Curve25519 vs. Ed25519
First of all, Curve25519 and Ed25519 aren't exactly the same thing. They're based on the same underlying curve, but use different representations. Most implementations are either for Curve25519 or Ed25519, but it's possible to reuse some code between them.
It is possible to convert Ed25519 public keys to Curve25519, but the other way round misses a sign bit. i.e. two Ed25519 public keys correspond to a single Curve25519 public key. Private keys are very similar as well.
Concerning implementations it's important to distinguish between the actual implementation, and libraries that package them in usable form.
djb's implementations in SUPERCOP
Ref written in c, very slow
Ref10 written in c, decent performance
amd64-51-30k, written in assembly, about twice as fast as
He also wrote an earlier, incompatible, prototype in NaCl, don't use that one
Floodyberry's donna implementation
Contains several variants, both assembly and c. Some optimized for 64 bit, some optimized for 32 bit.
C library, currently uses
Has bindings for many programming languages. It's probably the most popular version and what I recommend to most people.
Contains a bunch of other crypto functions from NaCl, such authenticated encryption (XSalsa20Poly1305), hashes, Curve25519 key-exchange.
C library, uses
Most interesting feature of this library is that it supports key-exchange using Ed25519 public keys. But it doesn't hash the shared key, so it doesn't produce the same shared secret as Curve25519.
Contains pre-built binaries for Win32 and Win64.
My C# port
Pure managed code and works unchanged on 32 and 64 bit platforms. Based on Ref10. A bit slower than c implementations, but the difference is surprisingly small.
Supports key-exchange compatible with NaCl using both Curve25519 and Ed25519 key and contains a bunch of other crypto functions from NaCl. I'm aiming for a similar feature set as LibSodium.
The Ed25519 signature functions work and have seen a reasonable amount of tests, but other parts of the library are a bit rough.
Directly using an implementation from SUPERCOP or Floodyberry's code.
Probably requires a bit more work for building, but you'll get higher performance (~2x) and don't need to carry around code you don't need.
I recommend going with LibSodium for now. It's relatively popular and well maintained. Performance is decent, should only cause performance issues in really signature heavy applications.