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HMM_C_LANGUAGE
- 语音识别HMM算法的C语言实现,里面有详细的注释和说明,阅读起来很容易理清程序流程和思路,函数的功能以及函数怎么调用都说的很清楚。相信对语音识别的DSP编程有很大的帮助。-HMM speech recognition algorithm for C-language implementation, which has detailed notes and instructions, read them very easy to straighten out our thinking proces
VQ_C_language
- 基于经典LBG算法的矢量量化的C语言实现,注释详尽,很容易让读者理清程序算法和思路。函数的功能和怎么调用,一目了然。-Based on the classic LBG vector quantization algorithm C-language implementation, comment in detail, it is easy for readers to sort out procedural algorithms and ideas. The function and how f
HMM_C_DSP
- HMM的DSP实现,基于C语言,代码注释详尽,算法思想一目了然,函数接口清晰,函数功能以及函数怎么调用一目了然-HMM-DSP implementation, based on C language, code comment in detail, the algorithm ideas at a glance, the function interface, clarity, function, functions, and how the function is called at a gl
FIRcirc_ext
- 在6416的fir滤波器设计过程中,次程序通过调用ASM函数 使外部存储器实现循环缓冲的功能 对于c6416的学习有一定帮助-FIR Implementation Using C Calling an ASM Function Using a Circular Buffer in External Memory
exam
- 使用CCS3.3开发环境,TMS320C6416 simulation 里面实现的功能是在C中调用汇编,之后在汇编中调用C,实现函数的嵌套,还有一个线性汇编的例子-Use CCS3.3 development environment, TMS320C6416 simulation which implement the function call is compiled in C, after the assembly to call C, the nested function is impl
fft_flp32
- 在DSP中,对回波数据进行FFT处理将其变换到频域后,将其与频域系数进行点积,对点乘结果再做一次逆FFT,将频域结果转换到时域,在这一步中需要调用函数fft_flp32.asm,其功能是实现输入数据的FFT变换。-In DSP, FFT processing of echo data to be transformed into the frequency domain, the frequency-domain coefficients with the dot product, the re
multicore_framework
- 通过CCSv5 开发环境,以及TI TMS320C66X 多核DSP,工程实现了多核框架的编写(基于sys-bios),同时调用clock模块周期触发功能函数,使得不同核之间进行数据的流水串行处理。-Through CCSv5 development environment, as well as TI TMS320C66X multicore DSP, the project can carry out a framework demo for the preparation of multi