SK hynix Wraps up Dev Work on High-End PCB01 PCIe 5.0 SSD for OEMs, Launching Later This Year
SK hynix early in Friday announced that the company has finished the development of it's PCB01 PCIe Gen5 SSD, the company's forthcoming high-end SSD for OEMs. Based on the company's new Alistar platform, the PCB01 is designed to deliver chart-topping performance for client machines. And, as a sign of the times, SK hynix is positioning the PCB01 for AI PCs, looking to synergize with the overall industry interest in anything and everything AI.
The bare, OEM-focused drives have previously been shown off by SK hynix, and make no attempt to hide what's under the hood. The PCB01 relies on SK hynix's Alistar controller, which features a PCIe Gen5 x4 host interface on the front end and eight NAND channels on the back end, placing it solidly in the realm of high-end SSDs. Paired with the Alistar controller is the company's latest 238-layer TLC NAND (H25T1TD48C & H25T2TD88C), which offers a maximum transfer speed of 2400 MT/second. Being that this is a high-end client SSD, there's also a DRAM chip on board, though the company isn't disclosing its capacity.
As with other high-end PCIe 5.0 client SSDs, SK hynix is planning on hitting peak read speeds of up to 14GB/second on the drive, while peak sequential write speeds should top 12GB/second (with pSLC caching, of course) – performance figures well within the realm of possibility for an 8 channel drive. As for random performance, at Computex the company was telling attendees that the drives should be able to sustain 4K random read and write rates of 2 million IOPS, which is very high as well. The SSDs are also said to consume up to 30% less power than 'predecessors,' according to SK hynix, though the company didn't elaborate on that figure. Typically in the storage industry, energy figures are based on iso-performance (rather than peak performance) – essentially measuring energy efficiency per bit rather than toal power consumption – and that is likely the case here as well.
At least initially, SK Hynix plans to release its PCB01 in three capacities – 512 GB, 1 TB, and 2 TB. The company has previously disclosed that their 238L TLC NAND has a capacity of 512Gbit, so these are typical capacity figures for single-sided drives. And while the focus of the company's press release this week was on OEM drives, this is the same controller and NAND that is also going into the company's previously-teased retail Platinum P51 SSD, so this week's reveal offers a bit more detail into what to expect from that drive family as well.
Specs aside, Ahn Hyun, the Head of the N-S Committee at SK hynix, said that multiple global CPU providers for on-device AI PCs are seeking collaboration for the compatibility validation process, which is underway, so expect PCB01 drives inside PCs in this back-to-school and holiday seasons.
"We will work towards enhancing our leadership as the global top AI memory provider also in the NAND solution space by successfully completing the customer validation and mass production of PCB01, which will be in the limelight," Ahn Hyun said.
SSDs
Posted by The Techinical Support
ASMedia Preps USB4 v2 Controller and PHY 
The USB Implementers Forum (USB-IF) introduced USB4 version 2.0 in fall 2022, and it expects systems and devices with the tech to emerge later this year and into next year. These upcoming products will largely rely on Intel's Barlow Ridge controller, a full-featured Thunderbolt 5 controller that goes above and beond the baseline USB4 v2 spec. And though extremely capable, Intel's Thunderbolt controllers are also quite expensive, and Barlow Ridge isn't expected to be any different. Fortunately, for system and device vendors that just need a basic USB4 v2 solution, ASMedia is also working on its own USB4 v2 controller.
At Computex 2024, ASMedia demonstrated a prototype of its upcoming USB4 v2 physical interface (PHY), which will support USB4 v2's new Gen 4 (160Gbps) data rates and the associated PAM-3 signal encoding. The prototype was implemented using an FPGA, as the company yet has to tape out the completed controller.
Ultimately, the purpose of showing off a FPGA-based PHY at Computex was to allow ASMedia to demonstrate their current PHY design. With the shift to PAM-3 encoding for USB4 v2, ASMedia (and the rest of the USB ecosystem) must develop significantly more complex controllers – and there's no part of that more critical than a solid and reliable PHY design.
As part of their demonstration, ASMedia had a classic eye diagram display. The eye diagram demoed has a clear opening in the center, which is indicative of good signal integrity, as the larger the eye opening, the less distortion and noise in the signal. The horizontal width of the eye opening represents the time window in which the signal can be sampled correctly, so the relatively narrow horizontal spread of the eye opening suggests that there is minimal jitter, meaning the signal transitions are consistent and predictable. Finally, the vertical height of the eye opening indicates the signal amplitude and the rather tall eye opening suggests a higher signal-to-noise ratio (SNR), meaning that the signal is strong compared to any noise present.
ASMedia itself is one of the major suppliers for discrete USB controllers, so the availability of ASMedia's USB4 v2 chip is crucial for adoption of the standard in general. While Intel will spearhead the industry with their Barlow Ridge Thunderbolt 5/USB4 v2 controller, ASMedia's controller is poised to end up in a far larger range of devices. So the importance of the company's USB4 v2 PHY demo is hard to overstate.
Demos aside, ASMedia is hoping to tape the chip out soon. If all goes well, the company expects their first USB4 v2 controllers to hit the market some time in the second half of 2025.
Peripherals
ASMedia Preps USB4 v2 Controller and PHY
The USB Implementers Forum (USB-IF) introduced USB4 version 2.0 in fall 2022, and it expects systems and devices with the tech to emerge later this year and into next year. These upcoming products will largely rely on Intel's Barlow Ridge controller, a full-featured Thunderbolt 5 controller that goes above and beond the baseline USB4 v2 spec. And though extremely capable, Intel's Thunderbolt controllers are also quite expensive, and Barlow Ridge isn't expected to be any different. Fortunately, for system and device vendors that just need a basic USB4 v2 solution, ASMedia is also working on its own USB4 v2 controller.
At Computex 2024, ASMedia demonstrated a prototype of its upcoming USB4 v2 physical interface (PHY), which will support USB4 v2's new Gen 4 (160Gbps) data rates and the associated PAM-3 signal encoding. The prototype was implemented using an FPGA, as the company yet has to tape out the completed controller.
Ultimately, the purpose of showing off a FPGA-based PHY at Computex was to allow ASMedia to demonstrate their current PHY design. With the shift to PAM-3 encoding for USB4 v2, ASMedia (and the rest of the USB ecosystem) must develop significantly more complex controllers – and there's no part of that more critical than a solid and reliable PHY design.
As part of their demonstration, ASMedia had a classic eye diagram display. The eye diagram demoed has a clear opening in the center, which is indicative of good signal integrity, as the larger the eye opening, the less distortion and noise in the signal. The horizontal width of the eye opening represents the time window in which the signal can be sampled correctly, so the relatively narrow horizontal spread of the eye opening suggests that there is minimal jitter, meaning the signal transitions are consistent and predictable. Finally, the vertical height of the eye opening indicates the signal amplitude and the rather tall eye opening suggests a higher signal-to-noise ratio (SNR), meaning that the signal is strong compared to any noise present.
ASMedia itself is one of the major suppliers for discrete USB controllers, so the availability of ASMedia's USB4 v2 chip is crucial for adoption of the standard in general. While Intel will spearhead the industry with their Barlow Ridge Thunderbolt 5/USB4 v2 controller, ASMedia's controller is poised to end up in a far larger range of devices. So the importance of the company's USB4 v2 PHY demo is hard to overstate.
Demos aside, ASMedia is hoping to tape the chip out soon. If all goes well, the company expects their first USB4 v2 controllers to hit the market some time in the second half of 2025.
Peripherals
Micron Ships Crucial-Branded LPCAMM2 Memory Modules: 64GB of LPDDR5X For $330 
As LPCAMM2 adoption begins, the first retail memory modules are finally starting to hit the retail market, courtesy of Micron. The memory manufacturer has begun selling their LPDDR5X-based LPCAMM2 memory modules under their in-house Crucial brand, making them available on the latter's storefront. Timed to coincide with the release of Lenovo's ThinkPad P1 Gen 7 laptop – the first retail laptop designed to use the memory modules – this marks the de facto start of the eagerly-awaited modular LPDDR5X memory era.
Micron's Low Power Compression Attached Memory Module 2 (LPCAMM2) modules are available in capacities of 32 GB and 64 GB. These are dual-channel modules that feature a 128-bit wide interface, and are based around LPDDR5X memory running at data rates up to 7500 MT/s. This gives a single LPCAMM2 a peak bandwidth of 120 GB/s. Micron is not disclosing the latencies of its LPCAMM2 memory modules, but it says that high data transfer rates of LPDDR5X compensate for the extended timings.
Micron says that LPDDR5X memory offers significantly lower power consumption, with active power per 64-bit bus being 43-58% lower than DDR5 at the same speed, and standby power up to 80% lower. Meanwhile, similar to DDR5 modules, LPCAMM2 modules include a power management IC and voltage regulating circuitry, which provides module manufacturers additional opportunities to reduce power consumption of their products.
Source: Micron LPDDR5X LPCAMM2 Technical Brief
It's worth noting, however, that at least for the first generation of LPCAMM2 modules, system vendors will need to pick between modularity and performance. While soldered-down LPDDR5X memory is available at speeds up to 8533 MT/sec – and with 9600 MT/sec on the horizon – the fastest LPCAMM2 modules planned for this year by both Micron and rival Samsung will be running at 7500 MT/sec. So vendors will have to choose between the flexibility of offering modular LPDDR5X, or the higher bandwidth (and space savings) offered by soldering down their memory.
Micron, for its part, is projecting that 9600 MT/sec LPCAMM2 modules will be available by 2026. Though it's all but certain that faster memory will also be avaialble in the same timeframe.
Micron's Crucial LPDDR5X 32 GB module costs $174.99, whereas a 64 GB module costs $329.99.
Memory
Source: Micron LPDDR5X LPCAMM2 Technical Brief
![](https://twitter.com/share?url=https://compbuddey.blogspot.com/2024/07/sk-hynix-wraps-up-dev-work-on-high-end_45.html&text=SK hynix Wraps up Dev Work on High-End PCB01 PCIe 5.0 SSD for OEMs, Launching Later This Year <p align="center"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img src="https://images.anandtech.com/doci/21460/sk-hynix-pcb-01-ssd-678_crop_575px.jpg" alt="" /></a></p><p><p>SK hynix early in Friday announced that the company has finished the development of it's PCB01 PCIe Gen5 SSD, the company's forthcoming high-end SSD for OEMs. Based on the company's new Alistar platform, the PCB01 is designed to deliver chart-topping performance for client machines. And, as a sign of the times, SK hynix is positioning the PCB01 for AI PCs, looking to synergize with the overall industry interest in anything and everything AI.</p>
<p>The bare, OEM-focused drives have <a href="https://news.skhynix.com/sk-hynix-unveils-highest-performing-ssd-for-ai-pcs-at-nvidia-gtc-2024/">previously been shown off by SK hynix</a>, and make no attempt to hide what's under the hood. The PCB01 relies on SK hynix's Alistar controller, which features a PCIe Gen5 x4 host interface on the front end and eight NAND channels on the back end, placing it solidly in the realm of high-end SSDs. Paired with the Alistar controller is the company's latest <a href="https://news.skhynix.com/sk-hynix-develops-worlds-highest-238-layer-4d-nand-flash/">238-layer TLC NAND</a> (H25T1TD48C & H25T2TD88C), which offers a maximum transfer speed of 2400 MT/second. Being that this is a high-end client SSD, there's also a DRAM chip on board, though the company isn't disclosing its capacity.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1305_575px.jpg" /></a></p>
<p>As with other high-end PCIe 5.0 client SSDs, SK hynix is planning on hitting peak read speeds of up to 14GB/second on the drive, while peak sequential write speeds should top 12GB/second (with pSLC caching, of course) – performance figures well within the realm of possibility for an 8 channel drive. As for random performance, at Computex the company was telling attendees that the drives should be able to sustain 4K random read and write rates of 2 million IOPS, which is very high as well. The SSDs are also said to consume up to 30% less power than 'predecessors,' according to SK hynix, though the company didn't elaborate on that figure. Typically in the storage industry, energy figures are based on iso-performance (rather than peak performance) – essentially measuring energy efficiency per bit rather than toal power consumption – and that is likely the case here as well.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1304_575px.jpg" /></a></p>
<p>At least initially, SK Hynix plans to release its PCB01 in three capacities – 512 GB, 1 TB, and 2 TB. The company has previously disclosed that their 238L TLC NAND has a capacity of 512Gbit, so these are typical capacity figures for single-sided drives. And while the focus of the company's press release this week was on OEM drives, this is the same controller and NAND that is also going into the company's <a href="https://www.anandtech.com/show/21313/sk-hynix-platinum-p51-gen5-ssd-with-238l-nand-spotted-at-gtc">previously-teased retail Platinum P51 SSD</a>, so this week's reveal offers a bit more detail into what to expect from that drive family as well.</p>
<p>Specs aside, Ahn Hyun, the Head of the N-S Committee at SK hynix, said that multiple global CPU providers for on-device AI PCs are seeking collaboration for the compatibility validation process, which is underway, so expect PCB01 drives inside PCs in this back-to-school and holiday seasons.</p>
<p>"We will work towards enhancing our leadership as the global top AI memory provider also in the NAND solution space by successfully completing the customer validation and mass production of PCB01, which will be in the limelight," Ahn Hyun said.</p>
</p> SSDs){kind=link}
![](https://www.pinterest.com/pin/create/button/?url=https://compbuddey.blogspot.com/2024/07/sk-hynix-wraps-up-dev-work-on-high-end_45.html&media=https://lh3.googleusercontent.com/blogger_img_proxy/AEn0k_tlilyHCmOD56NM79Wn9Uz4gB5Iv707vW9EtcZFWuokd2TYc-Ne9r14V8eARMd3IjuxCNTtGZQ1z0BwHoEKJzmJ2Uv-TrKYibIxa7yQRcpW1RQpo4-gqV6Zt6Ya1O0wPn6C7_5rLSxXLGjU5Rd5EWnoug&description=SK hynix Wraps up Dev Work on High-End PCB01 PCIe 5.0 SSD for OEMs, Launching Later This Year <p align="center"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img src="https://images.anandtech.com/doci/21460/sk-hynix-pcb-01-ssd-678_crop_575px.jpg" alt="" /></a></p><p><p>SK hynix early in Friday announced that the company has finished the development of it's PCB01 PCIe Gen5 SSD, the company's forthcoming high-end SSD for OEMs. Based on the company's new Alistar platform, the PCB01 is designed to deliver chart-topping performance for client machines. And, as a sign of the times, SK hynix is positioning the PCB01 for AI PCs, looking to synergize with the overall industry interest in anything and everything AI.</p>
<p>The bare, OEM-focused drives have <a href="https://news.skhynix.com/sk-hynix-unveils-highest-performing-ssd-for-ai-pcs-at-nvidia-gtc-2024/">previously been shown off by SK hynix</a>, and make no attempt to hide what's under the hood. The PCB01 relies on SK hynix's Alistar controller, which features a PCIe Gen5 x4 host interface on the front end and eight NAND channels on the back end, placing it solidly in the realm of high-end SSDs. Paired with the Alistar controller is the company's latest <a href="https://news.skhynix.com/sk-hynix-develops-worlds-highest-238-layer-4d-nand-flash/">238-layer TLC NAND</a> (H25T1TD48C & H25T2TD88C), which offers a maximum transfer speed of 2400 MT/second. Being that this is a high-end client SSD, there's also a DRAM chip on board, though the company isn't disclosing its capacity.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1305_575px.jpg" /></a></p>
<p>As with other high-end PCIe 5.0 client SSDs, SK hynix is planning on hitting peak read speeds of up to 14GB/second on the drive, while peak sequential write speeds should top 12GB/second (with pSLC caching, of course) – performance figures well within the realm of possibility for an 8 channel drive. As for random performance, at Computex the company was telling attendees that the drives should be able to sustain 4K random read and write rates of 2 million IOPS, which is very high as well. The SSDs are also said to consume up to 30% less power than 'predecessors,' according to SK hynix, though the company didn't elaborate on that figure. Typically in the storage industry, energy figures are based on iso-performance (rather than peak performance) – essentially measuring energy efficiency per bit rather than toal power consumption – and that is likely the case here as well.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1304_575px.jpg" /></a></p>
<p>At least initially, SK Hynix plans to release its PCB01 in three capacities – 512 GB, 1 TB, and 2 TB. The company has previously disclosed that their 238L TLC NAND has a capacity of 512Gbit, so these are typical capacity figures for single-sided drives. And while the focus of the company's press release this week was on OEM drives, this is the same controller and NAND that is also going into the company's <a href="https://www.anandtech.com/show/21313/sk-hynix-platinum-p51-gen5-ssd-with-238l-nand-spotted-at-gtc">previously-teased retail Platinum P51 SSD</a>, so this week's reveal offers a bit more detail into what to expect from that drive family as well.</p>
<p>Specs aside, Ahn Hyun, the Head of the N-S Committee at SK hynix, said that multiple global CPU providers for on-device AI PCs are seeking collaboration for the compatibility validation process, which is underway, so expect PCB01 drives inside PCs in this back-to-school and holiday seasons.</p>
<p>"We will work towards enhancing our leadership as the global top AI memory provider also in the NAND solution space by successfully completing the customer validation and mass production of PCB01, which will be in the limelight," Ahn Hyun said.</p>
</p> SSDs){kind=link}
![](https://web.whatsapp.com/send?text=SK hynix Wraps up Dev Work on High-End PCB01 PCIe 5.0 SSD for OEMs, Launching Later This Year <p align="center"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img src="https://images.anandtech.com/doci/21460/sk-hynix-pcb-01-ssd-678_crop_575px.jpg" alt="" /></a></p><p><p>SK hynix early in Friday announced that the company has finished the development of it's PCB01 PCIe Gen5 SSD, the company's forthcoming high-end SSD for OEMs. Based on the company's new Alistar platform, the PCB01 is designed to deliver chart-topping performance for client machines. And, as a sign of the times, SK hynix is positioning the PCB01 for AI PCs, looking to synergize with the overall industry interest in anything and everything AI.</p>
<p>The bare, OEM-focused drives have <a href="https://news.skhynix.com/sk-hynix-unveils-highest-performing-ssd-for-ai-pcs-at-nvidia-gtc-2024/">previously been shown off by SK hynix</a>, and make no attempt to hide what's under the hood. The PCB01 relies on SK hynix's Alistar controller, which features a PCIe Gen5 x4 host interface on the front end and eight NAND channels on the back end, placing it solidly in the realm of high-end SSDs. Paired with the Alistar controller is the company's latest <a href="https://news.skhynix.com/sk-hynix-develops-worlds-highest-238-layer-4d-nand-flash/">238-layer TLC NAND</a> (H25T1TD48C & H25T2TD88C), which offers a maximum transfer speed of 2400 MT/second. Being that this is a high-end client SSD, there's also a DRAM chip on board, though the company isn't disclosing its capacity.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1305_575px.jpg" /></a></p>
<p>As with other high-end PCIe 5.0 client SSDs, SK hynix is planning on hitting peak read speeds of up to 14GB/second on the drive, while peak sequential write speeds should top 12GB/second (with pSLC caching, of course) – performance figures well within the realm of possibility for an 8 channel drive. As for random performance, at Computex the company was telling attendees that the drives should be able to sustain 4K random read and write rates of 2 million IOPS, which is very high as well. The SSDs are also said to consume up to 30% less power than 'predecessors,' according to SK hynix, though the company didn't elaborate on that figure. Typically in the storage industry, energy figures are based on iso-performance (rather than peak performance) – essentially measuring energy efficiency per bit rather than toal power consumption – and that is likely the case here as well.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1304_575px.jpg" /></a></p>
<p>At least initially, SK Hynix plans to release its PCB01 in three capacities – 512 GB, 1 TB, and 2 TB. The company has previously disclosed that their 238L TLC NAND has a capacity of 512Gbit, so these are typical capacity figures for single-sided drives. And while the focus of the company's press release this week was on OEM drives, this is the same controller and NAND that is also going into the company's <a href="https://www.anandtech.com/show/21313/sk-hynix-platinum-p51-gen5-ssd-with-238l-nand-spotted-at-gtc">previously-teased retail Platinum P51 SSD</a>, so this week's reveal offers a bit more detail into what to expect from that drive family as well.</p>
<p>Specs aside, Ahn Hyun, the Head of the N-S Committee at SK hynix, said that multiple global CPU providers for on-device AI PCs are seeking collaboration for the compatibility validation process, which is underway, so expect PCB01 drives inside PCs in this back-to-school and holiday seasons.</p>
<p>"We will work towards enhancing our leadership as the global top AI memory provider also in the NAND solution space by successfully completing the customer validation and mass production of PCB01, which will be in the limelight," Ahn Hyun said.</p>
</p> SSDs | https://compbuddey.blogspot.com/2024/07/sk-hynix-wraps-up-dev-work-on-high-end_45.html){kind=link}
![](mailto:?subject=SK hynix Wraps up Dev Work on High-End PCB01 PCIe 5.0 SSD for OEMs, Launching Later This Year <p align="center"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img src="https://images.anandtech.com/doci/21460/sk-hynix-pcb-01-ssd-678_crop_575px.jpg" alt="" /></a></p><p><p>SK hynix early in Friday announced that the company has finished the development of it's PCB01 PCIe Gen5 SSD, the company's forthcoming high-end SSD for OEMs. Based on the company's new Alistar platform, the PCB01 is designed to deliver chart-topping performance for client machines. And, as a sign of the times, SK hynix is positioning the PCB01 for AI PCs, looking to synergize with the overall industry interest in anything and everything AI.</p>
<p>The bare, OEM-focused drives have <a href="https://news.skhynix.com/sk-hynix-unveils-highest-performing-ssd-for-ai-pcs-at-nvidia-gtc-2024/">previously been shown off by SK hynix</a>, and make no attempt to hide what's under the hood. The PCB01 relies on SK hynix's Alistar controller, which features a PCIe Gen5 x4 host interface on the front end and eight NAND channels on the back end, placing it solidly in the realm of high-end SSDs. Paired with the Alistar controller is the company's latest <a href="https://news.skhynix.com/sk-hynix-develops-worlds-highest-238-layer-4d-nand-flash/">238-layer TLC NAND</a> (H25T1TD48C & H25T2TD88C), which offers a maximum transfer speed of 2400 MT/second. Being that this is a high-end client SSD, there's also a DRAM chip on board, though the company isn't disclosing its capacity.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1305_575px.jpg" /></a></p>
<p>As with other high-end PCIe 5.0 client SSDs, SK hynix is planning on hitting peak read speeds of up to 14GB/second on the drive, while peak sequential write speeds should top 12GB/second (with pSLC caching, of course) – performance figures well within the realm of possibility for an 8 channel drive. As for random performance, at Computex the company was telling attendees that the drives should be able to sustain 4K random read and write rates of 2 million IOPS, which is very high as well. The SSDs are also said to consume up to 30% less power than 'predecessors,' according to SK hynix, though the company didn't elaborate on that figure. Typically in the storage industry, energy figures are based on iso-performance (rather than peak performance) – essentially measuring energy efficiency per bit rather than toal power consumption – and that is likely the case here as well.</p>
<p style="text-align: center;"><a href="https://www.anandtech.com/show/21460/sk-hynix-wraps-up-dev-on-high-end-pcie-5-pcb01-oem-ssd"><img alt="" src="https://images.anandtech.com/doci/21460/IMG_1304_575px.jpg" /></a></p>
<p>At least initially, SK Hynix plans to release its PCB01 in three capacities – 512 GB, 1 TB, and 2 TB. The company has previously disclosed that their 238L TLC NAND has a capacity of 512Gbit, so these are typical capacity figures for single-sided drives. And while the focus of the company's press release this week was on OEM drives, this is the same controller and NAND that is also going into the company's <a href="https://www.anandtech.com/show/21313/sk-hynix-platinum-p51-gen5-ssd-with-238l-nand-spotted-at-gtc">previously-teased retail Platinum P51 SSD</a>, so this week's reveal offers a bit more detail into what to expect from that drive family as well.</p>
<p>Specs aside, Ahn Hyun, the Head of the N-S Committee at SK hynix, said that multiple global CPU providers for on-device AI PCs are seeking collaboration for the compatibility validation process, which is underway, so expect PCB01 drives inside PCs in this back-to-school and holiday seasons.</p>
<p>"We will work towards enhancing our leadership as the global top AI memory provider also in the NAND solution space by successfully completing the customer validation and mass production of PCB01, which will be in the limelight," Ahn Hyun said.</p>
</p> SSDs&body=https://compbuddey.blogspot.com/2024/07/sk-hynix-wraps-up-dev-work-on-high-end_45.html){kind=link}
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