All IPs > Memory Controller & PHY > eMMC
The eMMC (Embedded MultiMediaCard) Memory Controller and PHY semiconductor IP category at Silicon Hub presents a range of integrated circuits essential for managing data storage in embedded systems. eMMC technology combines a controller and flash memory into a single BGA (Ball Grid Array) package to streamline communication between the host processor and storage media. These semiconductor IPs are vital in ensuring robust data management, high performance, and reliability in devices ranging from smartphones to embedded industrial applications.
In today's digital world, efficient storage solutions are crucial. eMMC Memory Controller and PHY solutions enable seamless data transfer between the main system and the embedded storage, ensuring quick access and high data throughput. The controller manages data reading and writing, wear leveling, error correction, and memory management, while the PHY (Physical Layer) interface ensures high-speed data communication and effective signal integrity. This integration is critical in applications where space and power efficiency are major considerations, such as in portable devices and automotive electronics.
Our portfolio of eMMC semiconductor IPs caters to diverse technical specs and supports various eMMC standards, from legacy versions to the latest specifications, thus facilitating future-proof designs. Engineers and designers can choose from a wide array of IPs that offer configurations supporting different capacities, speeds, and operational efficiencies tailored to specific application requirements. By integrating these semiconductor IPs, developers can reduce design complexity, accelerate time to market, and ultimately deliver high-performing, reliable products.
Silicon Hub ensures that every eMMC Memory Controller and PHY IP undergoes rigorous validation to guarantee compatibility and interoperability with popular hardware platforms. This reliability gives developers the peace of mind needed to innovate without worrying about storage constraints. With our comprehensive support and documentation, implementing these IPs into any design is straightforward, helping create advanced products that meet modern day demands for storage effectiveness and efficiency.
The DDR5/4 PHY & Memory Controller from SkyeChip presents an outstanding solution for high-performance and power-efficient memory interfacing, adhering strictly to the DDR5 (JESD79-5) and DDR4 (JESD79-4) standards. This single solution offers a comprehensive PHY & Controller setup with a remarkable efficiency of over 85%. It supports data rates up to 4800 MT/s and can be upgraded to 6400 MT/s, making it ideal for a variety of applications. SkyeChip's design includes advanced I/Os and configurable training sequences, providing flexibility and robustness in supporting diverse SDRAM modules and ranks, and allowing for seamless integration into complex memory systems.
Ziptilion BW is designed to deliver enhanced DDR bandwidth, achieving up to 25% more output at nominal frequency and power, thus enabling more performance-optimized and energy-efficient SoC designs. This product integrates seamlessly into existing systems, providing a noticeable boost in data throughput capabilities while minimizing power consumption. Its state-of-the-art design supports the advanced computational needs of modern data centers while significantly reducing operational energy costs.
The MVDP2000 series is engineered to deliver high sensitivity in differential pressure measurement using proprietary capacitive technology. This series is specifically designed for applications that demand precision and low power use, excelling in environments such as healthcare, HVAC, and industrial settings. It provides fast and accurate pressure readings while maintaining low energy consumption, making it suitable for portable and OEM devices where efficiency and quick response are essential.
The BCH Error Correcting Code ECC is crafted to provide paramount error correction capabilities, ideal for applications demanding high data fidelity and error resilience. This code is quintessentially designed to operate asynchronously with zero latency, optimized for minimal power use and gate count. It eliminates the necessity for synchronous logic by adopting a purely combinatorial gate-driven process. The BCH Code supports a variety of environments through configurable parameters, such as symbol size and error symbol corrigibility, thereby offering a flexible use-case across multiple domains. This IP is particularly beneficial in high-performance computing and communication systems, ensuring data integrity in storage devices like SSD controllers and high-speed interface applications. Its capacity to handle several error types without requiring sequential logic resources enhances its applicability in modern integrated circuits, where space and power constraints are pivotal.
Trifecta-SSD-RAID is a high-performance, single-slot M.2 NVMe SSD RAID module designed for PXIe and CPCIe platforms. Tailored for wideband, high-speed RF and microwave recording, playback, and data storage, this product excels in both capacity and speed. It supports storage capacities ranging from 8TB to 64TB per slot, and offers robust sequential read/write performance of up to 7 GB/sec. Its architecture enables the use of up to eight M.2 NVMe SSDs, leading to exceptional storage performance without common glitches. The module is ideal for applications requiring sustained high bandwidth streaming, such as multi-channel RF signal recording. Compatible with both Windows and select Linux distributions, the Trifecta-SSD-RAID ensures high compatibility across a variety of operating systems and complies with industry standards including RoHS and FCC Class A. This product sets a new standard for storage solutions with its long lifecycle and value-based pricing, typically offering per-terabyte costs significantly lower than competitors.
The Trifecta-SSD-RM offers a flexible, high-performance data storage solution for PXIe and 3U CPCIe environments. It features removable M.2 NVMe SSD cartridges supporting capacities from 1TB to 8TB. This single-slot module boasts read/write speeds up to 3.5 GB/sec, significantly enhancing data throughput compared to traditional Embedded Controller SSDs. Beyond speed, the Trifecta-SSD-RM supports software-based RAID configurations, allowing users to customize capacity and performance as needed. This flexibility makes it an excellent fit for data-intensive applications requiring swift data backup and security level modifications, all while offering an affordable price point. The product's rapid interchangeability of data cartridges simplifies upgrades and replacements, effectively addressing evolving data acquisition needs. With its robust design and manufacturing in the USA, Trifecta-SSD-RM maintains a long lifecycle, making it a reliable choice for advanced data storage solutions.
The D-Series DDR5/4/3 PHY focuses on high-performance applications, ensuring reliability and efficiency in memory operations. This PHY interface supports data rates up to 6400 Mbps, making it ideal for high-performance servers, desktops, and laptops. It is supplied as a hard macro with GDSII, integrating over 150 customizable features to allow differentiation in various technological environments. Capable of handling multiple memory modules with ease, the D-Series DDR solves challenges in dynamic computer environments effectively.
The UFS 4.0 Host IP by Arasan Chip Systems takes data storage and transfer capabilities to new heights with its support for the latest UFS standards. This IP caters to the requirements of high-performance storage systems used in modern consumer electronics, automotive infotainment, and IoT devices. Delivering data transfer rates significantly superior to previous standards, the UFS 4.0 Host IP guarantees rapid access to large volumes of data, crucial for applications that demand high-speed storage such as VR/AR environments and high-definition multimedia applications. Its design incorporates several power management features that contribute to enhanced energy efficiency, extending battery life in portable devices. Furthermore, the IP integrates features like Command Queue Priority and Write Turbo, offering tunable performance enhancements that maximize throughput efficiency. Engineers can leverage these capabilities to develop systems with superior data handling, ensuring top-tier performance for end-users.
The S9 microSD and SD controller is engineered for industrial applications where security and reliability are paramount. The controller is equipped with advanced flash management features such as hyReliability, which includes superior wear leveling and power fail management for enhanced durability. The inclusion of hyMap firmware ensures second-to-none random write performance and low write amplification, making the S9 ideal for high-endurance storage solutions. Moreover, the S9 provides a turnkey solution with firmware and health monitoring tools, facilitating easy integration into host systems up to the SD 7.1 interface.
Arasan's eMMC 5.1 Device Controller IP is crafted to deliver high efficiency and reliability for mobile storage solutions. This IP handles the complex task of managing eMMC memory protocols, facilitating faster data read and write operations which are critical for modern smartphones, tablets, and other data-intensive devices. Engineered to operate at advanced JEDEC standards, the eMMC 5.1 Device Controller IP provides robust support for the latest memory technologies. This includes features like enhanced strobe and command queuing, which together ensure minimized latency and improved throughput, delivering a seamless user experience in storage-demanding applications. Moreover, the IP's proven design and compliance with rigorous automotive standards make it suitable for applications in both consumer electronics and critical automotive systems. Its high-speed interconnect and reduced power consumption profile cater to the demands of next-generation SoCs, making it an ideal solution for integration into advanced systems requiring high reliability.
UFS Solutions deliver superior performance for mobile storage applications by supporting the most recent UFS standards while being backward compatible with prior versions. This ensures that developers can incorporate advanced storage capabilities without sacrificing legacy system functionality. Offering a range of device and host controller configurations, UFS Solutions are tailored to meet the stringent demands of modern technology environments. With integration of UNIPro layer upgrades, it provides robust solutions that cater to the rising storage and data transfer needs in mobile and computing devices. The adaptability and high performance make UFS Solutions suitable for a multitude of applications, including mobile phones, tablets, and other portable devices. Developers can rely on this IP for creating smooth, efficient, and fast data management systems that underpin today's data-driven world.
The EM-30 series represents a robust and cost-efficient memory solution tailored for industrial sectors. Equipped with NAND TLC technology, this e.MMC 5.1 storage device accommodates up to 256 GB, offering substantial storage capacity for a wide array of applications. Engineered to withstand rigorous industrial conditions, the EM-30 series guarantees reliability and consistent performance. This series excels in environments demanding both durability and efficiency, boasting swift data transfer rates and extended operational life. Designed with embedded applications in mind, these memory solutions are optimized for harsh conditions, ensuring stable functionality across diverse temperatures and physical demands. The advanced controller technology embedded within the EM-30 ensures compatibility with a range of industrial interfaces, facilitating easy integration into existing systems. By balancing cost-effectiveness with high performance, these modules stand out as a preferred choice for industries requiring dependable memory solutions.
The F9 CF PATA Flash Controller is crafted to cater to industrial storage demands that rely on CompactFlash and Parallel ATA interfaces. Despite its legacy status, this controller continues to serve vital functions within various enduring systems, including automation equipment and 3G base stations. It operates on a 32-bit RISC core with advanced AES encryption capabilities, making it suitable for robust industrial-grade applications. The F9 features a powerful ECC engine, optimized for Flash Memory operations, and a customizable firmware allowing for unique storage solutions. It also supports numerous industrial protocols and connectivity options, making it a versatile choice for diverse industrial environments.
GL9767 stands out as a versatile PCI Express card reader controller, integrating cutting-edge PCI Express PHY and memory card access interfaces to support a broad spectrum of SD card technologies. Full compliance with PCI Express Rev. 2.1 specifications ensures reliable data transfers across devices, while advanced support for high-capacity cards like SDXC and SDUC make it indispensable for high-density storage applications. This controller effectively ranges over various SD interface speeds, including UHS-I and UHS-II, reaching up to 985MB/sec, providing superior performance for data-intensive tasks. It incorporates sophisticated power-saving features such as PCI Express ASPM and Latency Tolerance Reporting, enhancing energy efficiency without compromising speed. Delivering unmatched support for multiple performance classes and card formats ensures the GL9767 can handle the most demanding applications, whether in consumer electronics, computing systems, or specialized storage solutions. With its efficient hardware DMA engine and comprehensive card compatibility features, this controller is a multifunctional asset for modern digital applications.
The LPDDR4/4X technology from M31 Technology accommodates demanding memory interface requirements, with dual-interface support operating up to 4267Mbps. It integrates power saving and performance enhancement features, vital for high-end applications in automotive, mobile, and computing sectors. Adapted for a flexible floor plan with package design support, this PHY solution assures performance enhancement with low power draw, ideal for device-level designs such as ASICs and SoCs.
The Quad SPI Flash Memory Controller facilitates high-speed data exchange between devices and quad SPI flash memories. It optimizes operations to enhance system speed and efficiency, particularly in scenarios requiring fast memory interfacing. This controller's flexible integration capabilities make it ideal for a wide range of applications, from consumer electronics to industrial systems.