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.
MEMTECH’s L-Series Controller leads the charge in low power and high-performance memory solutions, particularly suited for mobile and portable computing. This controller supports the latest LPDDR generations with speeds up to 6400 Mbps. Its architecture incorporates advanced scheduling for high throughput, efficient power management, and modular interfacing for seamless integrations, making it a versatile solution for next-generation mobile applications.
The xT CDx is an advanced FDA-approved assay designed for tumor and normal DNA sequencing. Incorporating a comprehensive 648-gene panel, this assay provides critical insights for diagnosing and treating solid tumors, with specific functions in guiding targeted therapies in colorectal cancer patients. The test includes a thorough mutation profiling system that allows healthcare professionals to analyze substitutions, insertions, and deletions, delivering a powerful means to refine treatment options. Beyond the standard, the xT CDx offers tumor and normal matched sequencing to distinguish somatic alterations, reducing false-positive results and improving accuracy in clinical assessments. Its integration into clinical practices is supported by its compatibility with various companion diagnostic claims, making it an essential tool for aligning treatment decisions with approved therapeutic products. By utilizing next-generation sequencing technologies, the xT CDx supports the optimization of treatment pathways and enhances patient care through detailed molecular insights. With the capacity to perform detailed analyses on formalin-fixed paraffin-embedded tumor tissues and matched normal samples, this assay promises high specificity and sensitivity in tumor profiling. Leveraging Tempus' cutting-edge bioinformatics infrastructure, the xT CDx ensures healthcare providers can make informed decisions supported by rich genetic data, setting a transformative benchmark in precision oncology.
The Titanium Ti375 FPGA from Efinix boasts a high-density, low-power configuration, ideal for numerous advanced computing applications. Built on the well-regarded Quantum compute fabric, this FPGA integrates a robust set of features including a hardened RISC-V block, SerDes transceiver, and LPDDR4 DRAM controller, enhancing its versatility in challenging environments. The Ti375 model is designed with an intuitive I/O interface, allowing seamless communication and data handling. Its innovative architecture ensures minimal power consumption without compromising on processing speed, making it highly suitable for portable and edge devices. The inclusion of MIPI D-PHY further expands its applications in image processing and high-speed data transmission tasks. This FPGA is aligned with current market demands, emphasizing efficiency and scalability. Its architecture allows for diverse design challenges, supporting applications that transcend traditional boundaries. Efinix’s commitment to delivering sophisticated yet energy-efficient solutions is embodied in the Titanium Ti375, enabling new possibilities in the realm of computing.
The Trion FPGA family by Efinix addresses the dynamic needs of edge computing and IoT applications. These devices range from 4K to 120K logic elements, balancing computational capability with efficient power usage for a wide range of general-purpose applications. Trion FPGAs are designed to empower edge devices with rapid processing capabilities and flexible interfacing. They support a diverse array of use-cases, from industrial automation systems to consumable electronics requiring enhanced connectivity and real-time data processing. Offering a pragmatic solution for designers, Trion FPGAs integrate seamlessly into existing systems, facilitating swift development and deployment. They provide unparalleled adaptability to meet the intricate demands of modern technological environments, thereby enabling innovative edge and IoT solutions to flourish.
The D-Series DDR5/4/3 PHY from MEMTECH is designed to address high-performance demands in servers, desktops, laptops, and other consumer electronics. It provides high-bandwidth and energy-efficient operations, supporting data rates up to 6400 Mbps. This PHY interface integrates effortlessly into designs, offering robust features like advanced calibration routines, signal integrity tests, and supports multitudes of DDR standards. This high-tech solution comes as a hard macro, ensuring ease of integration and maximum performance, particularly suited for high-demand applications needing registered and load-reduced modules. The D-Series DDR5 PHY offers further enhancements with support for data rates over 6400Mbps, featuring a variety of calibration and equalization techniques to ensure peak performance in varying conditions.
Truechip's Verification IP offers an effective solution for verifying components interfacing with industry-standard protocols in ASIC, FPGA, or SoC designs. These components are fully compliant with standard specifications and come with a plug-and-play interface, ensuring no delays in the design cycle. The VIP portfolio includes coverage, assertions, and error injection features, designed for stress testing the components. The IP's architecture is optimized for minimal compute resources, and it supports extensive configurability. Additionally, Truechip Verification IPs include assertion support usable in both formal and dynamic verification scenarios across leading industry simulators.
Ubi.cloud represents a transformative leap in IoT tracking innovation, targeting the reduction of power consumption by transferring GPS and Wi-Fi processing to the cloud. This strategic shift helps in creating compact, efficient IoT tracking devices that boast a reduced footprint and minimized cost. By enhancing power efficiency, Ubi.cloud supports improved device longevity and operational cost, positioning itself as a vital element for device and chipset manufacturers seeking to manage IoT tracking efficiently. The Ubi.cloud platform integrates two core technologies: UbiGNSS and UbiWiFi. UbiGNSS manages outdoor geolocation through GPS, providing impressive savings by reducing the positioning time drastically compared to traditional methods. Meanwhile, UbiWiFi facilitates indoor urban geolocation through efficient Wi-Fi sniffing, ensuring performance that rivals native Wi-Fi solutions. Beyond its technological advantages, Ubi.cloud enables flexible business models with options for pay-as-you-go or lifetime licenses, catering to diverse market needs. Compatibility with low-power wide area network technologies such as Sigfox, LoRa, NB-IoT, and LTE-M offers users versatile use-cases in asset tracking and enhances the effectiveness of connected solutions in various sectors.
The D-Series DDR5/4/3 Controller by MEMTECH is a high-performance memory controller that excels in latency management and bandwidth optimization. It is specifically tailored for applications requiring seamless physical layer integration and supports a range of standard interfaces such as DFI 5.0. With advanced command schedulers, sequencers, and error correction capabilities, this controller ensures data integrity and high-speed processing. Its design includes versatile support for multiple DDR generations, making it ideal for diverse technological environments and expanding the potential for product differentiation through customizable features.