| 1. | Design basis of combinational logic circuit 组合逻辑电路设计基础 |
| 2. | A combinational logic element having at least one input channel 一种至少有一个输入通道的组合逻辑元件。 |
| 3. | Combinational logic element 组合逻辑组件 |
| 4. | Combinational logic circuit 组合逻辑电路 |
| 5. | Combinational logic element 组合逻辑元件 |
| 6. | Finally , we study two applications of bdd . the first one is the fault detect of combinational logic circuits 最后,研究了基于bdd的组合电路的故障检测方法和基于bdd的网络可靠度的计算方法等两方面的应用。 |
| 7. | Functions of logic synthesis are to transform and optimize the combinational logic functions and produce the pure logic level structural description 逻辑综合的功能是对组合逻辑函数的描述进行转换和优化,生成与逻辑功能描述等价的优化的逻辑级纯结构描述。 |
| 8. | The results of simulation prove that the improved algorithms are feasible for evolving the digital combinational logic circuits and improve the evolvable efficiency and convergence performance 仿真实验结果证明了改进演化算法对于实现函数级数字组合逻辑电路的硬件演化是可行的,并且提高了演化算法的演化效率和收敛性能。 |
| 9. | Digital design : binary system , boolean algebra , logic gates , simplification of boolean functions , combinational logic . analog design : amplifiers , frequency response , feedback , operational amplifier 数位设计:二进位制、布氏代数、逻辑闸、布氏函数的化简、组合逻辑电路。类比设计:放大器、频率响应、反馈系统、运算放大器。 |
| 10. | Evolvable algorithms are applied to functional digital combinational logic circuits with the structure of classicepglo chip of altera co . and the detailed analyses of typical examples are also given 结合altera公司classicep610芯片的结构,研究了将演化算法应用于函数级数字组合逻辑电路的硬件演化,并且对典型实例进行了详细分析。 |