| 1. | Describes deployment topologies and configuration options
介绍部署拓扑和配置选项。 |
| 2. | Measurement topology and full measure on posets
偏序集上的测度拓扑和全测度 |
| 3. | Mesh simplification algorithm of preserving topology and sharp features
保持拓扑和尖角特征的网格简化算法 |
| 4. | Spatial reasoning combining topological and cardinal directional relation information
基于结合空间拓扑和方向关系信息的空间推理 |
| 5. | The correctness of the designing method and the topology have been verified by experiment
通过原理样机的实验,验证了电路拓扑和参数设计方法的合理性和正确性。 |
| 6. | Get a visual representation of the exchange routing topology and the status of the different routing components
获得exchange路由拓扑和不同路由组件状态的直观表示。 |
| 7. | Abstract : a co - evolution algorithm used to solve topology and size optimization of trusses is proposed
文摘:针对桁架拓扑优化问题提出桁架拓扑和尺寸优化的协同演化算法。 |
| 8. | Before discussing this specific topology and how we configured it , let s take a quick look at the three deployment types
在讨论这个特定的拓扑和如何进行配置之前,让我们快速看一看这三种部署类型。 |
| 9. | To demonstrate the performance of the algorithm , an example of ten - bar truss optimization with discrete cross - section areas is presented
最后,对一个十杆桁架进行拓扑和尺寸协同演化计算,给出计算结果。 |
| 10. | This will serve as a basis for you if you are interested in moving on to more advanced cluster topologies and performance work
如果您有兴趣将目光转向更高级的集群拓扑和性能工作上,那么可以将本文的内容作为基础。 |
