Generated IP Addresses
| IP Address | Type | Network Class |
|---|---|---|
57.143.173.197
|
IPv4 | Class A |
208.87.30.80
|
IPv4 | Class C |
15.253.200.17
|
IPv4 | Class A |
245.34.198.214
|
IPv4 | Class E (Experimental) |
148.215.38.93
|
IPv4 | Class B |
2.224.167.129
|
IPv4 | Class A |
50.61.193.36
|
IPv4 | Class A |
231.109.73.109
|
IPv4 | Class D (Multicast) |
241.88.19.48
|
IPv4 | Class E (Experimental) |
198.145.167.110
|
IPv4 | Class C |
Uses for Random IP Addresses
Development and Testing
- Network Simulation: Create test environments with multiple virtual hosts
- Security Testing: Test firewalls, routers, and access control systems
- IP Blocking Rules: Verify IP filtering functionality works correctly
- Load Balancing: Test distribution of traffic across multiple servers
Educational Purposes
- Learning Network Concepts: Understand IP addressing and subnetting
- Classroom Examples: Create exercises for networking courses
- Documentation: Generate examples for technical documentation
Data Anonymization
- Sample Data: Replace real IP addresses in logs or datasets
- Documentation: Use in public-facing tutorials or presentations
- Placeholder Data: Fill in mock data for UI design and prototyping
Network Planning
- IP Address Scheme Design: Plan network layouts and addressing schemes
- Subnet Allocation: Create examples for IP allocation plans
- Network Diagrams: Use in network architecture documentation
Tips for Working with IP Addresses
- Always use private IP ranges (10.x.x.x, 172.16-31.x.x, 192.168.x.x) for internal networks
- Remember that IPv4 addresses are becoming scarce - consider IPv6 for new deployments
- Use CIDR notation to specify network sizes more precisely than traditional subnet masks
- For security-related testing, ensure you have permission to test on the target networks