Overview
The TMS320C6711BGFN150 is a high-performance digital signal processor (DSP) from Texas Instruments, part of the TMS320C6000 DSP platform. This device is based on the advanced very-long-instruction-word (VLIW) architecture, making it an excellent choice for multichannel and multifunction applications. The TMS320C6711B offers significant processing power, operational flexibility, and a robust set of peripherals, making it suitable for a wide range of signal processing tasks.
Key Specifications
| Parameter | Value |
|---|---|
| Processor Core | 32-bit RISC CPU core |
| Clock Rate | Up to 150 MHz |
| Instruction Cycle Time | 6.7 ns (at 150 MHz), 10 ns (at 100 MHz) |
| Performance | Up to 900 MFLOPS (at 150 MHz), up to 600 MFLOPS (at 100 MHz) |
| Functional Units | Eight highly independent functional units: four floating-/fixed-point ALUs, two fixed-point ALUs, and two floating-/fixed-point multipliers |
| Registers | 32 general-purpose registers of 32-bit word length |
| Cache Architecture | Level 1 program cache (L1P): 32-Kbit direct mapped cache; Level 1 data cache (L1D): 32-Kbit 2-way set-associative cache; Level 2 memory/cache (L2): 512-Kbit shared between program and data space |
| Peripherals | Two multichannel buffered serial ports (McBSPs), two general-purpose timers, host-port interface (HPI), glueless external memory interface (EMIF) |
| Package | 256-Pin Ball Grid Array (BGA) package |
| Voltage | Core: 1.8V, I/O: 3.3V |
| Process Technology | 0.18-µm CMOS technology |
Key Features
- High-Performance VLIW Architecture: Supports up to eight 32-bit instructions per cycle, enhancing multichannel and multifunction capabilities.
- Advanced Functional Units: Includes four floating-/fixed-point ALUs, two fixed-point ALUs, and two floating-/fixed-point multipliers.
- Robust Cache Architecture: Features Level 1 and Level 2 caches, with configurable L2 memory for optimal performance.
- Diverse Peripherals: Includes McBSPs, general-purpose timers, HPI, and EMIF for versatile interfacing options.
- Development Tools: Supports a new C compiler, assembly optimizer, and Windows debugger interface for efficient development.
- IEEE Compliance: Supports IEEE single-precision and double-precision instructions and is IEEE-1149.1 (JTAG) boundary-scan-compatible.
Applications
- Signal Processing: Ideal for audio, image, and video processing tasks due to its high-performance capabilities.
- Telecommunications: Suitable for multichannel and multifunction applications in telecommunications systems.
- Industrial Control: Can be used in industrial control systems requiring high-speed processing and multiple functionalities.
- Medical Devices: Applicable in medical devices that require advanced signal processing capabilities.
- Aerospace and Defense: Used in various aerospace and defense applications where high-performance signal processing is critical.
Q & A
- What is the TMS320C6711BGFN150?
The TMS320C6711BGFN150 is a high-performance digital signal processor from Texas Instruments, part of the TMS320C6000 DSP platform.
- What is the clock rate of the TMS320C6711BGFN150?
The clock rate can be up to 150 MHz.
- What is the performance of the TMS320C6711BGFN150?
It offers up to 900 MFLOPS at a clock rate of 150 MHz.
- What type of cache architecture does the TMS320C6711BGFN150 use?
It uses a two-level cache-based architecture with Level 1 and Level 2 caches.
- What peripherals are included in the TMS320C6711BGFN150?
It includes two McBSPs, two general-purpose timers, HPI, and EMIF.
- What is the package type of the TMS320C6711BGFN150?
It is packaged in a 256-Pin Ball Grid Array (BGA) package.
- What is the voltage requirement for the TMS320C6711BGFN150?
The core voltage is 1.8V, and the I/O voltage is 3.3V.
- Is the TMS320C6711BGFN150 IEEE-1149.1 (JTAG) compliant?
Yes, it is IEEE-1149.1 (JTAG) boundary-scan-compatible.
- What development tools are available for the TMS320C6711BGFN150?
It supports a new C compiler, assembly optimizer, and Windows debugger interface.
- What are some typical applications of the TMS320C6711BGFN150?
It is used in signal processing, telecommunications, industrial control, medical devices, and aerospace and defense applications.
