Early Battery Failure

I take it the amps are being measured at 12 volts and not a 16 amps load at 110 volts AC?
Did you exceed the discharge capacity?
Most batteries will have a recommended discharge rate. Most batteries rate rated at a discharge of 1/20th of their capacity, 17 amps would be close to 1/12th. 

With the batteries returning to 12.7 volts at rest, I suspect the inverter shutting down was due to voltage drop due to too small of wiring, rather than complete discharge of the battery.

AGM's have limited electrolyte so long float charging can cause water loss.  It is more common to have this failure in AGM and Gel cells.

AGM's don't suffer from positive plate grid corrosion but can build up lead oxide layer thickness on positive plates that increases cell resistance.  About a 10-20% discharge should burn off excessive oxide build up.

As with other lead-acid batteries they can get sulfated.  Negative plate needs higher voltage to fully charge, 13.8v or greater, but don't leave high for float due to electrolyte loss.

If failure is caused by electrolyte loss there is nothing to fix it.  If sulfated you can discharge some then try short periods of high current recharge.  Repeat several times if you see improvement in capacity.

One more comment: In my experience, as Bill said: Sulfated batteries will normally exhibit a low resting voltage. I will add that a healthy-looking resting voltage on a battery that falls flat on its face under load, is what we see on a battery that has been cycled to death or is dried out. I know that you said that isn't your case - just explaining what I see a lot of.

papab said:

Is low capacity and normal open cell voltage consistent with sulfation?

Sulfation term is usually used to denote hardened, un-rechargable lead-sulfate crystals. It should have an open circuit votlage similar to a corresponding percent of state of charge OCV, (lower voltage)

For a flooded battery, this results in lower SG reading as sulphur is locked up on sulfated plates so it cannot recharge back to electrolyte.  This depletes sulfuric acid concentration in electrolyte resulting in lower SG.  Can't measure this on AGM cell however.

So sulfation is a partially discharged battery, permanently stuck at the partially discharged state due to the locked up lead sulfate on plates.  Sulfation is a permanent capacity reduction.  It starts out with normal discharge voltage slump but after some time it drops to greater levels like a normal discharged battery, just happens sooner then it should because battery has less capacity. 

papab said:

Wouldn't the discharge test I did (& am repeating) satisfy the 10-20% discharge?   Or should it be a higher rate?

Yes,  too much lead oxide coating just causes more terminal voltage drop with load current.  As it is burned off the terminal voltage drop improves,  A normal cell will show this within the first minute or two of discharge after been on float for some time.  The voltage will initially dip down at a greater rate within first minute then start to build back up after a couple of minutes of constant load current.

My guess for your case, AGM electrolyte has dried out.  It can not support ion flow due to high electrolyte resistance.  This would give normal open circuit terminal voltage but a lot of voltage slump with current load.  This occurs rather quickly after start of load current.