High Performance Digital Signal Processor
ER-DSPC-10 processor is the first 32-bit high-performance general purpose floating-point digital signal processor. It is completely self-innovated in instruction set, architecture and developing environment. The computing power reaches 18 billion floating-point operations per second which is 4 times over TS201, a similar product of ADI. The processor has been successfully applied in dozens of products. Compared with imported devices, needed DSP is reduced by 50%, power consumption is reduced by 25%, and success rate of board debugging is increased by 15%.
"ER-DSPC-10" processor can be widely used in high-performance signal processing fields such as communication, instrumentation, and medical electronics.
Technical Characteristics
Deep Submicron Physical Design
Unified Integrated Development Environment
Fully Autonomous C Compiler
Typical Technical Indicators
DSP Frequency: 300MHz
Computing Performance: 18GFLOPs
On-chip Storage: 28Mbit
Communication Bandwidth: 9.6Gb/s
Typical Power Consumption: 5W
Compared With Similar Products FFT Performance | |||
Input Points | Operation Cycle | TS201 Operation Cycle | Cycle Number Ratio |
256 | 306 | 1963 | 6.42 |
1024 | 1186 | 9419 | 7.94 |
2048 | 2411 | 20699 | 8.59 |
4096 | 5436 | 69924 | 12.86 |
16384 | 25486 | 303119 | 11.89 |
Interface List
IO Type | Performance Parameter | |
DDR | Particle Type | DDR2 |
External Data Width | 64bit | |
Number of Controllers | 1 | |
Maximum Total Bandwidth | 38.4Gbps@300MHz | |
LVDS Link Port | Number of LANE | send* 4 and receive* 4 |
Maximum Bandwidth | 19.2 Gbps | |
Parallel Port | External Data bit Width | 16bit/32bit/64bit, synchronous/asynchronous transfer |
Maximum Transmission Rate | 60MHz | |
Maximum Total Bandwidth | 3.75Gbps | |
GPIO | / | General GPIO*8 |
Timer | / | 32-bit programmable timers*5 |
External Interrupt | / | external interrupts*5 |
Application Techniques
1.What is the Device Interface Definition of MEMS North Seeker
2.What Performance is the FOG sensor in FOG North Finder
3.Where are MEMS Gyroscopes Used?
4.Research Background and Current Status of MEMS IMU
5.How do parameters affect the performance of the quartz accelerometer?
6.Background and Development Status of MEMS Inertial Sensors