quartus

Design and Simulation of Digital PID Controller Based on Quartus II

基于QUARTUSII的数字PID控制模块设计与仿真

The Application of Quartus II 4.1 in the Comprehensive Experiment Teaching

QUARTUSII4.1在综合性实践教学中的应用

Finished function and timing Analysis simulation in Quartus ⅱ .

通过QuartusⅡ进行了功能和时序仿真。

The function of signal generator is attained using Quartus ⅱ software .

利用QuartusⅡ设计软件，实现函数信号发生器的功能。

Introduction about the Process of Designing Digital Circuits in Quartus ⅱ 4.0

用Quartus4.0设计数字电路过程的介绍

A digital frequency meter designed with FPGA development software Quartus II is introduced .

介绍了一种运用FPGA开发软件QuartusⅡ设计的数字频率计。

The simulation results of QUARTUS II demonstrate the correctness of the design .

QUARTUSII中的仿真结果证明了设计的正确性。

Simulating Digital Circuit Experiment Based on Quartus ⅱ

用QuartusⅡ实现数字电路实验中的仿真

Design of Stopwatch System with Timer Based on Quartus ⅱ

基于QuartusⅡ的带计时器功能的秒表系统设计

The whole fuzzy inference process is realized by programming directly on the Quartus ⅱ software platform .

在线推理法：整个模糊推理过程在QuartusⅡ软件平台上直接编程实现。

At last , the paper offers timing simulator of key signals with Quartus II .

文章最后给出了主蔓控制信号的QuartusⅡ的时序仿真。

Verilog HDL language is used in the Quartus II software to complete design and simulation .

采用Veriloghdl语言，在QUARTUSII软件下完成设计及仿真验证。

CPLD program design was achieved by using VHDL language in Quartus II 9.0 compiling environment .

在QUARTUSII9.0编译环境下应用VHDL语言编程实现了CPLD程序设计。

The functional modules were functional and timing simulated with Quartus ⅱ simulator .

通过QuartusⅡ仿真器对其进行功能与时序仿真。

It verifies the program in Matlab by analyzing the data derived from Quartus II .

通过将QUARTUSII中的数据导出，在Matlab中进行分析，验证了设计的正确性。

The time delay simulation has been done by Quartus II , and the result of simulation is satisfactory .

在QUARTUSII软件中进行了后仿真，得到了满意的结果。

Finally , the system engineering is synthesized and placement and routing is completed in Quartus II .

最后使用QuartusⅡ将整个系统工程文件综合、布局布线。

The digital control could be realized with VHDL language and graphic chart based on the Quartus II software .

在QUARTUSII软件开发平台下，利用VHDL硬件描述语言和原理图输入方式可实现数字化控制。

Finally , the design is compiled and synthesized in Quartus ⅱ environment and implemented on FPGA .

最后，在QuartusⅡ环境下对其进行编译和综合，并在FPGA上进行实现。

The functions of UART are simulated in Quartus II 4.0 successfully .

设计的UART在QUARTUSII4.0中通过了全部功能仿真。

Lastly , on the basis of board-level system design , using FPGA developing software Quartus II for logic design .

接着，在确定板级系统设计方案上，采用FPGA开发软件QUARTUSII对器件进行逻辑设计。

All designs have been synthesized and simulated successfully on the platform of Quartus II 4.0 .

所有设计均在QUARTUSII4.0上成功地进行了综合、仿真。

In this design , all functional modules were synthetized and simulated on Quartus ⅱ 6.0 platform .

本设计中的各功能模块都在QuartusⅡ平台上进行了综合和仿真。

Using the VHDL language designed the receive module and the transmit module , basing on QUARTUS II software designed top application .

同时通过VHDL语言设计接收和发送模块，基于QUARTUSII软件电路原理图输入法设计顶层应用。

Quartus II Verilog-With the signal processing functions .

用函数对信号进行处理。

Quartus ⅱ 4.0 is an up-to-date EDA development environment which was developed by the corporation of Altera .

QuartusⅡ4.0是Altera公司推出的适用于不同设计对象的最新的EDA开发环境。

Finally , by analyzing different modules based on FPGA , the receiver of MSK System was realized on the Quartus II platform .

最后，分析了各个模块的FPGA实现结构，并在QUARTUSII平台上实现MSK系统的接收端。

Firstly , the PWM hardware was implemented with VHDL using top-to-bottom and modularization design method under the Quartus II environment .

首先，在QUARTUSII环境下，采用自顶向下、模块化的设计方法，基于VHDL实现了PWM硬件。

According to the characteristic of DSP algorithm to be realized , utilize abundant function module and VHDL language offered in QUARTUS to design .

根据待实现的DSP算法的特征，利用QUARTUS中提供的丰富的功能模块和VHDL语言进行设计。

In the design , using built-in since test method , the various modules by VHDL language description , and in Quartus II environment realize simulation .

在设计中，采用内建自测试的方法，各个模块通过VHDL语言描述，并且在QUARTUSII环境下实现仿真。