| Japanese | English |
Design Specification
1. Noise Cancelling Algorithm[1]1-1. Specter Subtraction Method (SS Method)
1-2. MAP method using Variable Speech Distribution
1-2-1. MAP Estimate Method
1-2-2. Speech spectrum distribution proposed by T.Lotter and P.Vary
1-2-3. Variable Speech Distribution
2. Implementation of the Noise Cancelling System
2-1.Separating into the Hardware and the Software
2-1-1.Features of the HW and the SW
2-1-2. Feature of Noise Cancelling System
2-1-3. Architecture
2-2. Hardware
2-2-1. Processing flow
2-2-2. Circuit structure
2-2-3. HW timing
2-3. Software
2-3-1. Source code
2-3-2. Flow chart
3. Development Environment
3-1. Hardware Design Process
3-1-1. Design Hardware Logic
3-1-2. Manual of Xilinx ISE and EDK
3-2. Software design process
4. Contest Design Target
5. SPEED and AREA
6. References
7. Download
17th LSI Design ContestsEin Okinawa Design Specification - 2-1
2-1. Separating into the Hardware and the Software
2-1-1. Features of the HW and the SW
The advantage of software processing is that various operating is implemented only by rewriting source codes. Furthermore, a circuit size is constant became software operates loop processing on circuit in the CPU. The disadvantage of software processing is processing speed is slow. On the other hand, the advantage of processing on the hardware is that processing speed is high, but a circuit size is large at the case of difficult processing owing to that required circuit is different for every processing.
Now we discuss about the system shown in the following figure. In this figure, the data is processed by operator F, and then it is branched to operator A, B or C by DEMUX. We defined the operation that is processed by all means as gsettled operationh and the operation that may not be processed as gunsettled operationh. The settled operation is suitability implementation in the hardware for processing speed. However, the unsettled operation isnft suitability implementation in the hardware. If unsettled is implemented on the hardware, the all of circuit is not necessarily utilized every time, so itfs inefficient from the circuit size point of view. So, it is suitability that settled operation is implemented in the hardware, and unsettled operation is done in the software.
2-1-2. Feature of Noise Cancelling System
The processing flow of the system which cancels noise in the frequency domain is shown in the following figure.
The noise canceling algorithms by spectrum gain estimation are suggested in previous works. These algorithms cancel noise in the frequency domain, not the time domain. So, processing in the time domain is constant. From this reason, processing in the time domain is gsettled operationh, and processing in the frequency domain is gunsettled operationh.
2-1-3. Architecture
The processing in the time domain is gsettled operationh, and processing in the frequency domain is gunsettled operationh. Therefore, processing in the time domain is implemented on the hardware for settled operation, and processing in the frequency domain is implemented in the software for unsettled operation. The architecture of noise canceller by hardware/software co-design is shown in the following figure. The architecture process IFFT on the FFT arithmetic unit to make circuit size smaller.
The process of this architecture is shown in the following.
1.Speech signal (in the time domain) is AD converted in AC97 Audio Codec, and putted into the
CPU through AC97 Controller.
2.Speech signal is filtered by window function.
3.The filtered speech signal is converted to the frequency domain by FFT arithmetic unit.
4.The signal (in the frequency domain) is cancelled noise by the CPU. (Software processing)
5.The noise cancelled speech signal is converted to the time domain (IFFT) by FFT arithmetic unit.
6.After IFFT, the speech signal is half-overlapped in the time domain. Then it putted into the CPU.
7.The CPU output speech signal to AC97 Audio Codec through AC97 Controller, and it is DA converted in
AC97 Audio Codec.