All IPs > Memory Controller & PHY > HMC Controller
The HMC Controller category within Silicon Hub's Memory Controller & PHY segment is dedicated to a specialized type of semiconductor IP known for its efficiency and high-speed data transfer capabilities. HMC, or Hybrid Memory Cubes, represent a modern advancement in memory architecture, delivering drastic improvements in bandwidth, power efficiency, and performance compared to traditional memory solutions. At the core of harnessing the full potential of HMC technology lies the HMC Controller, an intricate piece of semiconductor IP essential for orchestrating seamless communication between a processing unit and the HMC.
HMC Controllers are integral to managing data flow, ensuring low latency, and maximizing throughput. These semiconductor IPs are often used in environments that demand high-performance memory solutions, such as data centers, high-performance computing systems, and advanced network infrastructure. By leveraging the multi-layer stacked DRAM of HMCs, these controllers facilitate massively parallel data processing, effectively reducing bottlenecks typically encountered in transactional operations.
Products found in the HMC Controller category exhibit advanced features such as error correction, data integrity mechanisms, and sophisticated power management options. These features are crucial for maintaining system reliability and efficiency while minimizing energy consumption. The modularity of HMC Controllers also allows for scalability, making them ideal for applications that require rapid scaling of memory resources, such as AI processing units and large-scale cloud solutions.
Incorporating an HMC Controller IP into a system design enables designers to achieve unprecedented memory performance that aligns with next-generation digital demands. At Silicon Hub, we offer a diverse range of premium HMC Controller designs that enable developers to push the envelope of speed and efficiency in memory operations. Whether you are enhancing a new product line or upgrading existing infrastructure, our semiconductor IPs provide the foundation for robust, forward-thinking solutions that meet the growing complexity of today's computing challenges.
The xT CDx is a sophisticated tumor profiling solution designed to advance precision oncology care for solid malignancies. This assay uses next-generation sequencing to assess alterations in 648 genes, identifying single nucleotide variants, multi-nucleotide variants, and insertions/deletions. It also evaluates microsatellite instability status and serves as a companion diagnostic to explore potential treatment avenues according to specific therapeutic product labeling. Uniquely, xT CDx offers mutation profiling through samplings from both formalin-fixed paraffin-embedded tumor tissues and matched normal samples such as blood or saliva, enhancing diagnostic clarity and treatment direction for patients with solid tumors. The comprehensive report generated includes valuable insights that can inform the personalized treatment path for cancer patients.
The D-Series DDR5/4/3 PHY is engineered to provide a reliable and high-performance interface for DDR SDRAM applications. It supports data rates up to 6400 Mbps, making it suitable for systems utilizing registered and load reduced memory modules. It's offered as a hard macro, primarily delivered as a GDSII file, and features over 150 customizable options to facilitate product differentiation across various usage scenarios. The PHY ensures high energy efficiency while maintaining top-tier performance, making it ideal for demanding environments including servers, desktops, and laptops.
Ubi.cloud is an innovative geolocation solution designed to minimize the typical limitations of GPS and Wi-Fi trackers in IoT applications. This software shifts energy-intensive processing from devices to the cloud, significantly reducing power consumption and hardware costs. The technology supports both outdoor GPS and indoor Wi-Fi geolocation, making it versatile for various environments. The solution features ultra-low power consumption, cutting the energy usage of receiver chipsets by up to tenfold compared to traditional devices. This is achieved by utilizing leading hardware components effectively, which accelerates time-to-market for IoT devices. Ubi.cloud is ideal for asset tracking, providing accurate geolocation services with enhanced efficiency. By leveraging the cloud, Ubi.cloud reduces the data payload to a mere 10 bytes per position, operating seamlessly with low-power wide-area networks such as Sigfox, LoRa, NB-IoT, and LTE-M. The flexible business model, offering pay-as-you-go or lifetime licenses, makes it accessible and adaptable to various commercial needs. Evaluation kits and SDKs are available, supporting easy integration and customization for specific applications.
The D-Series DDR5/4/3 Controller is designed to excel in latency, bandwidth, and area optimization. It connects to the PHY via a standard DFI 5.0 interface, facilitating seamless integration. This memory controller includes advanced scheduling technologies, ECC support, and multi-channel capabilities. Incorporating over 300 custom features available for customization, it enables significant flexibility and differentiation in memory system design. The D-Series DDR Controller is engineered to ensure robust performance in high-bandwidth requirements, making it suitable for diverse computing environments.
Atria Logic offers a high-speed, high-performance memory controller combined with a PHY that adheres to QDR IV XP specifications, enabling operation at impressive speeds of up to 800MHz. Designed for Stratix V FPGAs, this IP core supports two bidirectional ports and features advanced de-skew training sequences and per-bit calibration. It operates by handling rate conversions and intricate reset configurations, ensuring seamless and efficient data processing tasks. This makes it ideal for applications in networking and communication that demand high bandwidth and low latency.
The D2200 PCIe SSD by Swissbit is engineered for enterprise and data center environments, delivering remarkable speed and reliability in solid-state storage. By harnessing advanced NAND technology and utilizing a PCIe interface, it achieves swift data processing capabilities crucial for modern computational demands. This SSD is specifically designed to handle the extensive I/O operations of data-intensive tasks such as database management and AI-driven data analysis. Built with durability in mind, the D2200 supports a high degree of reliability, ensuring data integrity and reduced latency in critical applications. Its sophisticated power management and thermal management capabilities enhance its appeal as a highly efficient and robust storage solution.
Join the world's most advanced semiconductor IP marketplace!
It's free, and you'll get all the tools you need to discover IP, meet vendors and manage your IP workflow!