Flash Memory Summit: Exploring Memory Innovation for the AI era

The Flash Memory Summit kicks off. It’s poised to be a game-changer in high-performance computing and AI. It can overcome the ‘memory bottleneck’. It’s much like calculating ice-hockey betting odds. Precision and speed are crucial. New improvements in flash memory are making computers and AI smarter. They are like how detailed data can help make better choices in sports betting. This summit could be a turning point for storing and processing data. It could drive innovations in various tech fields.

The conference will address some of the major concerns. Keynote speakers will address various aspects of this.

• The Future of Flash Memory” is a presentation by Jeff Oshima from KIOXIA
• The road to flash memory innovation in the AI era – Jinman Han, Samsung Electronics
• AI era optimizes Memory-centric solutions. Yong Ho Song from Samsung Electronics writes this.
• Jungdal Choi, SK Hynix, leads the industry with “4D” NAND technology and solutions. These are essential for the multimodal AI era.
• “Density rules” for storage from the core to the edge – Robert Frickey, Solidigm
• Gen 5 SSDs improve data center performance and sustainability – Jihyo Lee, FADU
• Samer Haija from Microchip Technology shares the top three challenges in delivering the full potential of CXL

Presented Solutions

• Transforming cloud infrastructure for the AI era” is the title of a talk by Nigel Alvares from Marvell Technology
• Andy Hsu of NEO Semiconductor has developed new architectures. They will drive future NAND and DRAM solutions.
• SSD controller innovations for PC, automotive, and enterprise – Robert Fan, Silicon Motion
• Advancing Composable Infrastructure with NVMe over Fabric” is a talk by Barrett Edwards from Western Digital.
• Reinvigorating virtuous cycle of growth for NAND flash – Alper Ilkbahar, Western Digital

Memory Pooling and Sharing Enable Infinite Memory Capacity

Samsung, MemVerge, H3 Platform, and XConn have unveiled a 2TB pooled CXL memory system today at the Flash Memory Summit. The system aims to tackle performance issues in distributed AI/ML applications. When computers run out of fast memory, they must use slower storage. This can cause problems. For example, there is too much copying of data. Also, there needs to be help moving data to and from storage. Organizing it takes a lot of work. Also, if a computer runs out of memory, it can cause programs to stop working.

The 2TB pooled CXL memory system is co-engineered. It features 8 Samsung 256GB CXL memory modules. It also has the XConn XC50256 CXL 2.0 switch with 256 lanes. The H3 Platform integrated hardware and firmware into a system. You can connect the system to as many as eight computing hosts. MemVerge’s Project Endless Memory software is designed to be run on a hardware system. It helps users visualize, pool, tier, and divide memory to the connected hosts.

Software-enabled Flash Open-Source Project

The Linux Foundation is going to show off its new project. It’s called Software-Enabled Flash (SEF). This project is a big step in improving how cloud storage works. It gives users more control over their storage using flash technology.

Eric Ries from KIOXIA America Inc. They introduced their new SEF (Software-Enabled Flash) hardware. The design meets the needs of large-scale storage systems. This innovative technology aims to enhance storage capacity and performance. It caters to the growing demands for high-volume data storage solutions. This technology supports the Linux Foundation’s open-source SEF project. KIOXIA will show the first SSD with SEF technology at their booth. It is a solid-state drive (SSD). This new tech makes flash storage more efficient. It moves away from older brutal drive methods. It meets the unique needs of large-scale flash storage.

During the summit, attendees can attend seminars and listen to a keynote speaker. They will explain the collaboration with powerful new hardware. They will also discuss open-source support for Flash. Visitors can watch real-life demos of new flash storage hardware at the event. This hardware uses Software-Enabled Flash technology, which combines physical hardware with open-source software. This combination allows people to build and sell storage systems. They can use it to make special flash storage solutions for their data centers.

100x Improvement in Query Performance Claimed

Neuroblade is teaming up with KIOXIA to make a new system that speeds up data analysis. Their NeuroBlade system, using KIOXIA’s special SSDs, can process data queries much faster. It can improve the speed by up to 100 times. This means customers can do complex data tasks using this system.

NeuroBlade has developed a Special Processing Unit (SPU) architecture. It overcomes the limitations of traditional CPUs (Central Processing Units). This new design enhances the processing capabilities of their systems. This design removes system bottlenecks, allowing for rapid processing of complex queries. NeuroBlade’s technology allows for more efficient handling of data queries. This leads to improved data processing performance. This is true regardless of their complexity. The NeuroBlade HEQS is a server designed to be mounted on a rack. UltraRAM technology merges NeuroBlade’s specialized SQL processing unit (SPU) with fast NVMe flash storage from top companies like KIOXIA. This partnership enhances the speed and efficiency of data processing and storage. This improves data processing speed. The flash storage uses PCIe Gen 4.0/5.0. The HEQS system works by processing data right next to where it’s stored. This method makes NVMe flash drives work at their best. It reduces unnecessary data movement. This makes the system faster for tasks that need data processing. NeuroBlade’s technology allows customers to boost their system’s performance. This enhancement is beneficial for handling large and complex tasks. It provides a scalable solution to meet varying levels of demand.

The demo includes NeuroBlade’s HEQS G100. It also has 32 KIOXIA CM7 Series NVMe drives, 512 GB memory, and 8 NeuroBlade SPUs. In the demonstration, they compared the NeuroBlade system with a regular server. The regular server had 128 CPU cores. They used standard benchmarks. The test showed that NeuroBlade’s system used the KIOXIA SSD drives much more (up to 80%). Data queries were up to 23 times faster, and the scanning rate improved by up to 21 times. This means NeuroBlade’s solution is much quicker. It is also more efficient in handling large amounts of data.

Latest NVMe SSD for Enterprise

Swissbit is offering a sneak peek of its new N5200 NVMe SSD. Demanding enterprise and edge data centers use it. This SSD has high IOPS/watt performance and lower power consumption. It is twice as fast as other Gen4 SSDs. This makes it ideal for critical applications needing reliability and scalability.

“They will present their latest PCIe/NVMe SSD, D1200.” The SSD is for high-performance flash storage solutions. The DC-SSD provides high reliability and performance while consuming low power. It’s suitable for I/O-intensive data center tasks. These tasks include databases, data storage, cloud computing, and AI. This SSD enhances sequential and random write performance, optimizing data center operations.

Computer Vision (CV) AI-enhanced Image Recognition

Blueshift Memory will display an accelerator chip for AI-enhanced image recognition. The chip uses Cambridge Architecture. The design is for big data, in-memory computing, and databases. For instance, it enables real-time firearms identification in security scenarios, enhancing safety. This feature can revolutionize the situation. It can be instrumental in saving many lives.

Peter Marosan is the CTO and founder of Blueshift Memory. He is optimistic about their technology’s impact on real-world applications. He highlighted its potential to speed up data-intensive processes, like high-frequency trading servers. It can speed them up by up to 1000 times. Blueshift Memory’s technology enhances performance and offers considerable energy savings. Reducing the amount of data that needs to be moved contributes to the efficiency. This, in turn, reduces energy consumption. This technology enhances performance while also saving a lot of energy. This technology improves performance while also saving a lot of energy. It achieves this by reducing the amount of data movement, which in turn lowers the energy use.

Memory combining the non-volatility of Flash with the speed and endurance of DRAM

Professor Manus Hayne from Lancaster University and Quinas Technology have developed UltraRAM technology. It combines flash memory’s durability with DRAM’s speed and efficiency. This offers a powerful and efficient memory solution. This innovative technology aims to provide high-performance memory with reliable data storage capabilities. It can store data for over 1,000 years, surpassing flash memory. It operates at lower energy levels than DRAM. Professor Manus Hayne and Quinas Technology have developed UltraRAM technology. It utilizes quantum resonant tunneling found in compound semiconductors. This includes those used in LEDs and laser diodes. This approach is key to the technology’s ability to combine fast performance. It also ensures stable memory storage.

PCIe 6.0 Protocol Analysis Testing

Viavi Solutions is announcing its new PCIe 6.0 protocol analysis testing platform. It is part of its Viavi Xgig family. The new platform comprises analyzers, exercisers, and interposers. It lets customers capture 64 GT/s PCIe 6.0 traces on existing Xgig 5.0 equipment. This extends the life of their equipment investments. It happens during the early development R&D phase.

The new Xgig PCIe 6.0 platform includes:

1. Xgig software suite for data interpretation and analysis.
2. Support for CXL protocol, including CXL 3.0 and future versions.
3. LTSSM override for problem detection and troubleshooting.
4. Auto-tuning and EQ memory to reduce re-tuning needs.
5. Port bifurcation for simultaneous analysis by local or remote users.

Final Thoughts

The Flash Memory Summit concludes. The future of memory technology is exciting and unpredictable. This is especially true in AI and high-performance computing. It’s like a game on blog.tonybet.com/ca/. The showcased innovations are set to revolutionize technology. The list includes Samsung’s 2TB pooled CXL memory system. It also includes Viavi Solutions’ PCIe 6.0 protocol analysis platform. These advancements are like a strategic bet in a high-stakes game. They have the potential to bring groundbreaking developments in computing and storage solutions.