Digital Signal Processors – Getting Started
World leaders in DSP
- Wide range of performance addressing broad range of embedded market.
- Lowest power consumption DSPs - C55x family.
- Highest-performance Multicore DSPs (used in specialized servers) - C6678 Multicore DSP and 66AK2H14 ARM® + DSP
- DSP Processors optimized with wide range of peripherals supporting graphics, video encode/decode, high-speed connectivity, industrial communications, and more.
- System-on-chip solutions available with integrated ARM cores for size, weight, and power savings (SWAP).
- Easy software development with TI's world-class optimizing compiler, Code Composer Studio™ IDE, and optimized DSP libraries.
- Real-time Operating System (TI-RTOS) available and supported by TI for time-critical applications.
- TI Design Network offers experienced developers to aid in software/hardware development.
Digital signal processors
DSPs bring computing performance, real-time processing, and power efficiency to diverse applications ranging from sensors to servers. Our product range spans high-performance real-time needs, to power-efficient processors with industry-leading lowest active power needs. Choose one of our scalable solutions below.
|Speed (MHz)||50-300MHz||200-456MHz||850MHz-1.4GHz||ARM: 600MHz to 1.4 GHz
DSP: 600MHz to 1.4 GHz
|FLOPS/MACS/MIPS||Up to 600 MMACS||Up to 2.7 GFLOPS
Up to 3.6 GMACS
|Up to 179 GFLOPS
Up to 358 GMACS
|Up to 19600 DMIPS
Up to 67.2 GFLOPS
Up to 44.8 GMACS
|Power Consumption (typ.)||20-300mW||&ld;0.5W||2W-10W||1.5W-12W|
|External Memory||16b SDRAM||16b DDR2/mDDR||64b (LP)DDR3 w/ECC||64b (LP)DDR3 w/ECC
32b DDR3L w/ECC
|Operating system||CSL||TI RTOS||TI RTOS||Linux™/TI RTOS|
|Key Features||Ultra-low power, fixed point DSP, FFT hardware accelerator, integrated LDO, small footprint||Low power, fixed floating point DSP, code reuse from C64x/C67x, PRU, pin compatible with OMAP-L138/2, secure boot option||High performance, power efficient fixed floating point, Keystone architecture for enhanced multicore performance, Security and Packet acceleration, Single to eight C66x core scalability||Up to 4 High performance ARM® Cortex®-A15 cores with NEON, power efficient fixed floating point C66x DSP, Keystone architecture for enhanced multicore performance, security and packet acceleration, integrated digital front end (DFE), industrial acceleration|
|Peripherals||USB, UART, I2C, McSPI, EMIF, ADC, LDO, LCD interface||LCD Controller, USB2, SATA, EMAC, Video in/out, uPP (for high speed data converters)||PCIe Gen2, Serial RapidIO, GigE with integrated switch, Hyperlink||Up to two 10GigE and eight GigE ports with integrated switches, PCIe Gen2, Telecom Serial Interface Port (TSIP), Hyperlink, JESD204B, McASP, Display, PRU-ICSS|
|Applications||Wearables, audio, biometrics||Mobile radio, Currency counter, Biometrics||Machine vision, Radar, Embedded analytics, Multimedia infrastructure, Avionics, Imaging||Avionics and Defense, Communications and Telecom, Industrial and Process Control, Test and Measurement|
|Pricing||Starting at $1.95 (1K)||Starting at $6.30 (1K)||Starting at $33.60 (1K)||Starting at $20.10 (1K)|
|Learn More||Learn more about C55x||Learn more about C674x||Learn more about C66x||Learn more about 66AK2x|
Benchmarks are a useful tool in judging a processor’s performance. The pages and links here present a sampling of benchmark data from TI’s optimized libraries, as well as independent benchmarking results.
We have divided TI benchmarks into two major categories:
- Core benchmarks – focused solely on the performance of a single core type.
- Device benchmarks – benchmarks at the device level. These may include multiple cores, memory, data movement, and cache effects in the measurement.