Here are two basic introductions to MACID:
Alas, neither covers IxSet, which is a datatype that is often used with MACID to provide sets with multiple indexes (similar to a SQL table).
MACID is a "ram cloud" style persistent store, meaning your entire dataset is stored in RAM. It currently supports replication. The development version is focused on adding sharding support (among other things).
The thing that makes MACID unique is that it stores normal Haskell dataypes and queries are written using normal Haskell functions. You are not limited to just a small subset of Haskell datatypes such as Int and String. Instead, you can use almost any user defined datatype.
Although MACID stores the working dataset in RAM and is not built around the relational model, it does still provide ACID guarantees. The durability property ensures that once a commit returns successfully, the event will not be lost if their is a server failure (or restart).
Durability is achieved by logging each update event to a write-ahead log. If the the server goes down, the state can be restored by replaying any events since the last checkpoint.
An event in the write-ahead log consists of the name of the update function and the arguments to that function. Since update events are pure, replaying them always results in the same final state.
The actually binary format for the data stored in checkpoints or log events is specified by creating a instance of the Serialize class. In most cases this can be done automatically by calling the template-haskell function 'deriveSerialize'. There is also a Migrate class which is used to migrate values from old formats to new formats when you change your datatypes.
There is an old blog post on the serialization and migration mechanisms here:
That post refers to 'HAppS', but it is pretty much the same in Happstack aside from the module names.
Hope this helps.