100 Examples of sentences containing the common noun "node"

Definition

A "Node" is a common noun that refers to a point of intersection or connection in a network, system, or structure. In computer science, it can denote a point in a data structure or a device in a network. In biology, it often describes a point on a plant stem where leaves or branches originate.

Synonyms

• Junction
• Point
• Vertex
• Connection
• Hub
• Intersection
• Link
• Convergence
• Nodule
• Knot

Antonyms

• Disconnection
• Separation
• Division
• Fragmentation
• Isolation

Examples

1. The network nodes are crucial for communication.
2. Each node in the graph represents a unique data point.
3. The plant has several nodes where leaves emerge.
4. You can add a new node to the existing structure.
5. The server acts as a central node in the system.
6. We need to connect the nodes for better performance.
7. The nodes of the network were not responding.
8. He marked every node on the diagram.
9. The node represents a decision point in the process.
10. You can traverse from one node to another using the edges.
11. The nodes in this topology are interconnected.
12. Each node has a unique identifier.
13. The node serves as a relay for data packets.
14. The structure contains multiple nodes for stability.
15. The node failed during the test.
16. She drew a line connecting the two nodes.
17. The node can be a computer or another device.
18. A tree data structure has a root node.
19. The node was added to improve the network layout.
20. The nodes must be configured correctly for optimal performance.
21. Each node in the system can process requests.
22. The application crashed when the node was overloaded.
23. The nodes communicate with each other regularly.
24. The node can store temporary data.
25. We visualized the relationship between the nodes.
26. The node is essential for the analysis.
27. The nodes can be categorized based on functionality.
28. There was a problem with one of the nodes in the cluster.
29. The node architecture allows for easy scaling.
30. We need to monitor the nodes for any issues.
31. Each node contributes to the overall performance.
32. The node was successfully integrated into the network.
33. The nodes interact to transmit information.
34. The network is designed to handle multiple nodes.
35. The node can be a physical or virtual entity.
36. Each node in the tree has children nodes.
37. The node structure is well-defined in the protocol.
38. He configured the node to handle incoming connections.
39. The nodes can fail without affecting the entire system.
40. The node serves as a gateway for external access.
41. The node hierarchy is critical for understanding the system.
42. A single node can represent multiple resources.
43. The nodes were arranged in a linear fashion.
44. The node was not responding to requests.
45. Each node has its own set of rules.
46. The node can initiate a transaction.
47. The nodes are monitored for security purposes.
48. Each node is assigned a specific role.
49. The node was upgraded to support newer features.
50. The nodes are distributed across multiple locations.
51. The node connects to other systems seamlessly.
52. Each node in the network has a specific function.
53. The node can process data in real-time.
54. The nodes work together to achieve the goal.
55. The node holds critical information.
56. We need to optimize the node configuration.
57. The node can generate reports on demand.
58. The nodes were labeled for clarity.
59. The node architecture simplifies management.
60. Each node interacts with users directly.
61. The node is critical for the application’s performance.
62. The nodes can be virtualized for better resource allocation.
63. The node can handle multiple connections simultaneously.
64. The node layout is essential for network efficiency.
65. Each node is linked to a central server.
66. The node can be monitored remotely.
67. The nodes are designed to be fault-tolerant.
68. The node facilitates data sharing.
69. The nodes are updated regularly to ensure security.
70. Each node can function independently.
71. The node is a key component of the architecture.
72. The nodes were tested for performance metrics.
73. The node receives updates from the server.
74. The nodes interact with various APIs.
75. The node configuration is stored in a central database.
76. The nodes can be clustered for high availability.
77. The node acts as a mediator between systems.
78. The nodes allow for flexible scaling options.
79. The node was identified as the source of the issue.
80. Each node can communicate through secure channels.
81. The node is crucial for data integrity.
82. The nodes are interconnected for redundancy.
83. The node can provide analytics on usage.
84. The nodes are essential for the overall system functionality.
85. The node can be a point of failure if not managed properly.
86. The nodes can operate in different environments.
87. The node serves as an access point for users.
88. The nodes need to be synchronized regularly.
89. Each node must be configured for optimal performance.
90. The node can be part of a larger network design.
91. The nodes were visualized using a diagram.
92. The node supports various protocols.
93. The nodes can be monitored for performance bottlenecks.
94. The node may require a reboot to apply updates.
95. The nodes are critical for data flow.
96. The node is part of the larger system architecture.
97. Each node plays a role in the overall process.
98. The node can trigger events based on conditions.
99. The nodes were configured for load balancing.
100. The node is essential for system resilience.