The GS8342Q36BGD-250 is a high-performance synchronous static random-access memory (SSRAM) device manufactured by GSI Technology. It is designed for applications requiring high bandwidth and low latency, offering fast data access and reliable operation. The device is organized as 1M x 36 bits and operates at a frequency of 250 MHz.

Applications

• Networking equipment (routers, switches)
• High-performance computing
• Data centers
• Telecommunications infrastructure
• Test and measurement equipment

Features

• High bandwidth: Supports data transfer rates up to 9 GB/s.
• Fast access time: Provides quick data access for demanding applications.
• Synchronous operation: Operates with a clock signal for precise timing and data synchronization.
• 1M x 36 organization: Offers a large memory capacity.
• 250 MHz clock frequency: Enables high-speed data processing.

Benefits

• Improved system performance: High bandwidth and fast access time enhance overall system speed and responsiveness.
• Increased data throughput: Facilitates efficient data transfer in high-demand environments.
• Enhanced reliability: Robust design ensures stable and dependable operation.
• Reduced latency: Minimizes delays in data access, improving real-time performance.
• Optimized power consumption: Designed for efficient power usage, reducing energy costs.

Additional Details

The GS8342Q36BGD-250 features a burst counter, which allows for efficient data transfers. It supports multiple burst modes to optimize data throughput for various application requirements. The SSRAM operates on a supply voltage of typically 2.5V or 3.3V, depending on the specific configuration. The package type is often a BGA (Ball Grid Array), which provides excellent thermal and electrical performance. It is designed to operate over an industrial temperature range, typically from -40°C to +85°C. GSI Technology's SSRAMs are known for their high quality and reliability, making them suitable for critical applications. The device incorporates advanced circuit design techniques to minimize power consumption while maintaining high performance.