The GS832136E-166T is a high-performance synchronous Burst SRAM (Static Random-Access Memory) from GSI Technology. This SRAM is designed to provide fast access times and high bandwidth, making it suitable for demanding applications in networking, telecommunications, and data processing. Its synchronous operation and burst mode capabilities contribute to its high performance.

Applications

• Networking equipment, including routers, switches, and line cards.
• Telecommunications systems, such as base stations and central office equipment.
• Data processing applications, including servers and storage systems.
• High-performance computing.
• Test and measurement instruments.

Features

• High-speed synchronous operation: 166 MHz clock rate.
• 36-bit data bus width.
• 1M x 36-bit memory organization.
• Burst mode operation for fast data transfers.
• Internal pipelined architecture.
• Byte Write control.
• LVTTL compatible inputs and outputs.
• Available in a TQFP package.

Benefits

• High-speed data access: The 166 MHz clock rate and burst mode operation ensure fast data access, minimizing latency and improving system performance.
• Increased bandwidth: The 36-bit data bus width and burst mode capabilities enable high bandwidth, allowing for rapid data transfer.
• Improved system performance: The combination of speed and bandwidth enhances the overall performance of systems in which it is used.
• Simplified system design: LVTTL compatible inputs and outputs simplify integration into various systems.
• Reduced power consumption: Designed for efficient power consumption, contributing to lower operating costs and longer battery life in portable applications.
• Compact footprint: The TQFP package allows for a smaller footprint on the PCB.

Additional Details

The GS832136E-166T features an internal pipelined architecture, which allows for parallel operations and further enhances performance. The Burst SRAM uses a synchronous interface and is designed for block transfers. The Byte Write control provides flexibility in data manipulation, allowing individual bytes within the 36-bit word to be written. The device supports various burst modes, enabling efficient data transfer in sequential or interleaved patterns. It is designed to operate over a wide temperature range, ensuring reliable operation in different environments.