The GS881Z36AT-133IT is a high-performance Static Random Access Memory (SRAM) device manufactured by GSI Technology. It is designed for applications requiring fast access times and reliable data storage. This SRAM is organized as 256K x 36 bits, providing a substantial memory capacity for various applications.

Applications

• Networking equipment: Routers, switches, and other network infrastructure devices.
• Telecommunications systems: High-speed data processing and buffering in telecom applications.
• High-performance computing: Cache memory and data storage in HPC environments.
• Medical imaging equipment: Data acquisition and storage in medical imaging systems.
• Aerospace and defense systems: Reliable memory storage in critical applications.

Features

• High-speed access time: 133 MHz operation for fast data access.
• Organization: 256K x 36 bits memory array.
• Power supply: 3.3V power supply for compatibility with various systems.
• Operating temperature range: Industrial temperature range for reliable operation in harsh environments.
• Package: TQFP package for easy mounting and integration.

Benefits

• Enhanced system performance: Fast access times contribute to overall system speed and efficiency.
• Reliable data storage: Ensures data integrity and prevents data loss.
• Wide range of applications: Suitable for various applications requiring high-speed memory.
• Easy integration: Standard package and power supply make integration into existing systems straightforward.
• Cost-effective: Provides a balance of performance and cost for memory-intensive applications.

The GS881Z36AT-133IT SRAM offers a robust and reliable memory solution for applications demanding high-speed data access and storage. Its industrial temperature range and standard package make it suitable for a wide range of environments and systems. It is a 3.3V device, and further specifications would be available in the datasheet. This SRAM provides the necessary performance and reliability for critical applications, ensuring smooth and efficient operation.