Analog Devices Inc. ADSP-21062LAB-160

The ADSP-21062LAB-160, produced by Analog Devices Inc., is a member of the ADSP-2106x SHARC (Super Harvard Architecture Computer) family of digital signal processors (DSPs). This 32-bit signal processing microcomputer is designed to offer high levels of DSP performance, integrating a high-performance floating-point DSP core with various on-chip system features. Fabricated in a high-speed, low-power CMOS process, the ADSP-21062LAB-160 operates at 40 MHz with a 25 ns instruction cycle time and achieves 120 MFLOPS peak performance.

The processor is optimized for high-performance DSP applications and is code compatible with all SHARC processors. It supports IEEE-compatible 32-bit floating-point, 40-bit floating-point, and 32-bit fixed-point math, making it versatile for a wide range of signal processing tasks.

• High Performance DSP Core: The ADSP-21062LAB-160 features a high-performance floating-point DSP core with a 40 MHz clock rate and 120 MFLOPS peak performance.
• Dual-Ported On-Chip SRAM: The processor includes 2 Mbit of dual-ported on-chip SRAM, allowing for single-cycle, independent accesses by the core processor and I/O processor or DMA controller.
• Integrated I/O Peripherals: It includes a host processor interface, DMA controller, two synchronous serial ports, and six Link Ports for point-to-point connectivity and array multiprocessing.
• Glueless Multiprocessing: The processor supports glueless connection for scalable DSP multiprocessing, enabling efficient multi-processor systems.
• Mathematical Capabilities: Supports IEEE-compatible 32-bit floating-point, 40-bit floating-point, and 32-bit fixed-point math.
• Low Power CMOS Process: Fabricated in a high-speed, low-power CMOS process, ensuring efficient operation.

The ADSP-21062LAB-160 is suited for a variety of high-performance signal processing applications, including:

• Audio Processing: Real-time audio processing, audio compression, and audio enhancement.
• Image Processing: Image compression, image enhancement, and video processing.
• Telecommunications: Modem design, echo cancellation, and voice compression.
• Industrial Control: Real-time control systems, motor control, and predictive maintenance.
• Medical Devices: Medical imaging, patient monitoring, and diagnostic equipment.

1. What is the clock speed of the ADSP-21062LAB-160?

   The ADSP-21062LAB-160 operates at a clock speed of 40 MHz.

2. What is the peak performance of the ADSP-21062LAB-160?

   The peak performance of the ADSP-21062LAB-160 is 120 MFLOPS.

3. How much on-chip SRAM does the ADSP-21062LAB-160 have?

   The ADSP-21062LAB-160 includes 2 Mbit of dual-ported on-chip SRAM.

4. What types of mathematical operations does the ADSP-21062LAB-160 support?

   The ADSP-21062LAB-160 supports IEEE-compatible 32-bit floating-point, 40-bit floating-point, and 32-bit fixed-point math.

5. What kind of interfaces and connectivity does the ADSP-21062LAB-160 offer?

   The processor includes a host processor interface, DMA controller, two synchronous serial ports, six Link Ports, and parallel bus connectivity.

6. What is the operating voltage of the ADSP-21062LAB-160?

   The operating voltage of the ADSP-21062LAB-160 is 3.3 V.

7. What is the temperature range for the ADSP-21062LAB-160?

   The temperature range for the ADSP-21062LAB-160 is -40°C to +85°C.

8. What package type is the ADSP-21062LAB-160 available in?

   The ADSP-21062LAB-160 is available in a 225-Ball PBGA (23mm x 20mm) package.

9. Is the ADSP-21062LAB-160 code compatible with other SHARC processors?

   Yes, the ADSP-21062LAB-160 is code compatible with all SHARC processors.

10. What are some typical applications of the ADSP-21062LAB-160?

    The ADSP-21062LAB-160 is typically used in audio processing, image processing, telecommunications, industrial control, and medical devices.