I'm looking for a standard, official, or at least common term to describe the situation where a system reaches capacity long before the majority of its (theoretical) resources are actually exhausted.
The most famous current example of this is IPv4 exhaustion, but it's not a new phenomenon: if you're from the US and 30 or older, you probably remember the day you had to start dialing 10 numbers instead of 7 to call anyone, even if they lived next door.
Let me start with a concrete example of the problem I'm trying to name. A 7 digit phone number is sufficient to address ten million individual phone subscribers, which is likely an order of magnitude larger than the population of your area code. If some other area code has 12 million people, they can't be served with "unused" numbers from your area code, without losing the meaning of the word "area code".
Contrariwise, a 10-digit (standard US) number could theoretically address 10 billion subscribers, two orders of magnitude greater than the population of the US. This "waste" is intentionally created to offset the inefficiency of hierarchical allocation, and avoid a situation where we have more subscribers than our allocation scheme would allow us to address.
If we think of an IPv4 address or a 7-digit phone number as a "resource", in a generic sense, and a internet-connected device or phone subscriber as a "consumer", in a general sense, the term I'm looking for would describe the basic problem that while there may be enough resources to satisfy all consumers (and more) if they were distributed on a one-to-one basis, the desire to hierarchically group resources into categories (like /8 blocks in IPv4 or area codes in the NANP) precludes certain mappings of resource:consumer, and the proscriptions grow exponentially in the number of hierarchical levels.
In other words, hierarchical allocation of resources has certain benefits, but simultaneously and inevitably introduces the risk of inefficient allocation, and the larger the number of hierarchical levels, the higher the risk (of a "premature pruning" which blocks access to all the leaves beneath that node). I'm looking for the name for this risk.