Realtek Previews Platform for Sub-$100 5GbE Network Switches
One of the more subtle trends at this year's Computex was that the majority of high-end motherboards now come equipped with a 5GbE network controller. At present, this might be considered a limited benefit as 5GbE and 10GbE switches and routers are still pretty expensive. But Realtek is planning on tackling the issue from both ends, as the company is preparing a hardware platform for sub-$100 5GbE switches.
Realtek’s quad-port 5GbE switch platform consists of five key chips: one RTL9303 switch system-on-chip, and four RTL8251B 5GbE physical interfaces (PHYs). The chips are accompanied by various other components, such as power management ICs, but in general it relies solely on in-house developed components, which is why it can be made so cheap.
RealTek's platform is meant for home and small offices, which is reflected in the switch's feature set. This is a simple, unmanaged switch with a handful of ports, making it ideal for linking up a few systems, while enterprise users will likely find it a bit too basic.
Segmenting the market like this is ultimately critical for bringing down the price of hardware. The bulk of 5GbE/10GbE switches on the market today are more enterprise-focused managed switches, which carry more features and a price premium to match. So developing a stripped-down platform for cheaper consumer switches is a huge development that should finally make it economical for consumers to adopt faster networking hardware, similar to 2.5GbE a few years ago.
At present, 2.5GbE switches are running at around $20/port, so RealTek's sub-$100 target for a 4-port switch aims to bring 5GbE in at just a slightly higher price tag of $25/port. Or, compared to the handful of unmanaged 10GbE switches on the market, which average $60/port, this will be less than half the price (though at half the bandwidth).
The proliferation of cheap 5GbE network switches will also mark a notable inflection point in Ethernet hardware design, as it's the fastest standard that is rated to work the ubiquitous Cat 5e cable. The NBASE-T standard was penned almost a decade ago in order to cover the missing-middle between 1GbE and 10GbE, while getting more bandwidth out of existing, widely-deployed Cat 5e cabling. So with the release of consumer 5GbE gear, the standard's goals are finally coming to fruition – though it does mean we're finally reaching the end of the road for the oldest network cabling still widely in use.
For now, Realtek is only talking about one customer offering a sub-$100 5GbE switch this September, but something tells me that other partners of the company will come up with similar devices soon enough. As a result of the competition, prices could get even lower, which is always good for buyers.
These benefits should also funnel into Wi-Fi 7 routers, to a limited extent. Wired backhaul speeds need to keep pace with ever-faster Wi-Fi standards in order to keep those newer radios fed, so it's not a coincidence that cheaper 5GbE is finally coming right as Wi-Fi 7 is taking off.
Overall, the company's 5GbE switch platform is part of a larger ecosystem of 5GbE hardware that Realtek was showing off at Computex. In addition to RTL8251B 5GbE PHYs and RTL9303 switch SoC, the company is also preparing their RTL8126 PCIe 3.1 network controller, and RTL8157 NIC for USB dongles.
Networking
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
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
Kioxia Demonstrates Optical Interface SSDs for Data Centers
A few years back, the Japanese government's New Energy and Industrial Technology Development Organization (NEDO ) allocated funding for the development of green datacenter technologies. With the aim to obtain up to 40% savings in overall power consumption, several Japanese companies have been developing an optical interface for their enterprise SSDs. And at this year's FMS, Kioxia had their optical interface on display.
For this demonstration, Kioxia took its existing CM7 enterprise SSD and created an optical interface for it. A PCIe card with on-board optics developed by Kyocera is installed in the server slot. An optical interface allows data transfer over long distances (it was 40m in the demo, but Kioxia promises lengths of up to 100m for the cable in the future). This allows the storage to be kept in a separate room with minimal cooling requirements compared to the rack with the CPUs and GPUs. Disaggregation of different server components will become an option as very high throughput interfaces such as PCIe 7.0 (with 128 GT/s rates) become available.
The demonstration of the optical SSD showed a slight loss in IOPS performance, but a significant advantage in the latency metric over the shipping enterprise SSD behind a copper network link. Obviously, there are advantages in wiring requirements and signal integrity maintenance with optical links.
Being a proof-of-concept demonstration, we do see the requirement for an industry-standard approach if this were to gain adoption among different datacenter vendors. The PCI-SIG optical workgroup will need to get its act together soon to create a standards-based approach to this problem.
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
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
Kioxia Demonstrates Optical Interface SSDs for Data Centers
A few years back, the Japanese government's New Energy and Industrial Technology Development Organization (NEDO ) allocated funding for the development of green datacenter technologies. With the aim to obtain up to 40% savings in overall power consumption, several Japanese companies have been developing an optical interface for their enterprise SSDs. And at this year's FMS, Kioxia had their optical interface on display.
For this demonstration, Kioxia took its existing CM7 enterprise SSD and created an optical interface for it. A PCIe card with on-board optics developed by Kyocera is installed in the server slot. An optical interface allows data transfer over long distances (it was 40m in the demo, but Kioxia promises lengths of up to 100m for the cable in the future). This allows the storage to be kept in a separate room with minimal cooling requirements compared to the rack with the CPUs and GPUs. Disaggregation of different server components will become an option as very high throughput interfaces such as PCIe 7.0 (with 128 GT/s rates) become available.
The demonstration of the optical SSD showed a slight loss in IOPS performance, but a significant advantage in the latency metric over the shipping enterprise SSD behind a copper network link. Obviously, there are advantages in wiring requirements and signal integrity maintenance with optical links.
Being a proof-of-concept demonstration, we do see the requirement for an industry-standard approach if this were to gain adoption among different datacenter vendors. The PCI-SIG optical workgroup will need to get its act together soon to create a standards-based approach to this problem.
Storage
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
Kioxia Demonstrates RAID Offload Scheme for NVMe Drives
![](https://twitter.com/share?url=https://compbuddey.blogspot.com/2024/06/realtek-previews-platform-for-sub-100_28.html&text=Realtek Previews Platform for Sub-$100 5GbE Network Switches <p align="center"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img src="https://images.anandtech.com/doci/21449/IMG_0076-678_575px.jpg" alt="" /></a></p><p><p>One of the more subtle trends at this year's Computex was that the majority of high-end motherboards now come equipped with a 5GbE network controller. At present, this might be considered a limited benefit as 5GbE and 10GbE switches and routers are still pretty expensive. But Realtek is planning on tackling the issue from both ends, as the company is preparing a hardware platform for sub-$100 5GbE switches. </p>
<p>Realtek’s quad-port 5GbE switch platform consists of five key chips: one RTL9303 switch system-on-chip, and four RTL8251B 5GbE physical interfaces (PHYs). The chips are accompanied by various other components, such as power management ICs, but in general it relies solely on in-house developed components, which is why it can be made so cheap. </p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0075-phy_575px.jpg" /></a></p>
<p>RealTek's platform is meant for home and small offices, which is reflected in the switch's feature set. This is a simple, unmanaged switch with a handful of ports, making it ideal for linking up a few systems, while enterprise users will likely find it a bit too basic.</p>
<p>Segmenting the market like this is ultimately critical for bringing down the price of hardware. The bulk of 5GbE/10GbE switches on the market today are more enterprise-focused managed switches, which carry more features and a price premium to match. So developing a stripped-down platform for cheaper consumer switches is a huge development that should finally make it economical for consumers to adopt faster networking hardware, similar to 2.5GbE a few years ago.</p>
<p>At present, 2.5GbE switches are running at around $20/port, so RealTek's sub-$100 target for a 4-port switch aims to bring 5GbE in at just a slightly higher price tag of $25/port. Or, compared to the handful of unmanaged 10GbE switches on the market, which average $60/port, this will be less than half the price (though at half the bandwidth).</p>
<p>The proliferation of cheap 5GbE network switches will also mark a notable inflection point in Ethernet hardware design, as it's the fastest standard that is rated to work the ubiquitous Cat 5e cable. The NBASE-T standard was penned almost a decade ago in order to cover the missing-middle between 1GbE and 10GbE, while getting more bandwidth out of existing, widely-deployed Cat 5e cabling. So with the release of consumer 5GbE gear, the standard's goals are finally coming to fruition – though it does mean we're finally reaching the end of the road for the oldest network cabling still widely in use.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0074-realtek-chip_575px.jpg" /></a></p>
<p>For now, Realtek is only talking about one customer offering a sub-$100 5GbE switch this September, but something tells me that other partners of the company will come up with similar devices soon enough. As a result of the competition, prices could get even lower, which is always good for buyers.</p>
<p>These benefits should also funnel into Wi-Fi 7 routers, to a limited extent. Wired backhaul speeds need to keep pace with ever-faster Wi-Fi standards in order to keep those newer radios fed, so it's not a coincidence that cheaper 5GbE is finally coming right as Wi-Fi 7 is taking off.</p>
<p>Overall, the company's 5GbE switch platform is part of a larger ecosystem of 5GbE hardware that Realtek was showing off at Computex. In addition to RTL8251B 5GbE PHYs and RTL9303 switch SoC, the company is also preparing their RTL8126 PCIe 3.1 network controller, and RTL8157 NIC for USB dongles.</p>
</p> Networking){kind=link}
![](https://www.pinterest.com/pin/create/button/?url=https://compbuddey.blogspot.com/2024/06/realtek-previews-platform-for-sub-100_28.html&media=https://lh3.googleusercontent.com/blogger_img_proxy/AEn0k_ssXrlWakOidMG4cyU6AQ4TkKcEvg2GhFAav_2hdd7cEdb2WFDj40yMDy6v5P4W6mvoWhnZ_UsQTKc8BrS0HN0Wu_hfW8vcBoi7mtiYPKeqP1TKKnHWOjJ9DJgn253QnDpm&description=Realtek Previews Platform for Sub-$100 5GbE Network Switches <p align="center"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img src="https://images.anandtech.com/doci/21449/IMG_0076-678_575px.jpg" alt="" /></a></p><p><p>One of the more subtle trends at this year's Computex was that the majority of high-end motherboards now come equipped with a 5GbE network controller. At present, this might be considered a limited benefit as 5GbE and 10GbE switches and routers are still pretty expensive. But Realtek is planning on tackling the issue from both ends, as the company is preparing a hardware platform for sub-$100 5GbE switches. </p>
<p>Realtek’s quad-port 5GbE switch platform consists of five key chips: one RTL9303 switch system-on-chip, and four RTL8251B 5GbE physical interfaces (PHYs). The chips are accompanied by various other components, such as power management ICs, but in general it relies solely on in-house developed components, which is why it can be made so cheap. </p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0075-phy_575px.jpg" /></a></p>
<p>RealTek's platform is meant for home and small offices, which is reflected in the switch's feature set. This is a simple, unmanaged switch with a handful of ports, making it ideal for linking up a few systems, while enterprise users will likely find it a bit too basic.</p>
<p>Segmenting the market like this is ultimately critical for bringing down the price of hardware. The bulk of 5GbE/10GbE switches on the market today are more enterprise-focused managed switches, which carry more features and a price premium to match. So developing a stripped-down platform for cheaper consumer switches is a huge development that should finally make it economical for consumers to adopt faster networking hardware, similar to 2.5GbE a few years ago.</p>
<p>At present, 2.5GbE switches are running at around $20/port, so RealTek's sub-$100 target for a 4-port switch aims to bring 5GbE in at just a slightly higher price tag of $25/port. Or, compared to the handful of unmanaged 10GbE switches on the market, which average $60/port, this will be less than half the price (though at half the bandwidth).</p>
<p>The proliferation of cheap 5GbE network switches will also mark a notable inflection point in Ethernet hardware design, as it's the fastest standard that is rated to work the ubiquitous Cat 5e cable. The NBASE-T standard was penned almost a decade ago in order to cover the missing-middle between 1GbE and 10GbE, while getting more bandwidth out of existing, widely-deployed Cat 5e cabling. So with the release of consumer 5GbE gear, the standard's goals are finally coming to fruition – though it does mean we're finally reaching the end of the road for the oldest network cabling still widely in use.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0074-realtek-chip_575px.jpg" /></a></p>
<p>For now, Realtek is only talking about one customer offering a sub-$100 5GbE switch this September, but something tells me that other partners of the company will come up with similar devices soon enough. As a result of the competition, prices could get even lower, which is always good for buyers.</p>
<p>These benefits should also funnel into Wi-Fi 7 routers, to a limited extent. Wired backhaul speeds need to keep pace with ever-faster Wi-Fi standards in order to keep those newer radios fed, so it's not a coincidence that cheaper 5GbE is finally coming right as Wi-Fi 7 is taking off.</p>
<p>Overall, the company's 5GbE switch platform is part of a larger ecosystem of 5GbE hardware that Realtek was showing off at Computex. In addition to RTL8251B 5GbE PHYs and RTL9303 switch SoC, the company is also preparing their RTL8126 PCIe 3.1 network controller, and RTL8157 NIC for USB dongles.</p>
</p> Networking){kind=link}
![](https://web.whatsapp.com/send?text=Realtek Previews Platform for Sub-$100 5GbE Network Switches <p align="center"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img src="https://images.anandtech.com/doci/21449/IMG_0076-678_575px.jpg" alt="" /></a></p><p><p>One of the more subtle trends at this year's Computex was that the majority of high-end motherboards now come equipped with a 5GbE network controller. At present, this might be considered a limited benefit as 5GbE and 10GbE switches and routers are still pretty expensive. But Realtek is planning on tackling the issue from both ends, as the company is preparing a hardware platform for sub-$100 5GbE switches. </p>
<p>Realtek’s quad-port 5GbE switch platform consists of five key chips: one RTL9303 switch system-on-chip, and four RTL8251B 5GbE physical interfaces (PHYs). The chips are accompanied by various other components, such as power management ICs, but in general it relies solely on in-house developed components, which is why it can be made so cheap. </p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0075-phy_575px.jpg" /></a></p>
<p>RealTek's platform is meant for home and small offices, which is reflected in the switch's feature set. This is a simple, unmanaged switch with a handful of ports, making it ideal for linking up a few systems, while enterprise users will likely find it a bit too basic.</p>
<p>Segmenting the market like this is ultimately critical for bringing down the price of hardware. The bulk of 5GbE/10GbE switches on the market today are more enterprise-focused managed switches, which carry more features and a price premium to match. So developing a stripped-down platform for cheaper consumer switches is a huge development that should finally make it economical for consumers to adopt faster networking hardware, similar to 2.5GbE a few years ago.</p>
<p>At present, 2.5GbE switches are running at around $20/port, so RealTek's sub-$100 target for a 4-port switch aims to bring 5GbE in at just a slightly higher price tag of $25/port. Or, compared to the handful of unmanaged 10GbE switches on the market, which average $60/port, this will be less than half the price (though at half the bandwidth).</p>
<p>The proliferation of cheap 5GbE network switches will also mark a notable inflection point in Ethernet hardware design, as it's the fastest standard that is rated to work the ubiquitous Cat 5e cable. The NBASE-T standard was penned almost a decade ago in order to cover the missing-middle between 1GbE and 10GbE, while getting more bandwidth out of existing, widely-deployed Cat 5e cabling. So with the release of consumer 5GbE gear, the standard's goals are finally coming to fruition – though it does mean we're finally reaching the end of the road for the oldest network cabling still widely in use.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0074-realtek-chip_575px.jpg" /></a></p>
<p>For now, Realtek is only talking about one customer offering a sub-$100 5GbE switch this September, but something tells me that other partners of the company will come up with similar devices soon enough. As a result of the competition, prices could get even lower, which is always good for buyers.</p>
<p>These benefits should also funnel into Wi-Fi 7 routers, to a limited extent. Wired backhaul speeds need to keep pace with ever-faster Wi-Fi standards in order to keep those newer radios fed, so it's not a coincidence that cheaper 5GbE is finally coming right as Wi-Fi 7 is taking off.</p>
<p>Overall, the company's 5GbE switch platform is part of a larger ecosystem of 5GbE hardware that Realtek was showing off at Computex. In addition to RTL8251B 5GbE PHYs and RTL9303 switch SoC, the company is also preparing their RTL8126 PCIe 3.1 network controller, and RTL8157 NIC for USB dongles.</p>
</p> Networking | https://compbuddey.blogspot.com/2024/06/realtek-previews-platform-for-sub-100_28.html){kind=link}
![](mailto:?subject=Realtek Previews Platform for Sub-$100 5GbE Network Switches <p align="center"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img src="https://images.anandtech.com/doci/21449/IMG_0076-678_575px.jpg" alt="" /></a></p><p><p>One of the more subtle trends at this year's Computex was that the majority of high-end motherboards now come equipped with a 5GbE network controller. At present, this might be considered a limited benefit as 5GbE and 10GbE switches and routers are still pretty expensive. But Realtek is planning on tackling the issue from both ends, as the company is preparing a hardware platform for sub-$100 5GbE switches. </p>
<p>Realtek’s quad-port 5GbE switch platform consists of five key chips: one RTL9303 switch system-on-chip, and four RTL8251B 5GbE physical interfaces (PHYs). The chips are accompanied by various other components, such as power management ICs, but in general it relies solely on in-house developed components, which is why it can be made so cheap. </p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0075-phy_575px.jpg" /></a></p>
<p>RealTek's platform is meant for home and small offices, which is reflected in the switch's feature set. This is a simple, unmanaged switch with a handful of ports, making it ideal for linking up a few systems, while enterprise users will likely find it a bit too basic.</p>
<p>Segmenting the market like this is ultimately critical for bringing down the price of hardware. The bulk of 5GbE/10GbE switches on the market today are more enterprise-focused managed switches, which carry more features and a price premium to match. So developing a stripped-down platform for cheaper consumer switches is a huge development that should finally make it economical for consumers to adopt faster networking hardware, similar to 2.5GbE a few years ago.</p>
<p>At present, 2.5GbE switches are running at around $20/port, so RealTek's sub-$100 target for a 4-port switch aims to bring 5GbE in at just a slightly higher price tag of $25/port. Or, compared to the handful of unmanaged 10GbE switches on the market, which average $60/port, this will be less than half the price (though at half the bandwidth).</p>
<p>The proliferation of cheap 5GbE network switches will also mark a notable inflection point in Ethernet hardware design, as it's the fastest standard that is rated to work the ubiquitous Cat 5e cable. The NBASE-T standard was penned almost a decade ago in order to cover the missing-middle between 1GbE and 10GbE, while getting more bandwidth out of existing, widely-deployed Cat 5e cabling. So with the release of consumer 5GbE gear, the standard's goals are finally coming to fruition – though it does mean we're finally reaching the end of the road for the oldest network cabling still widely in use.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21449/realtek-has-a-platform-for-sub100-5gbe-switch"><img alt="" src="https://images.anandtech.com/doci/21449/IMG_0074-realtek-chip_575px.jpg" /></a></p>
<p>For now, Realtek is only talking about one customer offering a sub-$100 5GbE switch this September, but something tells me that other partners of the company will come up with similar devices soon enough. As a result of the competition, prices could get even lower, which is always good for buyers.</p>
<p>These benefits should also funnel into Wi-Fi 7 routers, to a limited extent. Wired backhaul speeds need to keep pace with ever-faster Wi-Fi standards in order to keep those newer radios fed, so it's not a coincidence that cheaper 5GbE is finally coming right as Wi-Fi 7 is taking off.</p>
<p>Overall, the company's 5GbE switch platform is part of a larger ecosystem of 5GbE hardware that Realtek was showing off at Computex. In addition to RTL8251B 5GbE PHYs and RTL9303 switch SoC, the company is also preparing their RTL8126 PCIe 3.1 network controller, and RTL8157 NIC for USB dongles.</p>
</p> Networking&body=https://compbuddey.blogspot.com/2024/06/realtek-previews-platform-for-sub-100_28.html){kind=link}
At FMS 2024, Kioxia had a proof-of-concept demonstration of their proposed a new RAID offload methodology for enterprise SSDs. The impetus for this is quite clear: as SSDs get faster in each generation, RAID arrays have a major problem of maintaining (and scaling up) performance. Even in cases where the RAID operations are handled by a dedicated RAID card, a simple write request in, say, a RAID 5 array would involve two reads and two writes to different drives. In cases where there is no hardware acceleration, the data from the reads needs to travel all the way back to the CPU and main memory for further processing before the writes can be done.
Kioxia has proposed the use of the PCIe direct memory access feature along with the SSD controller's controller memory buffer (CMB) to avoid the movement of data up to the CPU and back. The required parity computation is done by an accelerator block resident within the SSD controller.
In Kioxia's PoC implementation, the DMA engine can access the entire host address space (including the peer SSD's BAR-mapped CMB), allowing it to receive and transfer data as required from neighboring SSDs on the bus. Kioxia noted that their offload PoC saw close to 50% reduction in CPU utilization and upwards of 90% reduction in system DRAM utilization compared to software RAID done on the CPU. The proposed offload scheme can also handle scrubbing operations without taking up the host CPU cycles for the parity computation task.
Kioxia has already taken steps to contribute these features to the NVM Express working group. If accepted, the proposed offload scheme will be part of a standard that could become widely available across multiple SSD vendors.
Storage
Kioxia Demonstrates Optical Interface SSDs for Data Centers
A few years back, the Japanese government's New Energy and Industrial Technology Development Organization (NEDO ) allocated funding for the development of green datacenter technologies. With the aim to obtain up to 40% savings in overall power consumption, several Japanese companies have been developing an optical interface for their enterprise SSDs. And at this year's FMS, Kioxia had their optical interface on display.
For this demonstration, Kioxia took its existing CM7 enterprise SSD and created an optical interface for it. A PCIe card with on-board optics developed by Kyocera is installed in the server slot. An optical interface allows data transfer over long distances (it was 40m in the demo, but Kioxia promises lengths of up to 100m for the cable in the future). This allows the storage to be kept in a separate room with minimal cooling requirements compared to the rack with the CPUs and GPUs. Disaggregation of different server components will become an option as very high throughput interfaces such as PCIe 7.0 (with 128 GT/s rates) become available.
The demonstration of the optical SSD showed a slight loss in IOPS performance, but a significant advantage in the latency metric over the shipping enterprise SSD behind a copper network link. Obviously, there are advantages in wiring requirements and signal integrity maintenance with optical links.
Being a proof-of-concept demonstration, we do see the requirement for an industry-standard approach if this were to gain adoption among different datacenter vendors. The PCI-SIG optical workgroup will need to get its act together soon to create a standards-based approach to this problem.
Storage
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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
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
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