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[News] Heated Competition Driven by the Booming AI Market: A Quick Glance at HBM Giants’ Latest Moves, and What’s Next
To capture the booming demand of AI processors, memory heavyweights have been aggressively expanding HBM (High Bandwidth Memory) capacity, as well as striving to improve its yield and competitiveness. The latest development would be Micron’s reported new plant in Hiroshima Prefecture, Japan.
The fab, targeting to produce chips and HBM as early as 2027, is reported to manufacture DRAM with the most advanced “1γ” (gamma; 11-12 nanometers) process, using extreme ultraviolet (EUV) lithography equipment in the meantime.
Why is HBM such a hot topic, and why is it so important?
HBM: Solution to High Performance Computing; Perfectly Fitted for AI Chips
By applying 3D stacking technology, which enables multiple layers of chips to be stacked on top of each other, HBM’s TSVs (through-silicon vias) process allows for more memory chips to be packed into a smaller space, thus shortening the distance data needs to travel. This makes HBM perfectly fitted to high-performance computing applications, which requires fast data speed. Additionally, replacing GDDR SDRAM or DDR SDRAM with HBM will help control energy consumption.
Thus, it would not be surprising that AMD, the GPU heavyweight, collaborated with memory leader SK hynix to develop HBM in 2013. In 2015, AMD launched the world’s first high-end consumer GPU with HBM, named Fiji. While in 2016, NVIDIA introduced P100, its first AI server GPU with HBM.
Entering the Era of HBM3e
Years after the first AI server GPU with HBM was launched, NVIDIA has now incorporated HBM3e (the 5th generation HBM) in its Blackwell B100/ Hopper H200 models. The GPU giant’s GB200 and B100, which will also adopt HBM3e, are on the way, expected to be launched in 2H24.
The current HBM3 supply for NVIDIA’s H100 is primarily met by SK hynix. In March, it has reportedly started mass production of HBM3e, and secured the order to NVIDIA. In May, yield details regarding HBM3e have been revealed for the first time. According to Financial Times, SK hynix has achieved the target yield of nearly 80%.
On the other hand, Samsung made it into NVIDIA’s supply chain with its 1Znm HBM3 products in late 2023, while received AMD MI300 certification by 1Q24. In March, Korean media Alphabiz reported that Samsung may exclusively supply its 12-layer HBM3e to NVIDIA as early as September. However, rumors have it that it failed the test with NVIDIA, though Samsung denied the claims, noting that testing proceeds smoothly and as planned.
According to Korea Joongang Daily, Micron has roused itself to catch up in the heated competition of HBM3e. Following the mass production in February, it has recently secured an order from NVIDIA for H200.
Regarding the demand, TrendForce notes that HBM3e may become the market mainstream for 2024, which is expected to account for 35% of advanced process wafer input by the end of 2024.
HBM4 Coming Soon? Major Players Gear up for Rising Demand
As for the higher-spec HBM4, TrendForce expects its potential launch in 2026. With the push for higher computational performance, HBM4 is set to expand from the current 12-layer (12hi) to 16-layer (16hi) stacks. HBM4 12hi products are set for a 2026 launch, with 16hi in 2027.
The Big Three have all revealed product roadmaps for HBM4. SK hynix, according to reports from Wccftech and TheElec, stated to commence large-scale production of HBM4 in 2026. The chip will, reportedly, be the first chip from SK hynix made through its 10-nm class Gen 6 (1c) DRAM.
As the current market leader in HBM, SK hynix shows its ambition in capacity expansion as well as industrial collaboration. According to Nikkei News, it is considering expanding the investment to Japan and the US to increase HBM production and meet customer demand.
In April, it disclosed details regarding the collaboration with TSMC, of which SK hynix plans to adopt TSMC’s advanced logic process (possibly CoWoS) for HBM4’s base die so additional functionality can be packed into limited space.
Samsung, on the other hand, claimed to introduce HBM4 in 2025, according to Korea Economic Daily. The memory heavyweight stated at CES 2024 that its HBM chip production volume will increase 2.5 times compared to last year and is projected to double again next year. In order to embrace the booming demands, the company spent KRW 10.5 billion to acquire the plant and equipment of Samsung Display located in Tianan City, South Korea, for HBM capacity expansion. It also plans to invest KRW 700 billion to 1 trillion in building new packaging lines.
Meanwhile, Micron anticipates launching 12-layer and 16-layer HBM4 with capacities of 36GB to 48GB between 2026 and 2027. After 2028, HBM4e will be introduced, pushing the maximum bandwidth beyond 2+ TB/s and increasing stack capacity to 48GB to 64GB.
Look back at history. As the market demand for AI chips keeps its momentum, GPU companies tend to diversify their sources, while memory giants vie for their favor by improving yields and product competitiveness.
In the era of HBM3, the supply for NVIDIA’s H100 solution is primarily met by SK hynix at first. Afterwards, Samsung’s entry into NVIDIA’s supply chain with its 1Znm HBM3 products in late 2023, though initially minor, signifies its breakthrough in this segment. This trend of diversifying suppliers may continue in HBM4. Who would be able to claim the lion’s share in the next-gen HBM market? Time will tell sooner or later.
Read more
- [News] Micron Reportedly Set to Build New DRAM Plant in Hiroshima, Japan, Operational Expected by End of 2027
- [News] Overview of Expansion Plans by HBM Giants
(Photo credit: Samsung)
