• IPv4 addresses have become tradeable assets, but returns depend heavily on policy and demand stability.
• Regulatory uncertainty and IPv6 adoption continue to challenge the long-term investment case.
Why IP addresses became investable assets
IP addresses were never designed as financial instruments. For decades, IPv4 addresses were allocated administratively by Regional Internet Registries, not priced by markets. This changed as address exhaustion became unavoidable. Once the last free pools were depleted, IPv4 addresses began to acquire scarcity value.
Companies with unused legacy allocations found they could monetise them through transfers or leasing. Investors, particularly infrastructure-focused funds, started to treat IPv4 blocks as alternative digital assets with predictable demand from cloud providers, hosting firms, and network operators still reliant on legacy systems.
Supporters argue that this market improves efficiency by reallocating unused resources. However, critics question whether scarcity alone justifies long-term value, especially as IPv6 remains the intended technical successor. According to the Internet Assigned Numbers Authority, IPv6 has been available for decades, raising doubts about whether IPv4 investment reflects necessity or delayed transition.
Also Read: IPv4: The digital real estate of the 21st century
Also Read: Why CFOs, not just CTOs, should care about their IP inventory
Risks shaped by policy, not technology
Unlike commodities, IP addresses exist within a policy framework. Transfers are governed by RIR rules, not free markets. Organisations such as ARIN, RIPE NCC, APNIC, LACNIC, and AFRINIC set conditions on who can acquire addresses and how they are justified. These policies can change.
Investors therefore face regulatory risk alongside technical uncertainty. A policy shift tightening transfer requirements or discouraging speculative holding could reduce liquidity. There is also reputational risk. RIRs were created to manage shared resources, not to enable financialisation. This creates tension between operational needs and investment behaviour.
Another risk is demand erosion. While IPv4 remains widely used, IPv6 adoption continues to increase. If large operators complete transitions faster than expected, demand for leased or traded IPv4 space could soften. This would challenge assumptions that scarcity guarantees stable returns.
Case study: Enterprise divestment of unused IPv4
A common case involves large enterprises that received IPv4 allocations in the 1990s but later migrated workloads to cloud platforms. With fewer internal requirements, these firms transferred surplus address blocks to network operators via RIR-approved processes.
For the seller, the transaction converted dormant infrastructure into capital. For the buyer, the addresses filled immediate operational needs without costly network redesign. However, both parties remained exposed to policy compliance checks and future transfer limitations. The case illustrates that value is realised operationally, not speculatively, and only within existing governance constraints.
Conclusion
Investing in IP addresses sits at the intersection of infrastructure necessity and artificial scarcity. While short- to medium-term rewards have been demonstrated, long-term outcomes remain uncertain. The asset’s value depends less on technology than on governance, adoption behaviour, and the willingness of the internet community to tolerate marketisation.
