Hynix Technology announces development of 3GB GDDR7 modules – potential increase in memory capacity might set stage for RTX 50 Series Super graphics cards boasting 24GB VRAM capabilities
In the world of technology, every new development brings excitement and anticipation. One such development is the upcoming release of higher-capacity GDDR7 memory modules by SK hynix. This innovative move is set to revolutionise the graphics card market, particularly in the context of Nvidia's anticipated RTX 50 Super series.
SK hynix is preparing to release GDDR7 memory modules with a maximum capacity of 24GB (3GB per module), later this year. This marks a significant leap from the current maximum capacity of 16GB (2GB per module). The increased capacity could potentially bring more powerful, efficient, and potentially more affordable high-VRAM GPUs, particularly benefiting Nvidia's RTX 50 Super cards by allowing increased VRAM capacities without added hardware complexity.
The introduction of these higher-capacity modules aligns with rumours about Nvidia's RTX 50 Super series incorporating 24GB and 18GB VRAM models. If Nvidia uses these modules, it would avoid the need to stack extra memory modules at the back of the PCB, a move that could help bring higher VRAM capacity to more affordable GPUs, not just flagship models.
The enhanced gaming and rendering performance of these high-VRAM GPUs is significant. Larger VRAM helps with running modern games at higher resolutions and enables better ray tracing performance, addressing the inadequacy of 8GB or 12GB VRAM in many current titles. Furthermore, AI-based generative tools and productivity applications benefit from increased video memory, aligning with the modules' initial targeting of AI GPUs.
SK hynix is also focusing on high-capacity storage solutions, specifically for AI and hyperscale workloads. The company is on track to release enterprise-grade 321-layer NAND SSDs in the second half of 2025. This move signifies a significant step towards high-capacity storage solutions, a necessity for the growing demands of AI and hyperscale workloads.
In addition to GDDR7 memory modules, SK hynix is also working on next-generation LPDDR memory modules for servers to enable energy-efficient AI inference in data center environments. The company is continuing to lead in High Bandwidth Memory (HBM), with high-volume production of 12-layer HBM3E alongside plans to introduce HBM4 later this year.
While the news article does not provide official confirmation about the use of SK hynix's memory modules in Nvidia's RTX 50 Super series, the potential ramifications are exciting. The move to use 3GB modules could help bring higher VRAM capacity to more affordable GPUs, not just flagship models, and potentially help reduce power, thermals, and cost in the production of 24GB cards.
In conclusion, the upcoming release of higher-capacity GDDR7 memory modules by SK hynix suggests that there might be bigger developments in the pipeline. The potential benefits for the graphics card market, particularly for Nvidia's RTX 50 Super series, are significant and could herald a new era of powerful, efficient, and affordable high-VRAM GPUs.
Technology and data-and-cloud-computing sectors stand to benefit significantly from SK hynix's upcoming release of GDDR7 memory modules, with their potential to enhance gaming performance and support AI-based generative tools. The increased capacity could potentially make high-VRAM GPUs more affordable, not just for flagship models.
In the realm of servers, SK hynix is also developing next-generation LPDDR memory modules to enable energy-efficient AI inference in data center environments, signifying a crucial advancement in high bandwidth memory technology.
