Project Name | Stars | Downloads | Repos Using This | Packages Using This | Most Recent Commit | Total Releases | Latest Release | Open Issues | License | Language |
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Dsp Theory | 792 | a year ago | 1 | gpl-3.0 | Jupyter Notebook | |||||
Theory of digital signal processing (DSP): signals, filtration (IIR, FIR, CIC, MAF), transforms (FFT, DFT, Hilbert, Z-transform) etc. | ||||||||||
Dblclockfft | 195 | 4 months ago | 3 | C++ | ||||||
A configurable C++ generator of pipelined Verilog FFT cores | ||||||||||
Fpga Application Development And Simulation | 96 | 10 months ago | 1 | mit | SystemVerilog | |||||
《FPGA应用开发和仿真》(机械工业出版社2018年第1版 ISBN:9787111582786)的源码。Source Code of the book FPGA Application Development and Simulation(CHS). | ||||||||||
Spectrogram | 73 | 4 years ago | 13 | October 21, 2020 | 2 | Python | ||||
80MHz bandwidth with LimeSDR-Mini and GQRX | ||||||||||
Intfftk | 56 | a year ago | gpl-3.0 | VHDL | ||||||
Fully pipelined Integer Scaled / Unscaled Radix-2 Forward/Inverse Fast Fourier Transform (FFT) IP-core for newest Xilinx FPGAs (Source language - VHDL / Verilog). GNU GPL 3.0. | ||||||||||
Fpga Fft | 42 | 3 years ago | 1 | other | VHDL | |||||
A highly optimized streaming FFT core based on Bailey's 4-step large FFT algorithm | ||||||||||
Fpga Sdft | 32 | 4 years ago | 1 | Verilog | ||||||
sliding DFT for FPGA, targetting Lattice ICE40 1k | ||||||||||
Fp23fftk | 31 | 2 years ago | gpl-3.0 | VHDL | ||||||
Floating point Forward/Inverse Fast Fourier Transform (FFT) IP-core for newest Xilinx FPGAs (Source lang. - VHDL). | ||||||||||
Fpga Speech Recognition | 28 | 6 years ago | gpl-3.0 | VHDL | ||||||
Expiremental Speech Recognition System using VHDL & MATLAB. | ||||||||||
Design And Asic Implementation Of 32 Point Fft Processor | 20 | 6 months ago | mit | Verilog | ||||||
I present a novel pipelined fast Fourier transform (FFT) architecture which is capable of producing the output sequence in normal order. A single-path delay commutator processing element (SDC PE) has been proposed for the first time. It saves a complex adder compared with the typical radix-2 butterfly unit. The new pipelined architecture can be built using the proposed processing element. The proposed architecture can lead to 100% hardware utilization and 50% reduction in the overall number of adders required in the conventional pipelined FFT designs. In order to produce the output sequence in normal order, we also present a bit reverser, which can achieve a 50% reduction in memory usage. |