MSI on Thursday published the first image of a new desktop motherboard that supports the innovative DDR5 compression attached memory module (CAMM2). DDR5 CAMM2 modules are designed to improve upon the SO-DIMM form factor used for laptops, alleviating some of the high-speed signaling and capacity limitations of SO-DIMMs while also shaving down on the volume of space required. And while we're eagerly awaiting to see CAMM2 show up in more laptops, its introduction in a PC motherboard comes as a bit of a surprise, since PCs aren't nearly as space-constrained.
MSI's Z790 Project Zero Plus motherboard, which supports Intel's latest 14th Generation Core processors, is to a large degree a proof-of-concept product that is showcasing several new technologies and atypical configuration options. Key among these, of course, is the CAMM2 connector. The single connector supports a 128-bit DDR5 memory bus, allowing for a system to be fully populated with RAM with just a single, horizontally-mounted CAMM2 module. And in terms of design, the Zero Plus also features backside power connectors for improved cable management.
CAMM2 is designed to replace traditional modules in an SO-DIMM form-factor and is meant to occupy up to 64% less space than two DDR5 SO-DIMMs. In addition, CAMM2 greatly optimizes signal and power traces inside the motherboard, primarily by ensuring all memory trace lengths are identical, reducing some of the signaling penalties that normally come from supporting multiple SO-DIMM slots in a system. With DDR5 being particularly sensitive here – to the point where 2 DIMM Per Channel (2DPC) configurations take a max frequency hit even on desktop systems – CAMM2 modules are expected to simplify and, to a degree, improve laptop designs to better match DDR5's limitations.
Though whether CAMM2 sees widespread adoption remains to be seen. Unlike it's LPDDR5X counterpart, LPCAMM2, DDR5 CAMM2 hasn't attracted the same interest from laptop vendors quite yet, in large part because it doesn't introduce any new functionality (e.g. socketed LPDDR5X).
Meanwhile CAMM2 in ATX desktops is all but unexplored right now, which is why we're seeing experimental products like MSI's motherboard. The space savings alone aren't as important in desktops due to their size – though CAMM2 does cut down on Z-height, keeping memory away from CPU coolers. But PC makers will be looking at other factors such as inventory, as equipping desktop boards with CAMM2 connectors would allow them to use the same memory modules in both laptops and desktops. And longer term there is the question of whether CAMM2 can deliver tangible signaling benefits over traditional DIMMs.
MSI plans to showcase its Z790 Project Zero Plus platform at Computex, alongside memory partner Kingston. The latter will be at the show to demonstrate its Fury Impact CAMM2 memory module, which is one of the first DDR5 CAMM2 modules to be announced.
MotherboardsDemand for high-performance processors for AI training is skyrocketing, and consequently so is the demand for the components that go into these processors. So much so that SK hynix this week is very publicly announcing that the company's high-bandwidth memory (HBM) production capacity has already sold out for the rest of 2024, and even most of 2025 has already sold out as well.
SK hynix currently produces various types of HBM memory for customers like Amazon, AMD, Facebook, Google (Broadcom), Intel, Microsoft, and, of course, NVIDIA. The latter is an especially prolific consumer of HBM3 and HBM3E memory for its H100/H200/GH200 accelerators, as NVIDIA is also working to fill what remains an insatiable (and unmet) demand for its accelerators.
As a result, HBM memory orders, which are already placed months in advance, are now backlogging well into 2025 as chip vendors look to secure supplies of the memory stacks critical to their success.
This has made SK hynix the secnd HBM memory vendor in recent months to announce that they've sold out into 2025, following an earlier announcement from Micron regarding its HBM3E production. But of the two announcements, SK hynix's is arguably the most significant yet, as the South Korean firm's HBM production capacity is far greater than Micron's. So while things were merely "interesting" with the smallest of the Big Three memory manufacturers being sold out into 2025, things are taking a more concerning (and constrained) outlook now that SK hynix is as well.
SK hynix currently controls roughly 46% - 49% of HBM market, and its share is not expected to drop significantly in 2025, according to market tracking firm TrendForce. By contrast, Micron's share on HBM memory market is between 4% and 6%. Since HBM supply of both companies is sold out through the most of 2025, we're likely looking at a scenario where over 50% of the industry's total HBM3/HBM3E supply for the coming quarters is already sold out.
This leaves Samsung as the only member of the group not to comment on HBM demand so far. Though with memory being a highly fungible commodity product, it would be surprising if Samsung wasn't facing similar demand. And, ultimately, all of this is pointing towards the indusry entering an HBM3 memory shortage.
Separately, SK hynix said that it is sampling 12-Hi 36GB HBM3E stacks with customers and will begin volume shipments in the third quarter.
MemoryDemand for high-performance processors for AI training is skyrocketing, and consequently so is the demand for the components that go into these processors. So much so that SK hynix this week is very publicly announcing that the company's high-bandwidth memory (HBM) production capacity has already sold out for the rest of 2024, and even most of 2025 has already sold out as well.
SK hynix currently produces various types of HBM memory for customers like Amazon, AMD, Facebook, Google (Broadcom), Intel, Microsoft, and, of course, NVIDIA. The latter is an especially prolific consumer of HBM3 and HBM3E memory for its H100/H200/GH200 accelerators, as NVIDIA is also working to fill what remains an insatiable (and unmet) demand for its accelerators.
As a result, HBM memory orders, which are already placed months in advance, are now backlogging well into 2025 as chip vendors look to secure supplies of the memory stacks critical to their success.
This has made SK hynix the secnd HBM memory vendor in recent months to announce that they've sold out into 2025, following an earlier announcement from Micron regarding its HBM3E production. But of the two announcements, SK hynix's is arguably the most significant yet, as the South Korean firm's HBM production capacity is far greater than Micron's. So while things were merely "interesting" with the smallest of the Big Three memory manufacturers being sold out into 2025, things are taking a more concerning (and constrained) outlook now that SK hynix is as well.
SK hynix currently controls roughly 46% - 49% of HBM market, and its share is not expected to drop significantly in 2025, according to market tracking firm TrendForce. By contrast, Micron's share on HBM memory market is between 4% and 6%. Since HBM supply of both companies is sold out through the most of 2025, we're likely looking at a scenario where over 50% of the industry's total HBM3/HBM3E supply for the coming quarters is already sold out.
This leaves Samsung as the only member of the group not to comment on HBM demand so far. Though with memory being a highly fungible commodity product, it would be surprising if Samsung wasn't facing similar demand. And, ultimately, all of this is pointing towards the indusry entering an HBM3 memory shortage.
Separately, SK hynix said that it is sampling 12-Hi 36GB HBM3E stacks with customers and will begin volume shipments in the third quarter.
MemoryDemand for high-performance processors for AI training is skyrocketing, and consequently so is the demand for the components that go into these processors. So much so that SK hynix this week is very publicly announcing that the company's high-bandwidth memory (HBM) production capacity has already sold out for the rest of 2024, and even most of 2025 has already sold out as well.
SK hynix currently produces various types of HBM memory for customers like Amazon, AMD, Facebook, Google (Broadcom), Intel, Microsoft, and, of course, NVIDIA. The latter is an especially prolific consumer of HBM3 and HBM3E memory for its H100/H200/GH200 accelerators, as NVIDIA is also working to fill what remains an insatiable (and unmet) demand for its accelerators.
As a result, HBM memory orders, which are already placed months in advance, are now backlogging well into 2025 as chip vendors look to secure supplies of the memory stacks critical to their success.
This has made SK hynix the secnd HBM memory vendor in recent months to announce that they've sold out into 2025, following an earlier announcement from Micron regarding its HBM3E production. But of the two announcements, SK hynix's is arguably the most significant yet, as the South Korean firm's HBM production capacity is far greater than Micron's. So while things were merely "interesting" with the smallest of the Big Three memory manufacturers being sold out into 2025, things are taking a more concerning (and constrained) outlook now that SK hynix is as well.
SK hynix currently controls roughly 46% - 49% of HBM market, and its share is not expected to drop significantly in 2025, according to market tracking firm TrendForce. By contrast, Micron's share on HBM memory market is between 4% and 6%. Since HBM supply of both companies is sold out through the most of 2025, we're likely looking at a scenario where over 50% of the industry's total HBM3/HBM3E supply for the coming quarters is already sold out.
This leaves Samsung as the only member of the group not to comment on HBM demand so far. Though with memory being a highly fungible commodity product, it would be surprising if Samsung wasn't facing similar demand. And, ultimately, all of this is pointing towards the indusry entering an HBM3 memory shortage.
Separately, SK hynix said that it is sampling 12-Hi 36GB HBM3E stacks with customers and will begin volume shipments in the third quarter.
Memory
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