Alphawave Semi mở khóa kết nối 1,2 TBps cho cơ sở hạ tầng HPC và AI với hệ thống con HBM3E 9,2 Gbps

9.2Gbps HBM3E Subsystem

In the rapidly evolving fields of high-performance computing (HPC) and artificial intelligence (AI), reducing time to market is crucial for maintaining competitive advantage. HBM3E systems play a pivotal role in this regard, particularly for hyperscaler and data center infrastructure customers. Alphawave Semi’s advanced HBM3E IP subsystem significantly contributes to this acceleration by providing a robust, high-bandwidth memory solution that integrates seamlessly with existing and new architectures.

The 9.2 Gbps HBM3E subsystem, combined with Alphawave Semi’s innovative silicon interposer, facilitates rapid deployment and scalability. This ensures that hyperscalers can quickly adapt to the growing data demands, leveraging the subsystem’s 1.2 TBps connectivity to enhance performance without extensive redesign cycles. The modular nature of the subsystem allows for flexible configurations, making it easier to tailor solutions to specific application needs and accelerating the development process.

Micron’s HBM3E Memory

Micron’s HBM3E memory stands out in the competitive landscape due to its superior power efficiency and performance. While all HBM3E variants aim to provide high bandwidth and low latency, Micron’s version offers up to 30% lower power consumption compared to its competitors. This efficiency is critical for data centers and AI applications, where power usage directly impacts operational costs and environmental footprint.

Micron’s HBM3E memory achieves this efficiency through advanced fabrication techniques and optimized design, ensuring that high-speed data transfer does not come at the cost of increased power usage. This makes it a preferred choice for integrating with high-performance systems that demand both speed and sustainability.

Alphawave Semi’s Innovative Silicon Interposer

At the heart of Alphawave Semi’s HBM3E subsystem is their state-of-the-art silicon interposer. This interposer is crucial for connecting HBM3E memory stacks with processors and other components, enabling high-speed, low-latency communication. In designing the interposer, Alphawave Semi addressed the challenges of increased signal loss due to longer interposer routing. By evaluating critical channel parameters such as insertion loss, return loss, intersymbol interference (ISI), and crosstalk, the team developed an optimized layout. Signal and ground trace widths, along with their spacing, were analyzed using 2D and 3D extraction tools, leading to a refined model that integrates microbump connections to signal traces. This iterative approach allowed the team to effectively shield against crosstalk between layers.

Detailed analyses of signal layer stack-ups, ground trace widths, vias, and the spacing between signal traces enabled the optimization of the interposer layout to mitigate adverse effects and boost performance. To achieve higher data rates, a jitter decomposition and analysis were performed on the interposer to budget for random jitter, power supply induced jitter, duty cycle distortion, and other factors. This set the necessary operating margins.

In addition, the interposer’s stack-up layers for signals, power, and decoupling capacitors underwent comprehensive evaluations for both CoWoS-S and CoWoS-R technologies in preparation for the transition to upcoming HBM4. The team engineered advanced silicon interposer layouts that provide excess margin, ensuring these configurations can support the elevated data rates required by future enhancements in HBM4 technology and varying operating conditions.

Alphawave Semi’s HBM3E IP Subsystem

Alphawave Semi’s HBM3E IP subsystem, comprising both PHY and controller IP, sets a new standard in high-performance memory solutions. With data rates reaching 9.2 Gbps per pin and a total bandwidth of 1.2 TBps, this subsystem is designed to meet the intense demands of AI and HPC workloads. The IP subsystem integrates seamlessly with Micron’s HBM3E memory and Alphawave’s silicon interposer, providing a comprehensive solution that enhances both performance and power efficiency.

The subsystem is highly configurable, adhering to JEDEC standards while allowing for application-specific optimizations. This flexibility ensures that customers can fine-tune their systems to achieve the best possible performance for their unique requirements, further reducing the time and effort needed for deployment.

Summary

Alphawave Semi’s HBM3E IP subsystem, powered by their innovative silicon interposer and Micron’s efficient HBM3E memory, represents a significant advancement in high-performance memory technology. By offering unparalleled bandwidth, enhanced power efficiency, and flexible integration options, this subsystem accelerates time to market for hyperscaler and data center infrastructure customers.

For more details, visit

https://awavesemi.com/silicon-ip/subsystems/hbm-subsystem/

Also Read:

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