M31’s advanced memories enhance performance and efficiency across platforms, offering cutting-edge IP for high-performance SSDs and NAND Flash controllers.

Leading the Future, Driving Innovation

Memory in Digital Devices

  • Memory stores and retrieves digital information in electronic devices.
  • It is essential across almost every computing platform … smartphones, computers, and gaming consoles.
  • Memory circuit types include SRAM, DRAM, and Flash memory.

M31’s Diverse Memory Portfolio

  • M31 memory compilers and controllers enhance system performance.
  • Improves memory systems functionality.
  • Caters to specific applications across different platforms.

High-Performance Memory Solutions

  • M31 provides high-speed interface IP optimized for SSDs and NAND Flash memory controllers.
  • These solutions deliver outstanding performance and minimize power consumption.
  • Ensures optimized area utilization for industry-leading high-performance memory applications.

Benefits

Improved performance

Optimizes IP performance, resulting in faster access times, higher data transfer rates, and improved overall system performance.

Reduced power consumption

Minimizes power consumption in memory systems and SoC, resulting in longer battery life for mobile devices, embedded flash controller ICs.

Smaller area

Minimizes memory system area, allowing for more compact and cost-effective designs.

High quality and reliability

Produces high-quality and reliable memory IP, backed by rigorous testing and verification procedures.

M31 Memory IP

CPU Cache
Electric Vehicles
CPU Cache

CPU Cache

M3` provides basic Single-port SRAM, Dual-port SRAM, and 1-port Register file. The company also offers a new generation of 4-port SRAM (multi-bit Register file) that supports 2R2W operations. Each port has independent operation modes without interference, and utilizes masking techniques during read and write operations to ensure data stability and meet parallel data processing requirements. A boosted amplifier architecture has been developed to meet ultra-high-frequency requirements exceeding gigahertz frequencies internally within the processor.

Electric Vehicles

Electric Vehicles

All electric vehicles host a built-in high-speed data transmission network that provides individual sensor information to the central computer. M31’s PCIe 4.0 PHY, USB 3.2 Gen2 PHY, and Serdes meet the bandwidth requirements of automotive networks. The company also provides MIPI M-PHY as a high-speed interface for rapid data storage. Finally, M31 offers low-power (Dual-Rail SRAM Compiler) and low-voltage (Low VDDMin SRAM Compiler) solutions for power management chips to improve the efficiency of automotive battery energy management.