

%d bloggers like this: