MSI Teases Z790 Project Zero Plus Motherboard With CAMM2 Memory Support
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.
Motherboards
Posted by The Techinical Support
Intel Sells Its Arm Shares, Reduces Stakes in Other Companies
Intel has divested its entire stake in Arm Holdings during the second quarter, raising approximately $147 million. Alongside this, Intel sold its stake in cybersecurity firm ZeroFox and reduced its holdings in Astera Labs, all as part of a broader effort to manage costs and recover cash amid significant financial challenges.
The sale of Intel's 1.18 million shares in Arm Holdings, as reported in a recent SEC filing, comes at a time when the company is struggling with substantial financial losses. Despite the $147 million generated from the sale, Intel reported a $120 million net loss on its equity investments for the quarter, which is a part of a larger $1.6 billion loss that Intel faced during this period.
In addition to selling its stake in Arm, Intel also exited its investment in ZeroFox and reduced its involvement with Astera Labs, a company known for developing connectivity platforms for enterprise hardware. These moves are in line with Intel's strategy to reduce costs and stabilize its financial position as it faces ongoing market challenges.
Despite the divestment, Intel's past investment in Arm was likely driven by strategic considerations. Arm Holdings is a significant force in the semiconductor industry, with its designs powering most mobile devices, and, for obvious reasons, Intel would like to address these. Intel and Arm are also collaborating on datacenter platforms tailored for Intel's 18A process technology. Additionally, Arm might view Intel as a potential licensee for its technologies and a valuable partner for other companies that license Arm's designs.
Intel's investment in Astera Labs was also a strategic one as the company probably wanted to secure steady supply of smart retimers, smart cable modems, and CXL memory controller, which are used in volumes in datacenters and Intel is certainly interested in selling as many datacenter CPUs as possible.
Intel's financial struggles were highlighted earlier this month when the company released a disappointing earnings report, which led to a 33% drop in its stock value, erasing billions of dollars of capitalization. To counter these difficulties, Intel announced plans to cut 15,000 jobs and implement other expense reductions. The company has also suspended its dividend, signaling the depth of its efforts to conserve cash and focus on recovery. When it comes to divestment of Arm stock, the need for immediate financial stabilization has presumably taken precedence, leading to the decision.
CPUs
Intel Sells Its Arm Shares, Reduces Stakes in Other Companies
Intel has divested its entire stake in Arm Holdings during the second quarter, raising approximately $147 million. Alongside this, Intel sold its stake in cybersecurity firm ZeroFox and reduced its holdings in Astera Labs, all as part of a broader effort to manage costs and recover cash amid significant financial challenges.
The sale of Intel's 1.18 million shares in Arm Holdings, as reported in a recent SEC filing, comes at a time when the company is struggling with substantial financial losses. Despite the $147 million generated from the sale, Intel reported a $120 million net loss on its equity investments for the quarter, which is a part of a larger $1.6 billion loss that Intel faced during this period.
In addition to selling its stake in Arm, Intel also exited its investment in ZeroFox and reduced its involvement with Astera Labs, a company known for developing connectivity platforms for enterprise hardware. These moves are in line with Intel's strategy to reduce costs and stabilize its financial position as it faces ongoing market challenges.
Despite the divestment, Intel's past investment in Arm was likely driven by strategic considerations. Arm Holdings is a significant force in the semiconductor industry, with its designs powering most mobile devices, and, for obvious reasons, Intel would like to address these. Intel and Arm are also collaborating on datacenter platforms tailored for Intel's 18A process technology. Additionally, Arm might view Intel as a potential licensee for its technologies and a valuable partner for other companies that license Arm's designs.
Intel's investment in Astera Labs was also a strategic one as the company probably wanted to secure steady supply of smart retimers, smart cable modems, and CXL memory controller, which are used in volumes in datacenters and Intel is certainly interested in selling as many datacenter CPUs as possible.
Intel's financial struggles were highlighted earlier this month when the company released a disappointing earnings report, which led to a 33% drop in its stock value, erasing billions of dollars of capitalization. To counter these difficulties, Intel announced plans to cut 15,000 jobs and implement other expense reductions. The company has also suspended its dividend, signaling the depth of its efforts to conserve cash and focus on recovery. When it comes to divestment of Arm stock, the need for immediate financial stabilization has presumably taken precedence, leading to the decision.
CPUs
Silicon Motion Demonstrates Flexible Data Placement on MonTitan Gen 5 Enterprise SSD Platform
![](https://twitter.com/share?url=https://compbuddey.blogspot.com/2024/05/msi-teases-z790-project-zero-plus_80.html&text=MSI Teases Z790 Project Zero Plus Motherboard With CAMM2 Memory Support <p align="center"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img src="https://images.anandtech.com/doci/21410/msi-camm2-678_575px.jpg" alt="" /></a></p><p><p>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.</p>
<p>MSI's Z790 Project Zero Plus motherboard, which supports Intel's latest 14<sup>th</sup> 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.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img alt="" src="https://images.anandtech.com/doci/21410/msi-camm2_575px.jpg" /></a></p>
<p>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.</p>
<p>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).</p>
<p>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.</p>
<p>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.</p>
</p> Motherboards){kind=link}
![](https://www.pinterest.com/pin/create/button/?url=https://compbuddey.blogspot.com/2024/05/msi-teases-z790-project-zero-plus_80.html&media=https://lh3.googleusercontent.com/blogger_img_proxy/AEn0k_u3f94Jq65wJBtHCEguRBXteEWdSK8XMd8r5h76lR-CW-NnnGFYEW1GIRxXSiknX1F9ElTJaxOFnLpUXF_XjeZFSCURHRj9Bn8FfQ6gitEEJJhBN-ANVjyXXiBy99a6mMWR&description=MSI Teases Z790 Project Zero Plus Motherboard With CAMM2 Memory Support <p align="center"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img src="https://images.anandtech.com/doci/21410/msi-camm2-678_575px.jpg" alt="" /></a></p><p><p>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.</p>
<p>MSI's Z790 Project Zero Plus motherboard, which supports Intel's latest 14<sup>th</sup> 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.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img alt="" src="https://images.anandtech.com/doci/21410/msi-camm2_575px.jpg" /></a></p>
<p>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.</p>
<p>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).</p>
<p>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.</p>
<p>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.</p>
</p> Motherboards){kind=link}
![](https://web.whatsapp.com/send?text=MSI Teases Z790 Project Zero Plus Motherboard With CAMM2 Memory Support <p align="center"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img src="https://images.anandtech.com/doci/21410/msi-camm2-678_575px.jpg" alt="" /></a></p><p><p>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.</p>
<p>MSI's Z790 Project Zero Plus motherboard, which supports Intel's latest 14<sup>th</sup> 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.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img alt="" src="https://images.anandtech.com/doci/21410/msi-camm2_575px.jpg" /></a></p>
<p>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.</p>
<p>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).</p>
<p>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.</p>
<p>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.</p>
</p> Motherboards | https://compbuddey.blogspot.com/2024/05/msi-teases-z790-project-zero-plus_80.html){kind=link}
![](mailto:?subject=MSI Teases Z790 Project Zero Plus Motherboard With CAMM2 Memory Support <p align="center"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img src="https://images.anandtech.com/doci/21410/msi-camm2-678_575px.jpg" alt="" /></a></p><p><p>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.</p>
<p>MSI's Z790 Project Zero Plus motherboard, which supports Intel's latest 14<sup>th</sup> 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.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21410/msi-teases-z790-project-zero-plus-motherboard-camm2-memory-support"><img alt="" src="https://images.anandtech.com/doci/21410/msi-camm2_575px.jpg" /></a></p>
<p>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.</p>
<p>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).</p>
<p>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.</p>
<p>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.</p>
</p> Motherboards&body=https://compbuddey.blogspot.com/2024/05/msi-teases-z790-project-zero-plus_80.html){kind=link}
At FMS 2024, the technological requirements from the storage and memory subsystem took center stage. Both SSD and controller vendors had various demonstrations touting their suitability for different stages of the AI data pipeline - ingestion, preparation, training, checkpointing, and inference. Vendors like Solidigm have different types of SSDs optimized for different stages of the pipeline. At the same time, controller vendors have taken advantage of one of the features introduced recently in the NVM Express standard - Flexible Data Placement (FDP).
FDP involves the host providing information / hints about the areas where the controller could place the incoming write data in order to reduce the write amplification. These hints are generated based on specific block sizes advertised by the device. The feature is completely backwards-compatible, with non-FDP hosts working just as before with FDP-enabled SSDs, and vice-versa.
Silicon Motion's MonTitan Gen 5 Enterprise SSD Platform was announced back in 2022. Since then, Silicon Motion has been touting the flexibility of the platform, allowing its customers to incorporate their own features as part of the customization process. This approach is common in the enterprise space, as we have seen with Marvell's Bravera SC5 SSD controller in the DapuStor SSDs and Microchip's Flashtec controllers in the Longsys FORESEE enterprise SSDs.
At FMS 2024, the company was demonstrating the advantages of flexible data placement by allowing a single QLC SSD based on their MonTitan platform to take part in different stages of the AI data pipeline while maintaining the required quality of service (minimum bandwidth) for each process. The company even has a trademarked name (PerformaShape) for the firmware feature in the controller that allows the isolation of different concurrent SSD accesses (from different stages in the AI data pipeline) to guarantee this QoS. Silicon Motion claims that this scheme will enable its customers to get the maximum write performance possible from QLC SSDs without negatively impacting the performance of other types of accesses.
Silicon Motion and Phison have market leadership in the client SSD controller market with similar approaches. However, their enterprise SSD controller marketing couldn't be more different. While Phison has gone in for a turnkey solution with their Gen 5 SSD platform (to the extent of not adopting the white label route for this generation, and instead opting to get the SSDs qualified with different cloud service providers themselves), Silicon Motion is opting for a different approach. The flexibility and customization possibilities can make platforms like the MonTitan appeal to flash array vendors.
Storage
Intel Sells Its Arm Shares, Reduces Stakes in Other Companies
Intel has divested its entire stake in Arm Holdings during the second quarter, raising approximately $147 million. Alongside this, Intel sold its stake in cybersecurity firm ZeroFox and reduced its holdings in Astera Labs, all as part of a broader effort to manage costs and recover cash amid significant financial challenges.
The sale of Intel's 1.18 million shares in Arm Holdings, as reported in a recent SEC filing, comes at a time when the company is struggling with substantial financial losses. Despite the $147 million generated from the sale, Intel reported a $120 million net loss on its equity investments for the quarter, which is a part of a larger $1.6 billion loss that Intel faced during this period.
In addition to selling its stake in Arm, Intel also exited its investment in ZeroFox and reduced its involvement with Astera Labs, a company known for developing connectivity platforms for enterprise hardware. These moves are in line with Intel's strategy to reduce costs and stabilize its financial position as it faces ongoing market challenges.
Despite the divestment, Intel's past investment in Arm was likely driven by strategic considerations. Arm Holdings is a significant force in the semiconductor industry, with its designs powering most mobile devices, and, for obvious reasons, Intel would like to address these. Intel and Arm are also collaborating on datacenter platforms tailored for Intel's 18A process technology. Additionally, Arm might view Intel as a potential licensee for its technologies and a valuable partner for other companies that license Arm's designs.
Intel's investment in Astera Labs was also a strategic one as the company probably wanted to secure steady supply of smart retimers, smart cable modems, and CXL memory controller, which are used in volumes in datacenters and Intel is certainly interested in selling as many datacenter CPUs as possible.
Intel's financial struggles were highlighted earlier this month when the company released a disappointing earnings report, which led to a 33% drop in its stock value, erasing billions of dollars of capitalization. To counter these difficulties, Intel announced plans to cut 15,000 jobs and implement other expense reductions. The company has also suspended its dividend, signaling the depth of its efforts to conserve cash and focus on recovery. When it comes to divestment of Arm stock, the need for immediate financial stabilization has presumably taken precedence, leading to the decision.
CPUs
Intel Sells Its Arm Shares, Reduces Stakes in Other Companies
Intel has divested its entire stake in Arm Holdings during the second quarter, raising approximately $147 million. Alongside this, Intel sold its stake in cybersecurity firm ZeroFox and reduced its holdings in Astera Labs, all as part of a broader effort to manage costs and recover cash amid significant financial challenges.
The sale of Intel's 1.18 million shares in Arm Holdings, as reported in a recent SEC filing, comes at a time when the company is struggling with substantial financial losses. Despite the $147 million generated from the sale, Intel reported a $120 million net loss on its equity investments for the quarter, which is a part of a larger $1.6 billion loss that Intel faced during this period.
In addition to selling its stake in Arm, Intel also exited its investment in ZeroFox and reduced its involvement with Astera Labs, a company known for developing connectivity platforms for enterprise hardware. These moves are in line with Intel's strategy to reduce costs and stabilize its financial position as it faces ongoing market challenges.
Despite the divestment, Intel's past investment in Arm was likely driven by strategic considerations. Arm Holdings is a significant force in the semiconductor industry, with its designs powering most mobile devices, and, for obvious reasons, Intel would like to address these. Intel and Arm are also collaborating on datacenter platforms tailored for Intel's 18A process technology. Additionally, Arm might view Intel as a potential licensee for its technologies and a valuable partner for other companies that license Arm's designs.
Intel's investment in Astera Labs was also a strategic one as the company probably wanted to secure steady supply of smart retimers, smart cable modems, and CXL memory controller, which are used in volumes in datacenters and Intel is certainly interested in selling as many datacenter CPUs as possible.
Intel's financial struggles were highlighted earlier this month when the company released a disappointing earnings report, which led to a 33% drop in its stock value, erasing billions of dollars of capitalization. To counter these difficulties, Intel announced plans to cut 15,000 jobs and implement other expense reductions. The company has also suspended its dividend, signaling the depth of its efforts to conserve cash and focus on recovery. When it comes to divestment of Arm stock, the need for immediate financial stabilization has presumably taken precedence, leading to the decision.
CPUs
Silicon Motion Demonstrates Flexible Data Placement on MonTitan Gen 5 Enterprise SSD Platform
At FMS 2024, the technological requirements from the storage and memory subsystem took center stage. Both SSD and controller vendors had various demonstrations touting their suitability for different stages of the AI data pipeline - ingestion, preparation, training, checkpointing, and inference. Vendors like Solidigm have different types of SSDs optimized for different stages of the pipeline. At the same time, controller vendors have taken advantage of one of the features introduced recently in the NVM Express standard - Flexible Data Placement (FDP).
FDP involves the host providing information / hints about the areas where the controller could place the incoming write data in order to reduce the write amplification. These hints are generated based on specific block sizes advertised by the device. The feature is completely backwards-compatible, with non-FDP hosts working just as before with FDP-enabled SSDs, and vice-versa.
Silicon Motion's MonTitan Gen 5 Enterprise SSD Platform was announced back in 2022. Since then, Silicon Motion has been touting the flexibility of the platform, allowing its customers to incorporate their own features as part of the customization process. This approach is common in the enterprise space, as we have seen with Marvell's Bravera SC5 SSD controller in the DapuStor SSDs and Microchip's Flashtec controllers in the Longsys FORESEE enterprise SSDs.
At FMS 2024, the company was demonstrating the advantages of flexible data placement by allowing a single QLC SSD based on their MonTitan platform to take part in different stages of the AI data pipeline while maintaining the required quality of service (minimum bandwidth) for each process. The company even has a trademarked name (PerformaShape) for the firmware feature in the controller that allows the isolation of different concurrent SSD accesses (from different stages in the AI data pipeline) to guarantee this QoS. Silicon Motion claims that this scheme will enable its customers to get the maximum write performance possible from QLC SSDs without negatively impacting the performance of other types of accesses.
Silicon Motion and Phison have market leadership in the client SSD controller market with similar approaches. However, their enterprise SSD controller marketing couldn't be more different. While Phison has gone in for a turnkey solution with their Gen 5 SSD platform (to the extent of not adopting the white label route for this generation, and instead opting to get the SSDs qualified with different cloud service providers themselves), Silicon Motion is opting for a different approach. The flexibility and customization possibilities can make platforms like the MonTitan appeal to flash array vendors.
Storage
End of the Road: An AnandTech Farewell It is with great sadness that I find myself penning the hardest news post I’ve ever needed to write here at AnandTech. After over 27 years of covering the wide – and wild – world of computing hardware, today is AnandTech’s final day of publication.
For better or worse, we’ve reached the end of a long journey – one that started with a review of an AMD processor, and has ended with the review of an AMD processor. It’s fittingly poetic, but it is also a testament to the fact that we’ve spent the last 27 years doing what we love, covering the chips that are the lifeblood of the computing industry.
A lot of things have changed in the last quarter-century – in 1997 NVIDIA had yet to even coin the term “GPU” – and we’ve been fortunate to watch the world of hardware continue to evolve over the time period. We’ve gone from boxy desktop computers and laptops that today we’d charitably classify as portable desktops, to pocket computers where even the cheapest budget device puts the fastest PC of 1997 to shame.
The years have also brought some monumental changes to the world of publishing. AnandTech was hardly the first hardware enthusiast website, nor will we be the last. But we were fortunate to thrive in the past couple of decades, when so many of our peers did not, thanks to a combination of hard work, strategic investments in people and products, even more hard work, and the support of our many friends, colleagues, and readers.
Still, few things last forever, and the market for written tech journalism is not what it once was – nor will it ever be again. So, the time has come for AnandTech to wrap up its work, and let the next generation of tech journalists take their place within the zeitgeist.
It has been my immense privilege to write for AnandTech for the past 19 years – and to manage it as its editor-in-chief for the past decade. And while I carry more than a bit of remorse in being AnandTech’s final boss, I can at least take pride in everything we’ve accomplished over the years, whether it’s lauding some legendary products, writing technology primers that still remain relevant today, or watching new stars rise in expected places. There is still more that I had wanted AnandTech to do, but after 21,500 articles, this was a good start.
And while the AnandTech staff is riding off into the sunset, I am happy to report that the site itself won’t be going anywhere for a while. Our publisher, Future PLC, will be keeping the AnandTech website and its many articles live indefinitely. So that all of the content we’ve created over the years remains accessible and citable. Even without new articles to add to the collection, I expect that many of the things we’ve written over the past couple of decades will remain relevant for years to come – and remain accessible just as long.
The AnandTech Forums will also continue to be operated by Future’s community team and our dedicated troop of moderators. With forum threads going back to 1999 (and some active members just as long), the forums have a history almost as long and as storied as AnandTech itself (wounded monitor children, anyone?). So even when AnandTech is no longer publishing articles, we’ll still have a place for everyone to talk about the latest in technology – and have those discussions last longer than 48 hours.
Finally, for everyone who still needs their technical writing fix, our formidable opposition of the last 27 years and fellow Future brand, Tom’s Hardware, is continuing to cover the world of technology. There are a couple of familiar AnandTech faces already over there providing their accumulated expertise, and the site will continue doing its best to provide a written take on technology news.
So Many Thank Yous
As I look back on everything AnandTech has accomplished over the past 27 years, there are more than a few people, groups, and companies that I would like to thank on behalf of both myself and AnandTech as a whole.
First and foremost, I cannot thank enough all the editors who have worked for AnandTech over the years. T... Site Updates
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Intel Sells Its Arm Shares, Reduces Stakes in Other Companies
Intel has divested its entire stake in Arm Holdings during the second quarter, raising approximately $147 million. Alongside this, Intel sold its stake in cybersecurity firm ZeroFox and reduced its holdings in Astera Labs, all as part of a broader effort to manage costs and recover cash amid significant financial challenges.
The sale of Intel's 1.18 million shares in Arm Holdings, as reported in a recent SEC filing, comes at a time when the company is struggling with substantial financial losses. Despite the $147 million generated from the sale, Intel reported a $120 million net loss on its equity investments for the quarter, which is a part of a larger $1.6 billion loss that Intel faced during this period.
In addition to selling its stake in Arm, Intel also exited its investment in ZeroFox and reduced its involvement with Astera Labs, a company known for developing connectivity platforms for enterprise hardware. These moves are in line with Intel's strategy to reduce costs and stabilize its financial position as it faces ongoing market challenges.
Despite the divestment, Intel's past investment in Arm was likely driven by strategic considerations. Arm Holdings is a significant force in the semiconductor industry, with its designs powering most mobile devices, and, for obvious reasons, Intel would like to address these. Intel and Arm are also collaborating on datacenter platforms tailored for Intel's 18A process technology. Additionally, Arm might view Intel as a potential licensee for its technologies and a valuable partner for other companies that license Arm's designs.
Intel's investment in Astera Labs was also a strategic one as the company probably wanted to secure steady supply of smart retimers, smart cable modems, and CXL memory controller, which are used in volumes in datacenters and Intel is certainly interested in selling as many datacenter CPUs as possible.
Intel's financial struggles were highlighted earlier this month when the company released a disappointing earnings report, which led to a 33% drop in its stock value, erasing billions of dollars of capitalization. To counter these difficulties, Intel announced plans to cut 15,000 jobs and implement other expense reductions. The company has also suspended its dividend, signaling the depth of its efforts to conserve cash and focus on recovery. When it comes to divestment of Arm stock, the need for immediate financial stabilization has presumably taken precedence, leading to the decision.
CPUs
Intel Sells Its Arm Shares, Reduces Stakes in Other Companies
Intel has divested its entire stake in Arm Holdings during the second quarter, raising approximately $147 million. Alongside this, Intel sold its stake in cybersecurity firm ZeroFox and reduced its holdings in Astera Labs, all as part of a broader effort to manage costs and recover cash amid significant financial challenges.
The sale of Intel's 1.18 million shares in Arm Holdings, as reported in a recent SEC filing, comes at a time when the company is struggling with substantial financial losses. Despite the $147 million generated from the sale, Intel reported a $120 million net loss on its equity investments for the quarter, which is a part of a larger $1.6 billion loss that Intel faced during this period.
In addition to selling its stake in Arm, Intel also exited its investment in ZeroFox and reduced its involvement with Astera Labs, a company known for developing connectivity platforms for enterprise hardware. These moves are in line with Intel's strategy to reduce costs and stabilize its financial position as it faces ongoing market challenges.
Despite the divestment, Intel's past investment in Arm was likely driven by strategic considerations. Arm Holdings is a significant force in the semiconductor industry, with its designs powering most mobile devices, and, for obvious reasons, Intel would like to address these. Intel and Arm are also collaborating on datacenter platforms tailored for Intel's 18A process technology. Additionally, Arm might view Intel as a potential licensee for its technologies and a valuable partner for other companies that license Arm's designs.
Intel's investment in Astera Labs was also a strategic one as the company probably wanted to secure steady supply of smart retimers, smart cable modems, and CXL memory controller, which are used in volumes in datacenters and Intel is certainly interested in selling as many datacenter CPUs as possible.
Intel's financial struggles were highlighted earlier this month when the company released a disappointing earnings report, which led to a 33% drop in its stock value, erasing billions of dollars of capitalization. To counter these difficulties, Intel announced plans to cut 15,000 jobs and implement other expense reductions. The company has also suspended its dividend, signaling the depth of its efforts to conserve cash and focus on recovery. When it comes to divestment of Arm stock, the need for immediate financial stabilization has presumably taken precedence, leading to the decision.
CPUs
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