Lattice Semiconductor Corporation
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M4A3-256/192-10FAI
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M4A3-256/192-10FAI

Product Overview

Category

The M4A3-256/192-10FAI belongs to the category of solid-state drives (SSD).

Use

It is primarily used as a storage device in electronic systems, providing high-speed and reliable data storage.

Characteristics

  • Solid-state technology: The M4A3-256/192-10FAI utilizes flash memory to store data, ensuring faster access times compared to traditional hard disk drives.
  • High capacity: With a storage capacity of 256GB or 192GB, it offers ample space for storing various types of data.
  • Compact package: The M4A3-256/192-10FAI comes in a small form factor, making it suitable for integration into compact electronic devices.
  • Enhanced durability: It is designed to withstand shocks, vibrations, and extreme temperatures, ensuring reliable performance even in harsh environments.
  • Low power consumption: The SSD consumes less power compared to traditional hard drives, contributing to energy efficiency.

Packaging/Quantity

The M4A3-256/192-10FAI is typically packaged individually in an anti-static bag to prevent damage during transportation. It is available in both retail and bulk packaging options, with quantities ranging from single units to larger volumes for industrial applications.

Specifications

  • Storage Capacity: 256GB or 192GB
  • Interface: SATA III (6Gb/s)
  • Form Factor: 2.5-inch
  • NAND Flash Type: Multi-Level Cell (MLC)
  • Read Speed: Up to 550MB/s
  • Write Speed: Up to 520MB/s
  • Operating Temperature: 0°C to 70°C
  • Power Consumption: Idle - 0.195W, Active - 1.7W

Detailed Pin Configuration

The M4A3-256/192-10FAI follows the standard SATA interface pin configuration, with seven pins for data transfer and power supply.

Functional Features

  • Fast data transfer: The M4A3-256/192-10FAI offers high-speed data transfer rates, allowing for quick access to stored information.
  • Reliable performance: With solid-state technology, it provides consistent and reliable performance, minimizing the risk of data loss or corruption.
  • Enhanced data security: The SSD supports advanced encryption algorithms, ensuring the confidentiality and integrity of stored data.
  • TRIM support: It features TRIM command support, which helps maintain optimal performance by efficiently managing unused storage space.
  • Noiseless operation: Unlike traditional hard drives, the M4A3-256/192-10FAI operates silently due to its lack of moving parts.

Advantages and Disadvantages

Advantages

  • Faster data access and transfer speeds compared to traditional hard drives.
  • Improved durability and resistance to physical shocks and vibrations.
  • Lower power consumption, contributing to energy efficiency.
  • Compact form factor, suitable for integration into various electronic devices.

Disadvantages

  • Relatively higher cost per gigabyte compared to traditional hard drives.
  • Limited lifespan due to the finite number of write cycles for flash memory cells.
  • Capacity limitations compared to larger mechanical hard drives.

Working Principles

The M4A3-256/192-10FAI utilizes NAND flash memory chips to store data. When data is written, electrical charges are applied to the memory cells, altering their states to represent binary values. To read data, the controller retrieves the stored charge levels and converts them back into usable information. This process allows for fast and reliable data storage and retrieval.

Detailed Application Field Plans

The M4A3-256/192-10FAI finds applications in various fields, including: 1. Personal Computers (PCs) and laptops: It serves as the primary storage device, improving system boot times and overall performance. 2. Gaming consoles: The SSD enhances game loading times, reducing waiting periods for gamers. 3. Industrial automation: It provides reliable and high-speed data storage for industrial control systems. 4. Medical equipment: The M4A3-256/192-10FAI ensures quick access to patient records and medical imaging data. 5. Data centers: It is used in server systems to store and retrieve large amounts of data efficiently.

Detailed and Complete Alternative Models

  1. M4A3-128/96-10FAI: A variant with a lower storage capacity of 128GB or 96GB.
  2. M4A3-512/384-10FAI: A higher-capacity model offering 512GB or 384GB of storage space.
  3. M4A3-256/192-10FBI: Similar to the M4A3-256/192-10FAI but featuring enhanced security features.

In conclusion, the M4A3-256/192-10FAI is a solid-state drive

Luettele 10 yleistä kysymystä ja vastausta, jotka liittyvät M4A3-256/192-10FAI :n soveltamiseen teknisissä ratkaisuissa

  1. What is the M4A3-256/192-10FAI used for?
    - The M4A3-256/192-10FAI is a high-performance FPGA (Field Programmable Gate Array) used in technical solutions for signal processing and data acceleration.

  2. How does the M4A3-256/192-10FAI improve performance?
    - It improves performance by providing parallel processing capabilities and customizable logic, allowing for efficient handling of complex algorithms and data streams.

  3. Can the M4A3-256/192-10FAI be integrated with existing systems?
    - Yes, it can be integrated into existing systems through standard interfaces such as PCIe or Ethernet, making it versatile for various applications.

  4. What programming languages are supported for the M4A3-256/192-10FAI?
    - The M4A3-256/192-10FAI supports popular programming languages such as Verilog, VHDL, and OpenCL for hardware description and acceleration.

  5. Is the M4A3-256/192-10FAI suitable for real-time processing?
    - Yes, it is suitable for real-time processing due to its low latency and high throughput capabilities.

  6. What kind of applications benefit from using the M4A3-256/192-10FAI?
    - Applications such as radar processing, image recognition, financial analysis, and scientific computing benefit from the M4A3-256/192-10FAI's performance and flexibility.

  7. Can the M4A3-256/192-10FAI be reconfigured for different tasks?
    - Yes, it can be reconfigured on-the-fly to adapt to different tasks and requirements, making it highly adaptable in dynamic environments.

  8. What are the power requirements for the M4A3-256/192-10FAI?
    - The M4A3-256/192-10FAI typically requires low power consumption, making it suitable for embedded and edge computing applications.

  9. Are there development tools available for the M4A3-256/192-10FAI?
    - Yes, there are development tools and libraries provided by the manufacturer to facilitate design, simulation, and testing of applications using the M4A3-256/192-10FAI.

  10. What are the key advantages of using the M4A3-256/192-10FAI in technical solutions?
    - The key advantages include high performance, flexibility, scalability, and the ability to offload compute-intensive tasks from traditional processors, improving overall system efficiency.